DIGIMAT LEARNING MANAGEMENT PLATFORM

Mechanical Engineering (12,514 Video Lectures)

Link NPTEL Course Name NPTEL Lecture Title
Link Convective Heat and Mass Transfer Lecture 1 - Introduction
Link Convective Heat and Mass Transfer Lecture 2 - Flow Classifications
Link Convective Heat and Mass Transfer Lecture 3 - Laws of Convection
Link Convective Heat and Mass Transfer Lecture 4 - Scalar Transport Equations
Link Convective Heat and Mass Transfer Lecture 5 - Laminar Boundary Layers
Link Convective Heat and Mass Transfer Lecture 6 - Similarity Method
Link Convective Heat and Mass Transfer Lecture 7 - Similaity Solns Velocity BL
Link Convective Heat and Mass Transfer Lecture 8 - Similaity Solns Temperature BL - I
Link Convective Heat and Mass Transfer Lecture 9 - Similaity Solns Temperature BL - II
Link Convective Heat and Mass Transfer Lecture 10 - Integral BL Equations
Link Convective Heat and Mass Transfer Lecture 11 - Integral Solns Laminar Velocity BL
Link Convective Heat and Mass Transfer Lecture 12 - Integral Solns Laminar Temperature BL
Link Convective Heat and Mass Transfer Lecture 13 - Superposition Theory
Link Convective Heat and Mass Transfer Lecture 14 - Laminar Internal Flows
Link Convective Heat and Mass Transfer Lecture 15 - Fully-Developed Laminar Flows - 1
Link Convective Heat and Mass Transfer Lecture 16 - Fully-Developed Laminar Flows - 2
Link Convective Heat and Mass Transfer Lecture 17 - Fully-Developed Laminar Flows Heat Transfer - 1
Link Convective Heat and Mass Transfer Lecture 18 - Fully-Developed Laminar Flows Heat Transfer - 2
Link Convective Heat and Mass Transfer Lecture 19 - Laminar Internal Developing Flows Heat Transfer
Link Convective Heat and Mass Transfer Lecture 20 - Superposition Technique
Link Convective Heat and Mass Transfer Lecture 21 - Nature of Turbulent Flows
Link Convective Heat and Mass Transfer Lecture 22 - Sustaining Mechanism of Turbulence - 1
Link Convective Heat and Mass Transfer Lecture 23 - Sustaining Mechanism of Turbulence - 1
Link Convective Heat and Mass Transfer Lecture 24 - Sustaining Mechanism of Turbulence - 2
Link Convective Heat and Mass Transfer Lecture 25 - Near-Wall Turbulent Flows - 1
Link Convective Heat and Mass Transfer Lecture 26 - Near-Wall Turbulent Flows - 2
Link Convective Heat and Mass Transfer Lecture 27 - Turbulence Models - 1
Link Convective Heat and Mass Transfer Lecture 28 - Turbulence Models - 2
Link Convective Heat and Mass Transfer Lecture 29 - Turbulence Models - 3
Link Convective Heat and Mass Transfer Lecture 30 - Prediction of Turbulent Flows
Link Convective Heat and Mass Transfer Lecture 31 - Prediction of Turbulent Heat Transfer
Link Convective Heat and Mass Transfer Lecture 32 - Convective Mass Transfer
Link Convective Heat and Mass Transfer Lecture 33 - Stefan Flow Model
Link Convective Heat and Mass Transfer Lecture 34 - Couette Flow Model
Link Convective Heat and Mass Transfer Lecture 35 - Reynolds Flow Model
Link Convective Heat and Mass Transfer Lecture 36 - Boundary Layer Flow Model
Link Convective Heat and Mass Transfer Lecture 37 - Evaluation of g and Nw
Link Convective Heat and Mass Transfer Lecture 38 - Diffusion Mass Transfer Problems
Link Convective Heat and Mass Transfer Lecture 39 - Convective MT Couette Flow
Link Convective Heat and Mass Transfer Lecture 40 - Convective MT Reynolds Flow Model - 1
Link Convective Heat and Mass Transfer Lecture 41 - Convective MT Reynolds Flow Model - 2
Link Convective Heat and Mass Transfer Lecture 42 - Natural Convection
Link Convective Heat and Mass Transfer Lecture 43 - Diffusion Jet Flames
Link Cryogenic Engineering Lecture 1 - Introduction to Cryogenic Engineering
Link Cryogenic Engineering Lecture 2 - Properties of Cryogenic Fluids - I
Link Cryogenic Engineering Lecture 3 - Properties of Cryogenic Fluids - II
Link Cryogenic Engineering Lecture 4 - Properties of Cryogenic
Link Cryogenic Engineering Lecture 5 - Material Properties at Low Temperature - I
Link Cryogenic Engineering Lecture 6 - Material Properties at Low Temperature - II
Link Cryogenic Engineering Lecture 7 - Material Properties at Low Temperature - III
Link Cryogenic Engineering Lecture 8 - Gas Liquefaction and Refrigeration Systems - I
Link Cryogenic Engineering Lecture 9 - Gas Liquefaction and Refrigeration Systems - II
Link Cryogenic Engineering Lecture 10 - Gas Liquefaction and Refrigeration Systems - III
Link Cryogenic Engineering Lecture 11 - Gas Liquefaction and Refrigeration Systems - IV
Link Cryogenic Engineering Lecture 12 - Gas Liquefaction and Refrigeration Systems - V
Link Cryogenic Engineering Lecture 13 - Gas Liquefaction and Refrigeration Systems - VI
Link Cryogenic Engineering Lecture 14 - Gas Liquefaction and Refrigeration Systems - VII
Link Cryogenic Engineering Lecture 15 - Gas Liquefaction and Refrigeration Systems - VIII
Link Cryogenic Engineering Lecture 16 - Gas Liquefaction and Refrigeration Systems - IX
Link Cryogenic Engineering Lecture 17 - Gas Liquefaction and Refrigeration Systems - X
Link Cryogenic Engineering Lecture 18 - Gas Separation - I
Link Cryogenic Engineering Lecture 19 - Gas Separation - II
Link Cryogenic Engineering Lecture 20 - Gas Separation - III
Link Cryogenic Engineering Lecture 21 - Gas Separation - IV
Link Cryogenic Engineering Lecture 22 - Gas Separation - V
Link Cryogenic Engineering Lecture 23 - Gas Separation - VI
Link Cryogenic Engineering Lecture 24 - Gas Separation - VII
Link Cryogenic Engineering Lecture 25 - Gas Separation - VIII
Link Cryogenic Engineering Lecture 26 - Cryocoolers
Link Cryogenic Engineering Lecture 27 - Cryocoolers Ideal Stirling Cycle - I
Link Cryogenic Engineering Lecture 28 - Cryocoolers Ideal Stirling Cycle - II
Link Cryogenic Engineering Lecture 29 - Cryocoolers Ideal Stirling Cycle - III
Link Cryogenic Engineering Lecture 30 - Cryocoolers Ideal Stirling Cycle - IV
Link Cryogenic Engineering Lecture 31 - Cryocoolers Ideal Stirling Cycle - V
Link Cryogenic Engineering Lecture 32 - Cryocoolers
Link Cryogenic Engineering Lecture 33 - Cryogenic Insulation - I
Link Cryogenic Engineering Lecture 34 - Cryogenic Insulation - II
Link Cryogenic Engineering Lecture 35 - Cryogenic Insulation - III
Link Cryogenic Engineering Lecture 36 - Vacuum Technology - I
Link Cryogenic Engineering Lecture 37 - Vacuum Technology - II
Link Cryogenic Engineering Lecture 38 - Vaccum Technology - III
Link Cryogenic Engineering Lecture 39 - Instrumentation in Cryogenics - I
Link Cryogenic Engineering Lecture 40 - Instrumentation in Cryogenics - II
Link Cryogenic Engineering Lecture 41 - Instrumentation in Cryogenics - III
Link Cryogenic Engineering Lecture 42 - Safety in Cryogenics
Link Advanced Strength of Materials Lecture 1 - Stress and Strain Tensor
Link Advanced Strength of Materials Lecture 2 - Stress and Strain Tensor (Continued) and Cauchy Formula for Traction
Link Advanced Strength of Materials Lecture 3 - Examples on Calculation of Strains and Tractions, Principal Stresses and Directions
Link Advanced Strength of Materials Lecture 4 - Example on Calculation of Principal Stresses and Directions, Orthogonality of Principal Directions, Principal Stresses are all Real
Link Advanced Strength of Materials Lecture 5 - Maximum Shear Stress and Octahedral Shear Stress, Deviatoric and Hydrostatic Stresses
Link Advanced Strength of Materials Lecture 6 - Transformation of Stresses and Mohr Circle in 3-D
Link Advanced Strength of Materials Lecture 7 - Mohr Circle (Continued)
Link Advanced Strength of Materials Lecture 8 - Deformation, Rotation and Strain Tensors, Principal Strains,Deviatoric and Hydrostatic Strains
Link Advanced Strength of Materials Lecture 9 - Strain Transformations, Strains in Polar Coordinates, Equilibrium Equations in 2-D
Link Advanced Strength of Materials Lecture 10 - Equilibrium Equations in 2-D Polar Coordinates Plane Stress and Plane Strain Conditions
Link Advanced Strength of Materials Lecture 11 - Stress-Strain Relations for Isotropic, Orthotropic and Anisotropic Materials Stress-Strain-Temperature Relations
Link Advanced Strength of Materials Lecture 12 - Relation between Elastic Constants and Strain Energy Densities Recap of Lectures 1 to 11
Link Advanced Strength of Materials Lecture 13 - Stress Distribution in Thick Cylinder
Link Advanced Strength of Materials Lecture 14 - Stresses due to Shrink Fitting
Link Advanced Strength of Materials Lecture 15 - Stresses in Rotating Disc
Link Advanced Strength of Materials Lecture 16 - Examples on Shrink Fitting and Rotating Disc
Link Advanced Strength of Materials Lecture 17 - Torsion of Non-Circular Shaft
Link Advanced Strength of Materials Lecture 18 - Torsion of Non-Circular Shaft (Continued)
Link Advanced Strength of Materials Lecture 19 - Membrane Analogy for Torsion
Link Advanced Strength of Materials Lecture 20 - Torsion of Thin Box Sections
Link Advanced Strength of Materials Lecture 21 - Torsion of Box and Open Sections
Link Advanced Strength of Materials Lecture 22 - Bending of Curved Bars
Link Advanced Strength of Materials Lecture 23 - Bending of Curved Bars (Continued)
Link Advanced Strength of Materials Lecture 24 - Theories of Failure
Link Advanced Strength of Materials Lecture 25 - Theories of Failure (Continued)
Link Advanced Strength of Materials Lecture 26 - Theories of Failure (Continued) and Their Applications, Griffith Theory of Brittle Fracture
Link Advanced Strength of Materials Lecture 27 - Application of Griffith Theory, Irwin-Orowan Modification of Griffith Theory, Assessment of Effect of Dynamic Loading
Link Advanced Strength of Materials Lecture 28 - Theorems of Elasticity
Link Advanced Strength of Materials Lecture 29 - Theorems of Elasticity (Continued)
Link Advanced Strength of Materials Lecture 30 - Thermal Stress Distribution in Rectangular Sheet due to Symmetric and Asymmetric Temperature Fields
Link Advanced Strength of Materials Lecture 31 - Thermal Stress Distribution in Cylinders
Link Advanced Strength of Materials Lecture 32 - Unsymmetrical Bending
Link Advanced Strength of Materials Lecture 33 - Shear Centre
Link Advanced Strength of Materials Lecture 34 - Plate Bending
Link Advanced Strength of Materials Lecture 35 - Plate Bending (Continued)
Link Advanced Strength of Materials Lecture 36 - Examples on Plate Bending
Link Advanced Strength of Materials Lecture 37 - Approximate Solutions for Bending of Rectangular and Circular Plates
Link Advanced Strength of Materials Lecture 38 - Thin Shells of Revolution
Link Advanced Strength of Materials Lecture 39 - Beam on Elastic Foundation
Link Advanced Strength of Materials Lecture 40 - Application of Beam on Elastic Foundation Analysis to Pressure Vessels for Calculation of Discontinuity Stresses
Link Heat and Mass Transfer Lecture 1 - Introduction to Heat and Mass Transfer
Link Heat and Mass Transfer Lecture 2 - Introduction
Link Heat and Mass Transfer Lecture 3 - Introduction
Link Heat and Mass Transfer Lecture 4 - Heat Conduction - 1
Link Heat and Mass Transfer Lecture 5 - Heat Conduction - 2
Link Heat and Mass Transfer Lecture 6 - Heat Conduction - 3
Link Heat and Mass Transfer Lecture 7 - Heat Conduction - 4
Link Heat and Mass Transfer Lecture 8 - Heat Conduction - 5
Link Heat and Mass Transfer Lecture 9 - Heat Conduction - 6
Link Heat and Mass Transfer Lecture 10 - Thermal Radiation - 1
Link Heat and Mass Transfer Lecture 11 - Thermal Radiation - 2
Link Heat and Mass Transfer Lecture 12 - Thermal Radiation - 3
Link Heat and Mass Transfer Lecture 13 - Thermal Radiation - 4
Link Heat and Mass Transfer Lecture 14 - Thermal Radiation - 5
Link Heat and Mass Transfer Lecture 15 - Thermal Radiation - 6
Link Heat and Mass Transfer Lecture 16 - Review Of Fluid Mechanics - 1
Link Heat and Mass Transfer Lecture 17 - Review Of Fluid Mechanics - 2
Link Heat and Mass Transfer Lecture 18 - Forced Convection - 1
Link Heat and Mass Transfer Lecture 19 - Forced Convection - 2
Link Heat and Mass Transfer Lecture 20 - Forced Convection - 3
Link Heat and Mass Transfer Lecture 21 - Forced Convection - 4
Link Heat and Mass Transfer Lecture 22 - Natural Convection - 1
Link Heat and Mass Transfer Lecture 23 - Natural Convection - 2
Link Heat and Mass Transfer Lecture 24 - Natural Convection - 3
Link Heat and Mass Transfer Lecture 25 - Heat Exchangers - 1
Link Heat and Mass Transfer Lecture 26 - Heat Exchangers - 2
Link Heat and Mass Transfer Lecture 27 - Heat Exchangers - 3
Link Heat and Mass Transfer Lecture 28 - Heat Exchangers - 4
Link Heat and Mass Transfer Lecture 29 - Boiling and Condensation - 1
Link Heat and Mass Transfer Lecture 30 - Boiling and Condensation - 2
Link Heat and Mass Transfer Lecture 31 - Boiling and Condensation - 3
Link Heat and Mass Transfer Lecture 32 - Boiling and Condensation - 4
Link Heat and Mass Transfer Lecture 33 - Introduction to Mass Transfer - 1
Link Heat and Mass Transfer Lecture 34 - Introduction to Mass Transfer - 2
Link Heat and Mass Transfer Lecture 35 - Introduction to Mass Transfer - 3
Link Robotics Lecture 1 - Introduction to Robotics
Link Robotics Lecture 2 - Technologies in Robots
Link Robotics Lecture 3 - Industrial Robots
Link Robotics Lecture 4 - Industrial Manipulators and its Kinematics
Link Robotics Lecture 5 - Parallel Manipulators
Link Robotics Lecture 6 - Grippers manipulators
Link Robotics Lecture 7 - Electric Actuators
Link Robotics Lecture 8 - Actuators - Electric, Hydraulic, Pneumatic
Link Robotics Lecture 9 - Internal State Sensors
Link Robotics Lecture 10 - Internal State Sensors
Link Robotics Lecture 11 - External State Sensors
Link Robotics Lecture 12 - Trajectory planning
Link Robotics Lecture 13 - Trajectory planning
Link Robotics Lecture 14 - Trajectory planning
Link Robotics Lecture 15 - Trajectory planning
Link Robotics Lecture 16 - Trajectory planning
Link Robotics Lecture 17 - Trajectory planning
Link Robotics Lecture 18 - Trajectory planning
Link Robotics Lecture 19 - Trajectory planning
Link Robotics Lecture 20 - Forward Position Control
Link Robotics Lecture 21 - Inverse Problem
Link Robotics Lecture 22 - Velocity Analysis
Link Robotics Lecture 23 - Velocity Analysis
Link Robotics Lecture 24 - Dynamic Analysis
Link Robotics Lecture 25 - Image Processing
Link Robotics Lecture 26 - Image Processing
Link Robotics Lecture 27 - Image Processing
Link Robotics Lecture 28 - Image Processing
Link Robotics Lecture 29 - Image Processing
Link Robotics Lecture 30 - Image Processing
Link Robotics Lecture 31 - Robot Dynamics and Control
Link Robotics Lecture 32 - Robot Dynamics and Control
Link Robotics Lecture 33 - Robot Dynamics and Control
Link Robotics Lecture 34 - Robot Dynamics and Control
Link Robotics Lecture 35 - Robot Dynamics and Control
Link Robotics Lecture 36 - Robot Dynamics and Control
Link Robotics Lecture 37 - Futuristic Topics in Robotics
Link Robotics Lecture 38 - Robot Dynamic and Control-Case Studies
Link Robotics Lecture 39 - Robot Dynamic and Control-Case Studies
Link Robotics Lecture 40 - Futuristic Topics in Robotics
Link NOC:Optimization from Fundamentals Lecture 1 - Introduction
Link NOC:Optimization from Fundamentals Lecture 2 - Isoperimetric problem
Link NOC:Optimization from Fundamentals Lecture 3 - Review of real analysis (sequences and convergence)
Link NOC:Optimization from Fundamentals Lecture 4 - Bolzano-Weierstrass theorem and completeness axiom
Link NOC:Optimization from Fundamentals Lecture 5 - Open sets, closed sets and compact sets
Link NOC:Optimization from Fundamentals Lecture 6 - Continuity and Weierstrass theorem
Link NOC:Optimization from Fundamentals Lecture 7 - Weierstrass theorem
Link NOC:Optimization from Fundamentals Lecture 8 - Different solution concepts
Link NOC:Optimization from Fundamentals Lecture 9 - Different types of constraints
Link NOC:Optimization from Fundamentals Lecture 10 - Taylor's theorem
Link NOC:Optimization from Fundamentals Lecture 11 - First order sufficient condition
Link NOC:Optimization from Fundamentals Lecture 12 - Second order necessary condition
Link NOC:Optimization from Fundamentals Lecture 13 - Least square regression
Link NOC:Optimization from Fundamentals Lecture 14 - Least square regression (Continued...)
Link NOC:Optimization from Fundamentals Lecture 15 - Implicit function theorem
Link NOC:Optimization from Fundamentals Lecture 16 - Optimization with equality constraints and introduction to Lagrange multipliers - I
Link NOC:Optimization from Fundamentals Lecture 17 - Optimization with equality constraints and introduction to Lagrange multipliers - II
Link NOC:Optimization from Fundamentals Lecture 18 - Least norm solution of underdetermined linear system
Link NOC:Optimization from Fundamentals Lecture 19 - Transformation of optimization problems - I
Link NOC:Optimization from Fundamentals Lecture 20 - Transformation of optimization problems - II
Link NOC:Optimization from Fundamentals Lecture 21 - Transformation of optimization problems - III
Link NOC:Optimization from Fundamentals Lecture 22 - Convex Analysis - I
Link NOC:Optimization from Fundamentals Lecture 23 - Convex Analysis - II
Link NOC:Optimization from Fundamentals Lecture 24 - Convex Analysis - III
Link NOC:Optimization from Fundamentals Lecture 25 - Polyhedrons
Link NOC:Optimization from Fundamentals Lecture 26 - Minkowski-Weyl Theorem
Link NOC:Optimization from Fundamentals Lecture 27 - Linear Programming Problems
Link NOC:Optimization from Fundamentals Lecture 28 - Extreme points and optimal solution of an LP
Link NOC:Optimization from Fundamentals Lecture 29 - Extreme points and optimal solution of an LP (Continued...)
Link NOC:Optimization from Fundamentals Lecture 30 - Extreme points and basic feasible solutions
Link NOC:Optimization from Fundamentals Lecture 31 - Equivalence of extreme point and BFS
Link NOC:Optimization from Fundamentals Lecture 32 - Equivalence of extreme point and BFS (Continued...)
Link NOC:Optimization from Fundamentals Lecture 33 - Examples of Linear Programming
Link NOC:Optimization from Fundamentals Lecture 34 - Weak and Strong duality
Link NOC:Optimization from Fundamentals Lecture 35 - Proof of strong duality
Link NOC:Optimization from Fundamentals Lecture 36 - Proof of strong duality (Continued...)
Link NOC:Optimization from Fundamentals Lecture 37 - Farkas' lemma
Link NOC:Optimization from Fundamentals Lecture 38 - Max-flow Min-cut problem
Link NOC:Optimization from Fundamentals Lecture 39 - Shortest path problem
Link NOC:Optimization from Fundamentals Lecture 40 - Complementary Slackness
Link NOC:Optimization from Fundamentals Lecture 41 - Proof of complementary slackness
Link NOC:Optimization from Fundamentals Lecture 42 - Tangent cones
Link NOC:Optimization from Fundamentals Lecture 43 - Tangent cones (Continued...)
Link NOC:Optimization from Fundamentals Lecture 44 - Constraint qualifications, Farkas' lemma and KKT
Link NOC:Optimization from Fundamentals Lecture 45 - KKT conditions
Link NOC:Optimization from Fundamentals Lecture 46 - Convex optimization and KKT conditions
Link NOC:Optimization from Fundamentals Lecture 47 - Slater condition and Lagrangian Dual
Link NOC:Optimization from Fundamentals Lecture 48 - Weak duality in convex optimization and Fenchel dual
Link NOC:Optimization from Fundamentals Lecture 49 - Geometry of the Lagrangian
Link NOC:Optimization from Fundamentals Lecture 50 - Strong duality in convex optimization - I
Link NOC:Optimization from Fundamentals Lecture 51 - Strong duality in convex optimization - II
Link NOC:Optimization from Fundamentals Lecture 52 - Strong duality in convex optimization - III
Link NOC:Optimization from Fundamentals Lecture 53 - Line search methods for unconstrained optimization
Link NOC:Optimization from Fundamentals Lecture 54 - Wolfe conditions
Link NOC:Optimization from Fundamentals Lecture 55 - Line search algorithm and convergence
Link NOC:Optimization from Fundamentals Lecture 56 - Steepest descent method and rate of convergence
Link NOC:Optimization from Fundamentals Lecture 57 - Newton's method
Link NOC:Optimization from Fundamentals Lecture 58 - Penalty methods
Link NOC:Optimization from Fundamentals Lecture 59 - L1 and L2 Penalty methods
Link NOC:Optimization from Fundamentals Lecture 60 - Augmented Lagrangian methods
Link NOC:Optimization from Fundamentals Lecture 61 - Cutting plane methods
Link NOC:Optimization from Fundamentals Lecture 62 - Interior point methods for linear programming
Link NOC:Optimization from Fundamentals Lecture 63 - Dynamic programming: Inventory control problem
Link NOC:Optimization from Fundamentals Lecture 64 - Policy and value function
Link NOC:Optimization from Fundamentals Lecture 65 - Principle of optimality in dynamic programming
Link NOC:Optimization from Fundamentals Lecture 66 - Principle of optimality applied to inventory control problem
Link NOC:Optimization from Fundamentals Lecture 67 - Optimal control for a system with linear state dynamics and quadratic cost
Link NOC:Design of Mechatronic Systems Lecture 1 - Introduction
Link NOC:Design of Mechatronic Systems Lecture 2 - Elements of Mechatronic Systems - Part I
Link NOC:Design of Mechatronic Systems Lecture 3 - Elements of Mechatronic Systems - Part II
Link NOC:Design of Mechatronic Systems Lecture 4 - Elements of Mechatronic Systems - Part III
Link NOC:Design of Mechatronic Systems Lecture 5 - CD-ROM - Part I
Link NOC:Design of Mechatronic Systems Lecture 6 - CD-ROM - Part II
Link NOC:Design of Mechatronic Systems Lecture 7 - CD-ROM - Part III
Link NOC:Design of Mechatronic Systems Lecture 8 - Scanner
Link NOC:Design of Mechatronic Systems Lecture 9 - Integrated Mechanical-Electronics Philosophy - Part I
Link NOC:Design of Mechatronic Systems Lecture 10 - Integrated Mechanical-Electronics Philosophy - Part II
Link NOC:Design of Mechatronic Systems Lecture 11 - Smart Sensors Concept
Link NOC:Design of Mechatronic Systems Lecture 12 - Compliant Mechanisms
Link NOC:Design of Mechatronic Systems Lecture 13 - Microprocessor Building Blocks I - Combinational Circuits
Link NOC:Design of Mechatronic Systems Lecture 14 - Microprocessor Building Blocks II - Sequential Circuits
Link NOC:Design of Mechatronic Systems Lecture 15 - Microprocessor Memory and Addressing
Link NOC:Design of Mechatronic Systems Lecture 16 - Timing and control unit: Primitive Microprocessor
Link NOC:Design of Mechatronic Systems Lecture 17 - Microcontroller Architecture - I
Link NOC:Design of Mechatronic Systems Lecture 18 - Microcontroller Architecture - II
Link NOC:Design of Mechatronic Systems Lecture 19 - Microcontroller Programming Philosophy
Link NOC:Design of Mechatronic Systems Lecture 20 - Hardware Interfaces
Link NOC:Design of Mechatronic Systems Lecture 21 - Interfacing Actuator using PWM in Tiva Microcontroller
Link NOC:Design of Mechatronic Systems Lecture 22 - Interfacing Encoder using QEI in Tiva Launchpad + ISR
Link NOC:Design of Mechatronic Systems Lecture 23 - Mathematical Modelling: Overview and Context
Link NOC:Design of Mechatronic Systems Lecture 24 - Modelling Friction in a System
Link NOC:Design of Mechatronic Systems Lecture 25 - Modelling DC Motor with loads
Link NOC:Design of Mechatronic Systems Lecture 26 - Lagrange formulation fundamentals
Link NOC:Design of Mechatronic Systems Lecture 27 - Lagrange formulation examples
Link NOC:Design of Mechatronic Systems Lecture 28 - Dynamics: 2-R Manipulator
Link NOC:Design of Mechatronic Systems Lecture 29 - Control formulation: Regulation and Tracking
Link NOC:Design of Mechatronic Systems Lecture 30 - Fundamentals of Simulation of dynamics using MATLAB
Link NOC:Design of Mechatronic Systems Lecture 31 - Selection of Sensors and Actuators - Part I
Link NOC:Design of Mechatronic Systems Lecture 32 - Selection of Sensors and Actuators - Part II
Link NOC:Design of Mechatronic Systems Lecture 33 - Concept of feedback
Link NOC:Design of Mechatronic Systems Lecture 34 - Closed loop control implementation in microcontroller
Link NOC:Design of Mechatronic Systems Lecture 35 - Mathematical representations of systems for control
Link NOC:Design of Mechatronic Systems Lecture 36 - Control design for linear systems
Link NOC:Design of Mechatronic Systems Lecture 37 - Application of control design for linear systems
Link NOC:Design of Mechatronic Systems Lecture 38 - Mathematical Preliminaries- Nonlinear Control
Link NOC:Design of Mechatronic Systems Lecture 39 - Fundamentals of Lyapunov theory
Link NOC:Design of Mechatronic Systems Lecture 40 - Application of Lyapunov stability analysis
Link NOC:Design of Mechatronic Systems Lecture 41 - Trajectory tracking controller: Robotic system
Link NOC:Design of Mechatronic Systems Lecture 42 - Fundamentals of sampling
Link NOC:Design of Mechatronic Systems Lecture 43 - Shannon sampling theorem and signal reconstruction
Link NOC:Design of Mechatronic Systems Lecture 44 - Signal processing
Link NOC:Design of Mechatronic Systems Lecture 45 - Digital system representation and filters for mechatronics
Link NOC:Design of Mechatronic Systems Lecture 46 - Case study: Development of 3D microprinting system
Link NOC:Design of Mechatronic Systems Lecture 47 - Case study: 3D microprinting via Bulk lithography
Link NOC:Design of Mechatronic Systems Lecture 48 - Case study: Hele-Shaw system for novel fabrication
Link NOC:Nonlinear Adaptive Control Lecture 1 - Basic Concepts and Nomenclature
Link NOC:Nonlinear Adaptive Control Lecture 2 - Preliminaries - Part 1
Link NOC:Nonlinear Adaptive Control Lecture 3 - Preliminaries - Part 2
Link NOC:Nonlinear Adaptive Control Lecture 4 - Preliminaries - Part 3
Link NOC:Nonlinear Adaptive Control Lecture 5 - Preliminaries - Part 4
Link NOC:Nonlinear Adaptive Control Lecture 6 - Preliminaries - Part 5
Link NOC:Nonlinear Adaptive Control Lecture 7 - Barbalat's Lemma - Part 1
Link NOC:Nonlinear Adaptive Control Lecture 8 - Barbalat's Lemma - Part 2
Link NOC:Nonlinear Adaptive Control Lecture 9 - Convergence of Signals using Barbalat's Lemma - Part 1
Link NOC:Nonlinear Adaptive Control Lecture 10 - Convergence of Signals using Barbalat's Lemma - Part 2
Link NOC:Nonlinear Adaptive Control Lecture 11 - Notions of Stability - Part 1
Link NOC:Nonlinear Adaptive Control Lecture 12 - Notions of Stability - Part 2
Link NOC:Nonlinear Adaptive Control Lecture 13 - Stability Analysis with Examples - Part 1
Link NOC:Nonlinear Adaptive Control Lecture 14 - Stability Analysis with Examples - Part 2
Link NOC:Nonlinear Adaptive Control Lecture 15 - Stability Analysis with Examples - Part 3
Link NOC:Nonlinear Adaptive Control Lecture 16 - Stability Analysis with Examples - Part 4
Link NOC:Nonlinear Adaptive Control Lecture 17 - Stability Analysis in Linear Systems
Link NOC:Nonlinear Adaptive Control Lecture 18 - Function Classes and Definiteness
Link NOC:Nonlinear Adaptive Control Lecture 19 - Positive Definite Functions
Link NOC:Nonlinear Adaptive Control Lecture 20 - Radially Unbounded Functions
Link NOC:Nonlinear Adaptive Control Lecture 21 - Decrescent Functions
Link NOC:Nonlinear Adaptive Control Lecture 22 - Lyapunov Stability Theorems - Part 1
Link NOC:Nonlinear Adaptive Control Lecture 23 - Lyapunov Stability Theorems - Part 2
Link NOC:Nonlinear Adaptive Control Lecture 24 - Lyapunov Stability Theorems - Part 3
Link NOC:Nonlinear Adaptive Control Lecture 25 - Exponential Stability and Converse Lyapunov Theorems
Link NOC:Nonlinear Adaptive Control Lecture 26 - Persistence of Excitation (PE): Introduction
Link NOC:Nonlinear Adaptive Control Lecture 27 - Connection of PE to Stability, Uniform Complete Observability (UCO)
Link NOC:Nonlinear Adaptive Control Lecture 28 - Exponential Stability of LTV systems, PE and Exponential Stability
Link NOC:Nonlinear Adaptive Control Lecture 29 - Parameter Identifier Convergence under PE Condition
Link NOC:Nonlinear Adaptive Control Lecture 30 - Analysis of Parameter Varying Systems using General Integral Lemma - Part 1
Link NOC:Nonlinear Adaptive Control Lecture 31 - Analysis of Parameter Varying Systems using General Integral Lemma - Part 2
Link NOC:Nonlinear Adaptive Control Lecture 32 - Adaptive Control Design: First Order Scalar Systems
Link NOC:Nonlinear Adaptive Control Lecture 33 - Barbalat's Lemma and Signal Chasing Anslysis
Link NOC:Nonlinear Adaptive Control Lecture 34 - Parameter Convergence in Adaptive Control Design
Link NOC:Nonlinear Adaptive Control Lecture 35 - Adaptive Control Design: Second-Order Systems
Link NOC:Nonlinear Adaptive Control Lecture 36 - Overcoming the Detectability Obstacle: Ortega Construction
Link NOC:Nonlinear Adaptive Control Lecture 37 - Backstepping in Adaptive Control: Introduction - Part 1
Link NOC:Nonlinear Adaptive Control Lecture 38 - Backstepping in Adaptive Control: Introduction - Part 2
Link NOC:Nonlinear Adaptive Control Lecture 39 - Backstepping in Adaptive Control: Parameters Unmatched with Control - Part 1
Link NOC:Nonlinear Adaptive Control Lecture 40 - Backstepping in Adaptive Control: Parameters Unmatched with Control - Part 2
Link NOC:Nonlinear Adaptive Control Lecture 41 - How to Deal with Unknown Gains in Control
Link NOC:Nonlinear Adaptive Control Lecture 42 - Setup of Model Reference Adaptive Control (MRAC) Problem
Link NOC:Nonlinear Adaptive Control Lecture 43 - Model Reference Adaptive control: For Known and Unknown Parameters
Link NOC:Nonlinear Adaptive Control Lecture 44 - Model Reference Adaptive control: Lyapunov Stability Analysis
Link NOC:Nonlinear Adaptive Control Lecture 45 - Generalization of Adaptive Integrator Backstepping Method - Part 1
Link NOC:Nonlinear Adaptive Control Lecture 46 - Generalization of Adaptive Integrator Backstepping Method - Part 2
Link NOC:Nonlinear Adaptive Control Lecture 47 - Extended Matching Design for Avoiding Overparameterization
Link NOC:Nonlinear Adaptive Control Lecture 48 - Adaptive Integrator Backstepping Method: An Example - Part 1
Link NOC:Nonlinear Adaptive Control Lecture 49 - Adaptive Integrator Backstepping Method: An Example - Part 2
Link NOC:Nonlinear Adaptive Control Lecture 50 - Extended Matching Design: An Example
Link NOC:Nonlinear Adaptive Control Lecture 51 - Control Lyapunov Function
Link NOC:Nonlinear Adaptive Control Lecture 52 - Tuning Function Adaptive Method
Link NOC:Nonlinear Adaptive Control Lecture 53 - Adaptive Backstepping via Control Lyapunov Function (CLF)
Link NOC:Nonlinear Adaptive Control Lecture 54 - Adaptive Backstepping via CLF: An Example
Link NOC:Nonlinear Adaptive Control Lecture 55 - Robustness in Adaptive Control - Part 1
Link NOC:Nonlinear Adaptive Control Lecture 56 - Robustness in Adaptive Control - Part 2
Link NOC:Nonlinear Adaptive Control Lecture 57 - Parameter Projection in Adaptive Control - Part 1
Link NOC:Nonlinear Adaptive Control Lecture 58 - Parameter Projection in Adaptive Control - Part 2
Link NOC:Nonlinear Adaptive Control Lecture 59 - Parameter Projection in Adaptive Control - Part 3
Link NOC:Nonlinear Adaptive Control Lecture 60 - Sigma- Modification and Epsilon-Modification in Adaptive Control
Link NOC:Nonlinear Adaptive Control Lecture 61 - Initial Excitation in Adaptive Control - Part 1
Link NOC:Nonlinear Adaptive Control Lecture 62 - Initial Excitation in Adaptive Control - Part 2
Link NOC:Nonlinear Adaptive Control Lecture 63 - Initial Excitation in Adaptive Control - Part 3
Link NOC:Nonlinear Adaptive Control Lecture 64 - Initial Excitation in Adaptive Control - Part 4
Link NOC:Nonlinear Adaptive Control Lecture 65 - Initial Excitation in Adaptive Control - Part 5
Link NOC:Nonlinear Adaptive Control Lecture 66 - Discussion on Historical Developments in Adaptive Control and Learning
Link NOC:Nonlinear Adaptive Control Lecture 67 - Real Time Neural Network Based Control of a Robotic Manipulator - Part 1
Link NOC:Nonlinear Adaptive Control Lecture 68 - Real Time Neural Network Based Control of a Robotic Manipulator - Part 2
Link NOC:Nonlinear Adaptive Control Lecture 69 - Real Time Neural Network Based Control of a Robotic Manipulator - Part 3
Link NOC:Nonlinear Adaptive Control Lecture 70 - Real Time Neural Network Based Control of a Robotic Manipulator - Part 4
Link NOC:Nonlinear Adaptive Control Lecture 71 - Real Time Neural Network Based Control of a Robotic Manipulator - Part 5
Link NOC:Nonlinear Control Design Lecture 1 - Course Introduction
Link NOC:Nonlinear Control Design Lecture 2 - Examples of Nonlinear systems
Link NOC:Nonlinear Control Design Lecture 3 - Existence and uniqueness of solutions
Link NOC:Nonlinear Control Design Lecture 4 - Preliminaries and notations
Link NOC:Nonlinear Control Design Lecture 5 - Preliminaries: Normed linear space
Link NOC:Nonlinear Control Design Lecture 6 - Preliminaries: Induced Matrix Norms and Signal Norms
Link NOC:Nonlinear Control Design Lecture 7 - Signal Norms and Cauchy-Schwarz Inequality
Link NOC:Nonlinear Control Design Lecture 8 - Stability - Part 1
Link NOC:Nonlinear Control Design Lecture 9 - Stability - Part 2
Link NOC:Nonlinear Control Design Lecture 10 - Stability - Part 3
Link NOC:Nonlinear Control Design Lecture 11 - Stability - Part 4
Link NOC:Nonlinear Control Design Lecture 12 - Stability - Part 5
Link NOC:Nonlinear Control Design Lecture 13 - Lyapunov stability Theorems - Part 1
Link NOC:Nonlinear Control Design Lecture 14 - Lyapunov stability Theorems - Part 2
Link NOC:Nonlinear Control Design Lecture 15 - Lyapunov stability Theorems - Part 3
Link NOC:Nonlinear Control Design Lecture 16 - Lyapunov stability Theorems - Part 4
Link NOC:Nonlinear Control Design Lecture 17 - Lyapunov stability Theorems - Part 5
Link NOC:Nonlinear Control Design Lecture 18 - Lyapunov stability Theorems - Part 6
Link NOC:Nonlinear Control Design Lecture 19 - Proofs of Lyapunov Stability Theorems - Part 1
Link NOC:Nonlinear Control Design Lecture 20 - Proofs of Lyapunov Stability Theorems - Part 2
Link NOC:Nonlinear Control Design Lecture 21 - Proofs of Lyapunov Stability Theorems - Part 3
Link NOC:Nonlinear Control Design Lecture 22 - Proofs of Lyapunov Stability Theorems - Part 4
Link NOC:Nonlinear Control Design Lecture 23 - La Salle's Invariance Principle - Part 1
Link NOC:Nonlinear Control Design Lecture 24 - La Salle's Invariance Principle - Part 2
Link NOC:Nonlinear Control Design Lecture 25 - La Salle's Invariance Principle - Part 3
Link NOC:Nonlinear Control Design Lecture 26 - La Salle's Invariance Principle - Part 4
Link NOC:Nonlinear Control Design Lecture 27 - La Salle's Invariance Principle - Part 5
Link NOC:Nonlinear Control Design Lecture 28 - La Salle's Invariance Principle - Part 6
Link NOC:Nonlinear Control Design Lecture 29 - Control Lyapunov functions - Part 1
Link NOC:Nonlinear Control Design Lecture 30 - Control Lyapunov functions - Part 2
Link NOC:Nonlinear Control Design Lecture 31 - Control Lyapunov functions - Part 3
Link NOC:Nonlinear Control Design Lecture 32 - Control Lyapunov functions - Part 4
Link NOC:Nonlinear Control Design Lecture 33 - Control Lyapunov functions - Part 5
Link NOC:Nonlinear Control Design Lecture 34 - Backstepping method for control design - Part 1
Link NOC:Nonlinear Control Design Lecture 35 - Backstepping method for control design - Part 2
Link NOC:Nonlinear Control Design Lecture 36 - Backstepping method for control design - Part 3
Link NOC:Nonlinear Control Design Lecture 37 - Backstepping method for control design - Part 4
Link NOC:Nonlinear Control Design Lecture 38 - Passivity based control - Part 1
Link NOC:Nonlinear Control Design Lecture 39 - Passivity based control - Part 2
Link NOC:Nonlinear Control Design Lecture 40 - Passivity based control - Part 3
Link NOC:Nonlinear Control Design Lecture 41 - Passivity in control systems - Part 1 (Prof. Antonio Loria)
Link NOC:Nonlinear Control Design Lecture 42 - Passivity in control systems - Part 2 (Prof. Antonio Loria)
Link NOC:Nonlinear Control Design Lecture 43 - Passivity in control systems - Part 3 (Prof. Antonio Loria)
Link NOC:Nonlinear Control Design Lecture 44 - Passivity in control systems - Part 4 (Prof. Antonio Loria)
Link NOC:Nonlinear Control Design Lecture 45 - Passivity based control - Part 4
Link NOC:Nonlinear Control Design Lecture 46 - Passivity based control - Part 5
Link NOC:Nonlinear Control Design Lecture 47 - Passivity based control - Part 6
Link NOC:Nonlinear Control Design Lecture 48 - Passivity based control - Part 7
Link NOC:Nonlinear Control Design Lecture 49 - Feedback Linearization - Part 1
Link NOC:Nonlinear Control Design Lecture 50 - Feedback Linearization - Part 2
Link NOC:Nonlinear Control Design Lecture 51 - Feedback Linearization - Part 3
Link NOC:Nonlinear Control Design Lecture 52 - Feedback Linearization - Part 4
Link NOC:Nonlinear Control Design Lecture 53 - Feedback Linearization - Part 5
Link NOC:Nonlinear Control Design Lecture 54 - Feedback Linearization - Part 6
Link NOC:Nonlinear Control Design Lecture 55 - Feedback Linearization - Part 6
Link NOC:Nonlinear Control Design Lecture 56 - Feedback Linearization - Part 7
Link NOC:Nonlinear Control Design Lecture 57 - Feedback Linearization - Part 8
Link NOC:Nonlinear Control Design Lecture 58 - Feedback Linearization - Part 9
Link NOC:Nonlinear Control Design Lecture 59 - Feedback Linearization - Part 10
Link NOC:Nonlinear Control Design Lecture 60 - Feedback Linearization - Part 11
Link NOC:Nonlinear Control Design Lecture 61 - Barbalat's Lemma
Link NOC:Nonlinear Control Design Lecture 62 - Application of Barbalat's Lemma
Link NOC:Nonlinear Control Design Lecture 63 - Adaptive control - Part 1
Link NOC:Nonlinear Control Design Lecture 64 - Adaptive control - Part 2
Link NOC:Nonlinear Control Design Lecture 65 - State constrained control - Part 1
Link NOC:Nonlinear Control Design Lecture 66 - State constrained control - Part 2
Link NOC:Nonlinear Control Design Lecture 67 - State constrained control - Part 3
Link NOC:Nonlinear Control Design Lecture 68 - Finite time stability - Part 1
Link NOC:Nonlinear Control Design Lecture 69 - Finite time stability - Part 2
Link NOC:Nonlinear Control Design Lecture 70 - Finite time stability - Part 3
Link NOC:Nonlinear Control Design Lecture 71 - Sliding mode control - Part 1
Link NOC:Nonlinear Control Design Lecture 72 - Sliding mode control - Part 2
Link NOC:Nonlinear Control Design Lecture 73 - Sliding mode control - Part 3
Link Tribology Lecture 1 - Introduction
Link Tribology Lecture 2 - Interdisciplinary Approach and Economic Benefits
Link Tribology Lecture 3 - Friction
Link Tribology Lecture 4 - Friction Estimation
Link Tribology Lecture 5 - Friction Instability
Link Tribology Lecture 6 - Wear
Link Tribology Lecture 7 - Adhesive Wear
Link Tribology Lecture 8 - Wear Mechanisms
Link Tribology Lecture 9 - Wear Mechanisms - 2
Link Tribology Lecture 10 - Wear Analysis
Link Tribology Lecture 11 - Lubrication and Lubricants
Link Tribology Lecture 12 - Boundary Lubrication
Link Tribology Lecture 13 - Lubrication Mechanisms
Link Tribology Lecture 14 - Hydrodynamic Lubrication
Link Tribology Lecture 15 - Lubricant Classifications
Link Tribology Lecture 16 - Solid and Semi Solid Lubricants
Link Tribology Lecture 17 - Liquid Lubricants
Link Tribology Lecture 18 - Lubricant Additives
Link Tribology Lecture 19 - Fluid Film Lubrication
Link Tribology Lecture 20 - Reynolds Equation
Link Tribology Lecture 21 - Solution of Reynolds Equation
Link Tribology Lecture 22 - Hybrid Solution Approach (to solve Reynolds Equation)
Link Tribology Lecture 23 - Finite Difference Method to Solve Reynolds Equation
Link Tribology Lecture 24 - Viscosity Variation
Link Tribology Lecture 25 - Estimating Elastic Deformation
Link Tribology Lecture 26 - Thermo Hydrodynamic Lubrication
Link Tribology Lecture 27 - Application of Tribology
Link Tribology Lecture 28 - Rolling Element Bearings
Link Tribology Lecture 29 - Rolling Element Bearings (Continued...)
Link Tribology Lecture 30 - Rolling Element Bearings (Continued...)
Link Tribology Lecture 31 - Selection of Rolling Element Bearings
Link Tribology Lecture 32 - Friction of Rolling Element Bearing
Link Tribology Lecture 33 - Bearing Clearance
Link Tribology Lecture 34 - Bearing Lubrication
Link Tribology Lecture 35 - Tribology of Gears
Link Tribology Lecture 36 - Friction and Lubrication of Gears
Link Tribology Lecture 37 - Friction and Lubrication of Gears (Continued...)
Link Tribology Lecture 38 - Surface Fatigue of Spur Gears
Link Tribology Lecture 39 - Journal Bearings
Link Tribology Lecture 40 - Hydrostatic Bearings
Link Tribology Lecture 41 - Hydrodynamic Journal Bearings
Link Tribology Lecture 42 - Design of Hydrodynamic Journal Bearings
Link Computer Aided Design and Manufacturing Lecture 1 - An Introduction to CAD
Link Computer Aided Design and Manufacturing Lecture 2 - Input Output Devices, Raster Graphics
Link Computer Aided Design and Manufacturing Lecture 3 - Raster Graphics - I
Link Computer Aided Design and Manufacturing Lecture 4 - Raster Graphics - II
Link Computer Aided Design and Manufacturing Lecture 5 - Polygon Filling
Link Computer Aided Design and Manufacturing Lecture 6 - Windowing and Clipping
Link Computer Aided Design and Manufacturing Lecture 7 - Clipping of Polygons
Link Computer Aided Design and Manufacturing Lecture 8 - 2D Transformations
Link Computer Aided Design and Manufacturing Lecture 9 - 3D Transformations and Projection
Link Computer Aided Design and Manufacturing Lecture 10 - Perspective Projections
Link Computer Aided Design and Manufacturing Lecture 11 - Projections and Hidden Surface Removal
Link Computer Aided Design and Manufacturing Lecture 12 - Hidden Surface Removal
Link Computer Aided Design and Manufacturing Lecture 13 - Hidden Surface Removal
Link Computer Aided Design and Manufacturing Lecture 14 - Hidden Surface Removal
Link Computer Aided Design and Manufacturing Lecture 15 - Finite Element Method : An Introduction
Link Computer Aided Design and Manufacturing Lecture 16 - Galerkin's Approach
Link Computer Aided Design and Manufacturing Lecture 17 - Galerkin's Method : 1D Finite Element Method
Link Computer Aided Design and Manufacturing Lecture 18 - 1D Finite Element Problems
Link Computer Aided Design and Manufacturing Lecture 19 - 1D Finite Element Problems
Link Computer Aided Design and Manufacturing Lecture 20 - FE Problems : Solving for Q
Link Computer Aided Design and Manufacturing Lecture 21 - 1D - FE Problems : Galerkin's Approach
Link Computer Aided Design and Manufacturing Lecture 22 - Penalty Approach and Multi Point Boundary
Link Computer Aided Design and Manufacturing Lecture 23 - Quadratic Shape Functions
Link Computer Aided Design and Manufacturing Lecture 24 - 2D - FE Problems
Link Computer Aided Design and Manufacturing Lecture 25 - 2D - FE Problems (Continued.)
Link Computer Aided Design and Manufacturing Lecture 26 - 3D - FE Problems
Link Computer Aided Design and Manufacturing Lecture 27 - 3D - Tetrahedral and 2D - Quadrilateral Element
Link Computer Aided Design and Manufacturing Lecture 28 - Mesh Preparation
Link Computer Aided Design and Manufacturing Lecture 29 - Modeling of Curves
Link Computer Aided Design and Manufacturing Lecture 30 - Modeling of Curves
Link Computer Aided Design and Manufacturing Lecture 31 - Modeling of Curves
Link Computer Aided Design and Manufacturing Lecture 32 - Modeling of B-Spline Curves
Link Computer Aided Design and Manufacturing Lecture 33 - Modeling of B-spline Curves
Link Computer Aided Design and Manufacturing Lecture 34 - Surface Modeling
Link Computer Aided Design and Manufacturing Lecture 35 - Surface Modeling
Link Computer Aided Design and Manufacturing Lecture 36 - Display of Curves and Surfaces
Link Computer Aided Design and Manufacturing Lecture 37 - Solid Modeling
Link Computer Aided Design and Manufacturing Lecture 38 - Solid Modeling
Link Computer Aided Design and Manufacturing Lecture 39 - Solid Modeling Using Octrees
Link Computer Aided Design and Manufacturing Lecture 40 (Missing)
Link Computer Aided Design and Manufacturing Lecture 41 - Computer Aided Design
Link Computer Aided Design and Manufacturing Lecture 42 - Computer Aided Manufacturing
Link Computer Aided Design and Manufacturing Lecture 43 - What is CAD/CAM
Link Computer Aided Design and Manufacturing Lecture 44 - An Overview of Geometric Modeling
Link Computer Aided Design and Manufacturing Lecture 45 - Parametric Cubic Curve
Link Computer Aided Design and Manufacturing Lecture 46 - Parametric Bezier Curve
Link Computer Aided Design and Manufacturing Lecture 47 - B-Spline Curve
Link Computer Aided Design and Manufacturing Lecture 48 - Parametric Surfaces - Part-1
Link Computer Aided Design and Manufacturing Lecture 49 - Parametric Surfaces - Part-2
Link Computer Aided Design and Manufacturing Lecture 50 - Solid Modeling
Link Computer Aided Design and Manufacturing Lecture 51 - Geometric & Product Data Exchange
Link Computer Aided Design and Manufacturing Lecture 52 - Reverse Engineering
Link Project and Production Management Lecture 1 - Project and Production Management - An Overview
Link Project and Production Management Lecture 2 - Project Management: An Overview
Link Project and Production Management Lecture 3 - Project Identification and Screening
Link Project and Production Management Lecture 4 - Project Appraisal - Part I
Link Project and Production Management Lecture 5 - Project Appraisal - Part II
Link Project and Production Management Lecture 6 - Project Selection
Link Project and Production Management Lecture 7 - Project Representation
Link Project and Production Management Lecture 8 - Consistency and Redundancy in Project Networks
Link Project and Production Management Lecture 9 - Basic scheduling with A-O-A Networks
Link Project and Production Management Lecture 10 - Basic Scheduling with A-O-N Networks
Link Project and Production Management Lecture 11 - Project Scheduling with Probabilistic Activity
Link Project and Production Management Lecture 12 - Linear Time-Cost Tradeoffs in Projects
Link Project and Production Management Lecture 13 - Project Crashing with Multiple Objectives
Link Project and Production Management Lecture 14 - Resource Profiles and Leveling
Link Project and Production Management Lecture 15 - Limited Resource Allocation
Link Project and Production Management Lecture 16 - Project Monitoring and Control with PERT/Cost
Link Project and Production Management Lecture 17 - Team Building and Leadership in Projects
Link Project and Production Management Lecture 18 - Organizational and Behavioral Issues
Link Project and Production Management Lecture 19 - Computers in Project Management
Link Project and Production Management Lecture 20 - Project Completion and Review
Link Project and Production Management Lecture 21 - Life Cycle of a Production System
Link Project and Production Management Lecture 22 - Role of Models in Production Management
Link Project and Production Management Lecture 23 - Financial Evaluation of capital Decisions
Link Project and Production Management Lecture 24 - Decision Trees and Risk Evaluation
Link Project and Production Management Lecture 25 - Introducing New Products & Services
Link Project and Production Management Lecture 26 - Economic Evaluation of New Products & Services
Link Project and Production Management Lecture 27 - Product Mix Decisions
Link Project and Production Management Lecture 28 - Product & Process Design
Link Project and Production Management Lecture 29 - Issues in Location of Facilities
Link Project and Production Management Lecture 30 - Mathematical Models for Facility Location
Link Project and Production Management Lecture 31 - Layout planning
Link Project and Production Management Lecture 32 - Computerised Layout Planning
Link Project and Production Management Lecture 33 - Product Layouts and Assembly Line Balancing
Link Project and Production Management Lecture 34 - Forecasting
Link Project and Production Management Lecture 35 - The Analysis of Time Series
Link Project and Production Management Lecture 36 - Aggregate Production Planning: Basic Concepts
Link Project and Production Management Lecture 37 - Modelling Approaches
Link Project and Production Management Lecture 38 - Basic Inventory Principles
Link Project and Production Management Lecture 39 - Inventory Modelling
Link Project and Production Management Lecture 40 - Material Requirements Planning
Link Project and Production Management Lecture 41 - Scheduling of Job Shops
Link NOC:RAC Product Design Lecture 1 - Introduction to Design
Link NOC:RAC Product Design Lecture 2 - Design Considerations
Link NOC:RAC Product Design Lecture 3 - Basic Concepts Psychrometry and Air-Conditioning
Link NOC:RAC Product Design Lecture 4 - Refrigerants
Link NOC:RAC Product Design Lecture 5 - Refrigerant Properties and Applications
Link NOC:RAC Product Design Lecture 6 - Refrigeration Cycle and Components
Link NOC:RAC Product Design Lecture 7 - Compressor Selection
Link NOC:RAC Product Design Lecture 8 - Expansion Devices
Link NOC:RAC Product Design Lecture 9 - Condensers and Evaporators
Link NOC:RAC Product Design Lecture 10 - Types of Heat Exchangers and Air Conditioning Systems
Link NOC:RAC Product Design Lecture 11 - Selection of Air Conditioning Systems for Hostels
Link NOC:RAC Product Design Lecture 12 - Case Study on a Railway Air Conditioning System
Link NOC:RAC Product Design Lecture 13 - Vibration and noise issues in railway AC systems
Link NOC:RAC Product Design Lecture 14 - New product launch process
Link NOC:RAC Product Design Lecture 15 - Case study on a telecom cooling system and Emerging technologies
Link NOC:Thermodynamics Lecture 1 - Thermodynamic Concepts: Applications of thermodynamics
Link NOC:Thermodynamics Lecture 2 - Thermodynamic Concepts: System definition,Heat, Work and Mass Flow
Link NOC:Thermodynamics Lecture 3 - Thermodynamic Concepts: Questions and Answers
Link NOC:Thermodynamics Lecture 4 - Thermodynamic Concepts: Properties,State and Equilibrium
Link NOC:Thermodynamics Lecture 5 - Thermodynamic Concepts: Process, Cycles and Applications
Link NOC:Thermodynamics Lecture 6 - Thermodynamic Concepts: Steady state, Reversible and Irreversible processes
Link NOC:Thermodynamics Lecture 7 - Thermodynamic Concepts: Causes of irreversibility
Link NOC:Thermodynamics Lecture 8 - Thermodynamic Concepts: Thermal reservoirs
Link NOC:Thermodynamics Lecture 9 - Thermodynamic Concepts: Pressure and temperature
Link NOC:Thermodynamics Lecture 10 - Thermodynamic Concepts: Revision and Summary
Link NOC:Thermodynamics Lecture 11 - Laws Of Thermodynamics: Mass flow rate, Conservation of mass, Flow work
Link NOC:Thermodynamics Lecture 12 - Laws Of Thermodynamics: Zeroth Law
Link NOC:Thermodynamics Lecture 13 - Laws Of Thermodynamics: First Laws Of Thermodynamics, 1st law for Control Mass, Internal Energy, enthalpy
Link NOC:Thermodynamics Lecture 14 - Laws Of Thermodynamics: 1st law for Control Volume
Link NOC:Thermodynamics Lecture 15 - Laws Of Thermodynamics: Revision, Cycles, Second Law statements, Clausius inequality
Link NOC:Thermodynamics Lecture 16 - Laws Of Thermodynamics: Introduction to carnot Cycle
Link NOC:Thermodynamics Lecture 17 - Laws Of Thermodynamics: Entropy,Entropy change for a system
Link NOC:Thermodynamics Lecture 18 - Laws Of Thermodynamics: Thermodynamics relations,Bernoulli's equation
Link NOC:Thermodynamics Lecture 19 - Laws Of Thermodynamics: Devices, Cycles
Link NOC:Thermodynamics Lecture 20 - Properties of a Pure Substance: Thermodynamic behaviour of a pure substance
Link NOC:Thermodynamics Lecture 21 - Properties of a Pure Substance: Saturated states, Subcooled liquid, Superheated vapour
Link NOC:Thermodynamics Lecture 22 - Properties of a Pure Substance: Vapour pressure curve, Reference state
Link NOC:Thermodynamics Lecture 23 - Properties of a Pure Substance: Saturated states
Link NOC:Thermodynamics Lecture 24 - Properties of a Pure Substance: p-h diagram
Link NOC:Thermodynamics Lecture 25 - Properties of a Pure Substance: T-s diagram, h-s diagram
Link NOC:Thermodynamics Lecture 26 - Properties of a Pure Substance: Critical state, Compressibility factor
Link NOC:Thermodynamics Lecture 27 - Properties of a Pure Substance: Ideal gas behaviour, Equations of state, Specific heat
Link NOC:Thermodynamics Lecture 28 - Properties of a Pure Substance: Ideal gas processes
Link NOC:Thermodynamics Lecture 29 - Properties of a Pure Substance: Gibbs energy, Helmholtz function, Property relations
Link NOC:Thermodynamics Lecture 30 - Properties of a Pure Substance: Process analysis, Summary
Link NOC:Thermodynamics Lecture 31 - Laws of Thermodynamics: Carnot Cycle Realization
Link NOC:Thermodynamics Lecture 32 - Applications, Problem Solving: Devices, Schematic/Flow Diagrams
Link NOC:Thermodynamics Lecture 33 - Applications, Problem Solving: Positive Displacement Devices
Link NOC:Thermodynamics Lecture 34 - Applications, Problem Solving: Heat Exchangers
Link NOC:Thermodynamics Lecture 35 - Applications, Problem Solving: Compressors, Fans and Blowers, Pumps
Link NOC:Thermodynamics Lecture 36 - Applications, Problem Solving: Turbines
Link NOC:Thermodynamics Lecture 37 - Applications, Problem Solving: Nozzle, Diffuser, Expansion Valve, Pipe/duct flow
Link NOC:Thermodynamics Lecture 38 - Applications, Problem Solving: De-Superheater, Deaerator, Separation
Link NOC:Thermodynamics Lecture 39 - Applications, Problem Solving: Unsteady processes, Filling, Evacuation
Link NOC:Thermodynamics Lecture 40 - Applications, Problem Solving: Realization of Carnot cycle, Practical cycles, Air-standard cycles
Link NOC:Thermodynamics Lecture 41 - Applications, Problem Solving: Materials, Compressible flow
Link NOC:Thermodynamics Lecture 42 - Applications, Problem Solving: Otto cycle, Diesel cycle
Link NOC:Thermodynamics Lecture 43 - Applications, Problem Solving: Closed system
Link NOC:Thermodynamics Lecture 44 - Applications, Problem Solving: Open System
Link NOC:Thermodynamics Lecture 45 - Properties of Ideal Gas Mixtures: Introduction to mixtures properties
Link NOC:Thermodynamics Lecture 46 - Properties of Ideal Gas Mixtures: Equation of state, Conservation equations
Link NOC:Thermodynamics Lecture 47 - Gas-Vapour Mixtures: Psychrometry, Moist air Properties,
Link NOC:Thermodynamics Lecture 48 - Gas-Vapour Mixtures: Properties, Conservation of Mass and Energy
Link NOC:Thermodynamics Lecture 49 - Gas-Vapour Mixtures: Psychrometric chart, Applications
Link NOC:Thermodynamics Lecture 50 - Thermodynamics of Reacting sytems: Introduction to reacting systems and combustion
Link NOC:Thermodynamics Lecture 51 - Thermodynamics of Reacting sytems: Flames, Stoichiometry
Link NOC:Thermodynamics Lecture 52 - Thermodynamics of Reacting sytems: Analysis of Closed and Open Systems, Enthalpy of Formation
Link NOC:Thermodynamics Lecture 53 - Phase and Chemical Equilibrium: Introduction. Chemical equilibrium. Gibbs function
Link NOC:Thermodynamics Lecture 54 - Phase and Chemical Equilibrium: Equilibrium constant. Phase equilibrium
Link NOC:Solid Mechanics Lecture 1 - Mathematical Concepts: Working with Vectors and Tensors
Link NOC:Solid Mechanics Lecture 2 - Traction Vector
Link NOC:Solid Mechanics Lecture 3 - Stress Tensor and its Matrix Representation
Link NOC:Solid Mechanics Lecture 4 - Transformation of Stress Matrix
Link NOC:Solid Mechanics Lecture 5 - Stress Equilibrium Equations : Balance of Linear and Angular Momentum
Link NOC:Solid Mechanics Lecture 6 - Balance of Angular Momentum (Continued...)
Link NOC:Solid Mechanics Lecture 7 - Principal Planes and Principal stress components
Link NOC:Solid Mechanics Lecture 8 - Maximizing the Shear Component of Traction
Link NOC:Solid Mechanics Lecture 9 - Mohr's Circle
Link NOC:Solid Mechanics Lecture 10 - Mohr's Circle (Continued...), Stress Invariants, Decomposition of the Stress Tensor
Link NOC:Solid Mechanics Lecture 11 - Concept of Strain Tensor
Link NOC:Solid Mechanics Lecture 12 - Longitudinal and Shear Strains
Link NOC:Solid Mechanics Lecture 13 - Local Volumetric Strain and Local Infinitesimal Rotation
Link NOC:Solid Mechanics Lecture 14 - Similarity in Properties of Stress and Strain Tensors
Link NOC:Solid Mechanics Lecture 15 - Stress-Strain Relation
Link NOC:Solid Mechanics Lecture 16 - Stress-Strain Relation for Isotropic Materials
Link NOC:Solid Mechanics Lecture 17 - Linear Momentum Balance in Cylinderical Coordinate System
Link NOC:Solid Mechanics Lecture 18 - Linear Momentum Balance in Cylinderical Coordinate System (Continued...)
Link NOC:Solid Mechanics Lecture 19 - Strain Matrix Cylinderical Coordinate System
Link NOC:Solid Mechanics Lecture 20 - Extension-Torsion-Inflation in a Hollow Cylinder
Link NOC:Solid Mechanics Lecture 21 - Extension-Torsion-Inflation in a Hollow Cylinder (Continued...)
Link NOC:Solid Mechanics Lecture 22 - Solving Problems Involving Torsion of Shafts
Link NOC:Solid Mechanics Lecture 23 - Pure Bending of Rectangular Beams
Link NOC:Solid Mechanics Lecture 24 - Bending of Beams (Continued...)
Link NOC:Solid Mechanics Lecture 25 - Bending of Unsymmetrical Beams
Link NOC:Solid Mechanics Lecture 26 - Concept of Shear Center
Link NOC:Solid Mechanics Lecture 27 - Theoy of Beams
Link NOC:Solid Mechanics Lecture 28 - Theoy of Beams (Continued...) and Beam Buckling
Link NOC:Solid Mechanics Lecture 29 - Energy Methods
Link NOC:Solid Mechanics Lecture 30 - Energy Methods (Continued...)
Link NOC:Solid Mechanics Lecture 31 - Theories of Failure
Link NOC:Solid Mechanics Lecture 32 - Theories of Failure (Continued...)
Link NOC:Introduction to Uncertainty Analysis and Experimentation Lecture 1 - Course Outline, Introduction
Link NOC:Introduction to Uncertainty Analysis and Experimentation Lecture 2 - Experimentation Processes and Applications Overview
Link NOC:Introduction to Uncertainty Analysis and Experimentation Lecture 3 - Developments in Uncertainty Analysis, Approach
Link NOC:Introduction to Uncertainty Analysis and Experimentation Lecture 4 - Errors, Their Causes and Classification
Link NOC:Introduction to Uncertainty Analysis and Experimentation Lecture 5 - Errors to Uncertainty via Statistics
Link NOC:Introduction to Uncertainty Analysis and Experimentation Lecture 6 - Sources of Errors, Uncertainty Definitions
Link NOC:Introduction to Uncertainty Analysis and Experimentation Lecture 7 - Experimentation - I
Link NOC:Introduction to Uncertainty Analysis and Experimentation Lecture 8 - Experimentation Stages / Phases I
Link NOC:Introduction to Uncertainty Analysis and Experimentation Lecture 9 - Experimentation Stages / Phases II
Link NOC:Introduction to Uncertainty Analysis and Experimentation Lecture 10 - Uncertainty Analysis Processes
Link NOC:Introduction to Uncertainty Analysis and Experimentation Lecture 11 - Instrument ans DAS
Link NOC:Introduction to Uncertainty Analysis and Experimentation Lecture 12 - Basic procedure - I
Link NOC:Introduction to Uncertainty Analysis and Experimentation Lecture 13 - Basic procedure - II
Link NOC:Introduction to Uncertainty Analysis and Experimentation Lecture 14 - Evaluating systematic uncertainties
Link NOC:Introduction to Uncertainty Analysis and Experimentation Lecture 15 - Worksheets for uncertainty in a measurement, Examples
Link NOC:Introduction to Uncertainty Analysis and Experimentation Lecture 16 - Examples of uncertainty in a measurement
Link NOC:Introduction to Uncertainty Analysis and Experimentation Lecture 17 - Methodologies, Multiple tests method
Link NOC:Introduction to Uncertainty Analysis and Experimentation Lecture 18 - Single test, Basics of taylor Series Method
Link NOC:Introduction to Uncertainty Analysis and Experimentation Lecture 19 - Sensitivity coefficient, Result uncertainty from TSM
Link NOC:Introduction to Uncertainty Analysis and Experimentation Lecture 20 - Result uncertainty TSM: Special cases
Link NOC:Introduction to Uncertainty Analysis and Experimentation Lecture 21 - Method selection, Worksheets for result uncertainty
Link NOC:Introduction to Uncertainty Analysis and Experimentation Lecture 22 - Examples for result uncertainty - 1
Link NOC:Introduction to Uncertainty Analysis and Experimentation Lecture 23 - Examples for result uncertainty - 2
Link NOC:Introduction to Uncertainty Analysis and Experimentation Lecture 24 - Regression Introduction
Link NOC:Introduction to Uncertainty Analysis and Experimentation Lecture 25 - Regression analysis - Linear, single variable
Link NOC:Introduction to Uncertainty Analysis and Experimentation Lecture 26 - Correlation, Related topics
Link NOC:Introduction to Uncertainty Analysis and Experimentation Lecture 27 - Reporting uncertainties
Link NOC:Introduction to Uncertainty Analysis and Experimentation Lecture 28 - Validation and verification aspects, Data archiving
Link NOC:Introduction to Uncertainty Analysis and Experimentation Lecture 29 - Course overview
Link NOC:Engineering Graphics and Design Lecture 1 - Introduction
Link NOC:Engineering Graphics and Design Lecture 2 - Examples of visualization - 1
Link NOC:Engineering Graphics and Design Lecture 3 - Examples of visualization - 2
Link NOC:Engineering Graphics and Design Lecture 4 - Visualization and drawing
Link NOC:Engineering Graphics and Design Lecture 5 - Sketch to engineering drawing
Link NOC:Engineering Graphics and Design Lecture 6 - Types of projections
Link NOC:Engineering Graphics and Design Lecture 7 - Multiview projections
Link NOC:Engineering Graphics and Design Lecture 8 - 1st and 3rd angle projections
Link NOC:Engineering Graphics and Design Lecture 9 - Sketching
Link NOC:Engineering Graphics and Design Lecture 10 - Visualization
Link NOC:Engineering Graphics and Design Lecture 11 - Drawing sheet
Link NOC:Engineering Graphics and Design Lecture 12 - Lines
Link NOC:Engineering Graphics and Design Lecture 13 - Dimensioning
Link NOC:Engineering Graphics and Design Lecture 14 - Projection of a point line and plane
Link NOC:Engineering Graphics and Design Lecture 15 - Projection of simple objects
Link NOC:Engineering Graphics and Design Lecture 16 - Example Projection of a solid
Link NOC:Engineering Graphics and Design Lecture 17 - Example Projection of an object
Link NOC:Engineering Graphics and Design Lecture 18 - Types of Solids
Link NOC:Engineering Graphics and Design Lecture 19 - Polygons Construction and Projections
Link NOC:Engineering Graphics and Design Lecture 20 - Rotation of Solids
Link NOC:Engineering Graphics and Design Lecture 21 - Example Rotation of Solids
Link NOC:Engineering Graphics and Design Lecture 22 - Section views
Link NOC:Engineering Graphics and Design Lecture 23 - Sectioning practices
Link NOC:Engineering Graphics and Design Lecture 24 - Auxiliary views
Link NOC:Engineering Graphics and Design Lecture 25 - Example Section View
Link NOC:Engineering Graphics and Design Lecture 26 - Example Auxiliary View
Link NOC:Engineering Graphics and Design Lecture 27 - Pictorial Drawings
Link NOC:Engineering Graphics and Design Lecture 28 - Construction of Isometric Drawings
Link NOC:Engineering Graphics and Design Lecture 29 - Example Isometric drawings
Link NOC:Engineering Graphics and Design Lecture 30 - Working Drawing
Link NOC:Engineering Graphics and Design Lecture 31 - Example Sectional View of Assembly
Link NOC:Engineering Graphics and Design Lecture 32 - Computer Aided Design
Link NOC:Engineering Graphics and Design Lecture 33 - Autodesk Inventor Environment
Link NOC:Engineering Graphics and Design Lecture 34 - Sketching for Solid Modelling
Link NOC:Engineering Graphics and Design Lecture 35 - Example 1 Extrude Hole Fillet Chamfer
Link NOC:Engineering Graphics and Design Lecture 36 - Example 2 Rib Mirror
Link NOC:Engineering Graphics and Design Lecture 37 - Example 3
Link NOC:Engineering Graphics and Design Lecture 38 - Revolve Loft Pattern
Link NOC:Engineering Graphics and Design Lecture 39 - Example 4
Link NOC:Engineering Graphics and Design Lecture 40 - Example 5
Link NOC:Engineering Graphics and Design Lecture 41 - Spline Sweep Shell
Link NOC:Engineering Graphics and Design Lecture 42 - Example 6
Link NOC:Engineering Graphics and Design Lecture 43 - Example 7
Link NOC:Engineering Graphics and Design Lecture 44 - Drawing from Solid Model
Link NOC:Engineering Graphics and Design Lecture 45 - Assembly with constraints
Link NOC:Engineering Graphics and Design Lecture 46 - Example 8
Link NOC:Engineering Graphics and Design Lecture 47 - Example 9
Link NOC:Engineering Graphics and Design Lecture 48 - Example 10
Link NOC:Engineering Graphics and Design Lecture 49 - Example 11
Link NOC:Engineering Graphics and Design Lecture 50 - Civil and architectural drawings
Link NOC:Ideal Fluid Flows using Complex Analysis Lecture 1 - Ideal fluids, Velocity potential, Potential flows
Link NOC:Ideal Fluid Flows using Complex Analysis Lecture 2 - Stream function, Orthogonality of streamlines and equipotential lines
Link NOC:Ideal Fluid Flows using Complex Analysis Lecture 3 - Complex variables, Analyticity, Cauchy - Riemann equations, Complex potential, Complex velocity
Link NOC:Ideal Fluid Flows using Complex Analysis Lecture 4 - Elementary flows : Uniform flow, Source and Sink, Free vortex
Link NOC:Ideal Fluid Flows using Complex Analysis Lecture 5 - Flow in a bend, Flow around a sharp edge
Link NOC:Ideal Fluid Flows using Complex Analysis Lecture 6 - Superposition of source and sink : doublet flow
Link NOC:Ideal Fluid Flows using Complex Analysis Lecture 7 - Superposition of uniform flow and doublet
Link NOC:Ideal Fluid Flows using Complex Analysis Lecture 8 - Superposition of uniform flow, doublet and free vortex
Link NOC:Ideal Fluid Flows using Complex Analysis Lecture 9 - Superposition of source and uniform flow
Link NOC:Ideal Fluid Flows using Complex Analysis Lecture 10 - Problem solving session - 1
Link NOC:Ideal Fluid Flows using Complex Analysis Lecture 11 - Problem solving session - 2
Link NOC:Ideal Fluid Flows using Complex Analysis Lecture 12 - Method of images, Forces on a body, Blasius theorem
Link NOC:Ideal Fluid Flows using Complex Analysis Lecture 13 - Calculation of forces using derived flow field
Link NOC:Ideal Fluid Flows using Complex Analysis Lecture 14 - Introduction to conformal transformation
Link NOC:Ideal Fluid Flows using Complex Analysis Lecture 15 - Singularities and their transformations
Link NOC:Experimental Modal Analysis Lecture 1
Link NOC:Experimental Modal Analysis Lecture 2
Link NOC:Experimental Modal Analysis Lecture 3
Link NOC:Experimental Modal Analysis Lecture 4
Link NOC:Experimental Modal Analysis Lecture 5
Link NOC:Experimental Modal Analysis Lecture 6
Link NOC:Experimental Modal Analysis Lecture 7
Link NOC:Experimental Modal Analysis Lecture 8
Link NOC:Experimental Modal Analysis Lecture 9
Link NOC:Experimental Modal Analysis Lecture 10
Link NOC:Experimental Modal Analysis Lecture 11
Link NOC:Experimental Modal Analysis Lecture 12
Link NOC:Experimental Modal Analysis Lecture 13
Link NOC:Experimental Modal Analysis Lecture 14
Link NOC:Experimental Modal Analysis Lecture 15
Link NOC:Experimental Modal Analysis Lecture 16
Link NOC:Experimental Modal Analysis Lecture 17
Link NOC:Experimental Modal Analysis Lecture 18
Link NOC:Experimental Modal Analysis Lecture 19
Link NOC:Experimental Modal Analysis Lecture 20
Link NOC:Experimental Modal Analysis Lecture 21
Link NOC:Experimental Modal Analysis Lecture 22
Link NOC:Experimental Modal Analysis Lecture 23
Link NOC:Experimental Modal Analysis Lecture 24
Link NOC:Experimental Modal Analysis Lecture 25
Link NOC:Experimental Modal Analysis Lecture 26
Link NOC:Experimental Modal Analysis Lecture 27
Link NOC:Experimental Modal Analysis Lecture 28
Link NOC:Experimental Modal Analysis Lecture 29
Link NOC:Experimental Modal Analysis Lecture 30
Link NOC:Experimental Modal Analysis Lecture 31
Link NOC:Experimental Modal Analysis Lecture 32
Link NOC:Experimental Modal Analysis Lecture 33
Link NOC:Experimental Modal Analysis Lecture 34
Link NOC:Experimental Modal Analysis Lecture 35
Link NOC:Experimental Modal Analysis Lecture 36
Link NOC:Experimental Modal Analysis Lecture 37
Link NOC:Experimental Modal Analysis Lecture 38
Link NOC:Experimental Modal Analysis Lecture 39
Link NOC:Experimental Modal Analysis Lecture 40
Link NOC:Mechanical Behavior of Polymers and Composites Lecture 1 - Introduction to polymers
Link NOC:Mechanical Behavior of Polymers and Composites Lecture 2 - Polymer structure
Link NOC:Mechanical Behavior of Polymers and Composites Lecture 3 - Polymer classification
Link NOC:Mechanical Behavior of Polymers and Composites Lecture 4 - Polymer length, packing and tacticity
Link NOC:Mechanical Behavior of Polymers and Composites Lecture 5 - Glass transition temperature
Link NOC:Mechanical Behavior of Polymers and Composites Lecture 6 - Temperature effects, glassy regime
Link NOC:Mechanical Behavior of Polymers and Composites Lecture 7 - Viscoelastic, rubbery, viscous, decomposition
Link NOC:Mechanical Behavior of Polymers and Composites Lecture 8 - Relaxation and creep tests
Link NOC:Mechanical Behavior of Polymers and Composites Lecture 9 - Failure of polymers
Link NOC:Mechanical Behavior of Polymers and Composites Lecture 10 - Heaviside, Dirac delta, Laplace
Link NOC:Mechanical Behavior of Polymers and Composites Lecture 11 - Introduction to linear viscoelasticity
Link NOC:Mechanical Behavior of Polymers and Composites Lecture 12 - Phenomenological models for linear viscoelasticity
Link NOC:Mechanical Behavior of Polymers and Composites Lecture 13 - Maxwell model
Link NOC:Mechanical Behavior of Polymers and Composites Lecture 14 - Kelvin model
Link NOC:Mechanical Behavior of Polymers and Composites Lecture 15 - Three and four parameter models
Link NOC:Mechanical Behavior of Polymers and Composites Lecture 16 - Generalized Maxwell and Kelvin models
Link NOC:Mechanical Behavior of Polymers and Composites Lecture 17 - Boltzman superposition principle
Link NOC:Mechanical Behavior of Polymers and Composites Lecture 18 - Alfrey's correspondence principle
Link NOC:Mechanical Behavior of Polymers and Composites Lecture 19 - Analysis of viscoelastic bars
Link NOC:Mechanical Behavior of Polymers and Composites Lecture 20 - Analysis of viscoelastic beams
Link NOC:Mechanical Behavior of Polymers and Composites Lecture 21 - Dynamic mechanical analysis (DMA)
Link NOC:Mechanical Behavior of Polymers and Composites Lecture 22 - Dynamic mechanical thermal analysis (DMTA)
Link NOC:Mechanical Behavior of Polymers and Composites Lecture 23 - Time temperature superposition principle (TTSP)
Link NOC:Mechanical Behavior of Polymers and Composites Lecture 24 - Plastic design consideration and practices
Link NOC:Mechanical Behavior of Polymers and Composites Lecture 25 - What are composites?
Link NOC:Mechanical Behavior of Polymers and Composites Lecture 26 - Composite materials and types
Link NOC:Mechanical Behavior of Polymers and Composites Lecture 27 - Composite advantages and applications
Link NOC:Mechanical Behavior of Polymers and Composites Lecture 28 - Fabrication and other aspects of composites
Link NOC:Mechanical Behavior of Polymers and Composites Lecture 29 - 3D stress and strain components
Link NOC:Mechanical Behavior of Polymers and Composites Lecture 30 - Symmetry in stress, strain and stiffness matrix
Link NOC:Mechanical Behavior of Polymers and Composites Lecture 31 - Monoclinic, orthotropic and isotropic materials
Link NOC:Mechanical Behavior of Polymers and Composites Lecture 32 - 3D stress strain relation for orthotropic material
Link NOC:Mechanical Behavior of Polymers and Composites Lecture 33 - Plane stress: Specially orthotropic material
Link NOC:Mechanical Behavior of Polymers and Composites Lecture 34 - Plane stress: Generally orthotropic material
Link NOC:Mechanical Behavior of Polymers and Composites Lecture 35 - Lamina engineering constants
Link NOC:Mechanical Behavior of Polymers and Composites Lecture 36 - Lamina hygrothermal effects
Link NOC:Mechanical Behavior of Polymers and Composites Lecture 37 - Lamina fundamental strengths
Link NOC:Mechanical Behavior of Polymers and Composites Lecture 38 - Lamina failure criteria
Link NOC:Mechanical Behavior of Polymers and Composites Lecture 39 - Tsai-Hill and Hoffman failure criteria
Link NOC:Mechanical Behavior of Polymers and Composites Lecture 40 - Micromechanics: Assumptions, RVE
Link NOC:Mechanical Behavior of Polymers and Composites Lecture 41 - Micromechanics: Stiffness prediction
Link NOC:Mechanical Behavior of Polymers and Composites Lecture 42 - Micromechanics: Stiffness and strength
Link NOC:Mechanical Behavior of Polymers and Composites Lecture 43 - Macromechanics of laminate
Link NOC:Mechanical Behavior of Polymers and Composites Lecture 44 - Classical laminate theory
Link NOC:Mechanical Behavior of Polymers and Composites Lecture 45 - Classical laminate theory - II
Link NOC:Mechanical Behavior of Polymers and Composites Lecture 46 - Symmetric laminates, orthotropic laminates
Link NOC:Mechanical Behavior of Polymers and Composites Lecture 47 - Angle-ply, cross-ply and quasi-isotropic laminates
Link NOC:Mechanical Behavior of Polymers and Composites Lecture 48 - Hygrothermal stresses in laminates
Link NOC:Mechanical Behavior of Polymers and Composites Lecture 49 - Laminate failure
Link NOC:Mechanical Behavior of Polymers and Composites Lecture 50 - Design practices with laminates
Link NOC:Mechanical Behavior of Polymers and Composites Lecture 51 - Sandwich structures
Link NOC:Mechanical Behavior of Polymers and Composites Lecture 52 - Composites testing
Link NOC:Mechanical Behavior of Polymers and Composites Lecture 53 - Joining of composites
Link NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models Lecture 1 - Introduction to Tribology
Link NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models Lecture 2 - Tribological Interfaces
Link NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models Lecture 3 - Fundamentals of Friction and Wear
Link NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models Lecture 4 - Adhesion, Abrasion, and Surface Fatigue Mechanisms
Link NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models Lecture 5 - Wear Measurement Techniques
Link NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models Lecture 6 - Principles of Lubrication, types of Lubricants and their properties
Link NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models Lecture 7 - Lubrication regimes and film thickness calculations
Link NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models Lecture 8 - Mixed Lubrication
Link NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models Lecture 9 - Hydrodynamic Lubrication Theory
Link NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models Lecture 10 - Design Considerations for Hydrodynamic Lubrication Systems
Link NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models Lecture 11 - Elastohydrodynamic Lubrication
Link NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models Lecture 12 - Solid Lubrication
Link NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models Lecture 13 - Surface modification techniques for tribological applications
Link NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models Lecture 14 - Thin film coatings and their tribological properties
Link NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models Lecture 15 - Nanotribology
Link NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models Lecture 16 - Tribocorrosion
Link NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models Lecture 17 - Wear testing techniques and standards
Link NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models Lecture 18 - Measurement and analysis of wear debris
Link NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models Lecture 19 - Experimental Design and Statistical Analysis
Link NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models Lecture 20 - Introduction to Data-Enabled Engineering
Link NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models Lecture 21 - Data Collection and Preprocessing
Link NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models Lecture 22 - Feature Extraction and Selection
Link NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models Lecture 23 - Introduction to Machine Learning Algorithms
Link NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models Lecture 24 - Regression and Classification Algorithms for Tribological Modeling
Link NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models Lecture 25 - Deep Learning for Tribological Engineering
Link NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models Lecture 26 - Data-Driven Models for Friction Prediction
Link NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models Lecture 27 - Data-Driven Models for Wear Prediction
Link NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models Lecture 28 - Data-Driven Models for Lubricant Optimization
Link NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models Lecture 29 - Data-Driven Models for Tribofilm Formation
Link NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models Lecture 30 - Data-Driven Models for Tribocorrosion Prediction
Link NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models Lecture 31 - Prediction of Coating and Surface Treatment Performance
Link NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models Lecture 32 - Optimization of Surface Engineering Processes using Machine Learning
Link NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models Lecture 33 - Uncertainty Quantification and Sensitivity Analysis
Link NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models Lecture 34 - Data Management and Ethics in Data-Enabled Engineering
Link NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models Lecture 35 - Case Studies in Data-Enabled Tribological Engineering
Link NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models Lecture 36 - Future Directions in Data-Enabled Tribological Engineering
Link Nonlinear Vibration Lecture 1 - Introduction of Nonlinear systems
Link Nonlinear Vibration Lecture 2 - Review of Linear vibrating systems
Link Nonlinear Vibration Lecture 3 - Phenomena associated with Nonlinear systems
Link Nonlinear Vibration Lecture 4 - Commonly observed Phenomena in Nonlinear systems
Link Nonlinear Vibration Lecture 5 - Force and Moment based Approach
Link Nonlinear Vibration Lecture 6 - Energy based approach Extended Hamilton’s principle and Lagrange Priciple
Link Nonlinear Vibration Lecture 7 - Derivation of Equation of motion of nonlinear discrete system (More examples)
Link Nonlinear Vibration Lecture 8 - Derivation of Equation of motion of nonlinear continuous system - 1
Link Nonlinear Vibration Lecture 9 - Derivation of Equation of motion of nonlinear continuous system - 2
Link Nonlinear Vibration Lecture 10 - Ordering of nonlinear Equation of motion
Link Nonlinear Vibration Lecture 11 - Qualitative Analysis Straight forward expansion
Link Nonlinear Vibration Lecture 12 - Numerical method Straight forward expansion
Link Nonlinear Vibration Lecture 13 - Lindstedt Poincare’ technique
Link Nonlinear Vibration Lecture 14 - Method of multiple scales
Link Nonlinear Vibration Lecture 15 - Method of Harmonic balance
Link Nonlinear Vibration Lecture 16 - Method of averaging
Link Nonlinear Vibration Lecture 17 - Generalized Method of averaging
Link Nonlinear Vibration Lecture 18 - Krylov-Bogoliubov-Mitropolski technique
Link Nonlinear Vibration Lecture 19 - Incremental harmonic balance method and Intrinsic multiple scale harmonic balance method
Link Nonlinear Vibration Lecture 20 - Modified Lindstedt Poincare’ technique
Link Nonlinear Vibration Lecture 21 - Stability and Bifurcation of Fixed-point response - 1
Link Nonlinear Vibration Lecture 22 - Stability and Bifurcation of Fixed-point response - 2
Link Nonlinear Vibration Lecture 23 - Stability and Bifurcation of Fixed-point response - 3
Link Nonlinear Vibration Lecture 24 - Stability and Bifurcation of Fixed-point response - 4
Link Nonlinear Vibration Lecture 25 - Stability Analysis of Periodic response
Link Nonlinear Vibration Lecture 26 - Bifurcation of Periodic response And Introduction to quasi-periodic and Chaotic response
Link Nonlinear Vibration Lecture 27 - Quasi-Periodic and Chaotic response
Link Nonlinear Vibration Lecture 28 - Numerical methods to obtain roots of characteristic equation and time response
Link Nonlinear Vibration Lecture 29 - Numerical methods to obtain time response
Link Nonlinear Vibration Lecture 30 - Numerical methods to obtain frequency response
Link Nonlinear Vibration Lecture 31 - Free Vibration of Single degree of freedom Nonlinear systems with Cubic and quadratic nonlinearities
Link Nonlinear Vibration Lecture 32 - Free Vibration of Single degree of freedom Nonlinear systems with Cubic and quadratic nonlinearities: effect of damping
Link Nonlinear Vibration Lecture 33 - Free Vibration of multi- degree of freedom Nonlinear systems with Cubic and quadratic nonlinearities
Link Nonlinear Vibration Lecture 34 - Forced nonlinear Vibration Single degree of freedom Nonlinear systems with Cubic nonlinearities:
Link Nonlinear Vibration Lecture 35 - Forced nonlinear Vibration Single and multi- degree of freedom Nonlinear systems
Link Nonlinear Vibration Lecture 36 - Nonlinear Forced-Vibration of Single and Multi Degree-of-Freedom System
Link Nonlinear Vibration Lecture 37 - Analysis of Multi- degree of freedom system
Link Nonlinear Vibration Lecture 38 - Nonlinear Vibration of Parametrically excited system: Axially loaded sandwich beam
Link Nonlinear Vibration Lecture 39 - Nonlinear Vibration of Parametrically excited system: Elastic and Magneto-elastic beam
Link Nonlinear Vibration Lecture 40 - Nonlinear Vibration of Parametrically excited system with internal resonance
Link Theory and Practice of Rotor Dynamics Lecture 1 - Introduction
Link Theory and Practice of Rotor Dynamics Lecture 2 - A Brief History of Rotor Dynamics
Link Theory and Practice of Rotor Dynamics Lecture 3 - The State of the Art of Rotor Dynamics
Link Theory and Practice of Rotor Dynamics Lecture 4 - Simple Rotor Models with Rigid Bearings
Link Theory and Practice of Rotor Dynamics Lecture 5 - Jeffcott Rotor Model
Link Theory and Practice of Rotor Dynamics Lecture 6 - Variant of Jeffcott Rotor Model
Link Theory and Practice of Rotor Dynamics Lecture 7 - Rigid Rotor Mounted on Simple Anistropic Springs as Bearings
Link Theory and Practice of Rotor Dynamics Lecture 8 - Rigid Rotor Mounted on Complex Anisotropic Bearings
Link Theory and Practice of Rotor Dynamics Lecture 9 - Flexible Shaft with a Rigid Disc Mounted on Anistropic Supports
Link Theory and Practice of Rotor Dynamics Lecture 10 - Gyroscopic Effects : Synchronous whirl of a Rotor Systems with a thin Disc
Link Theory and Practice of Rotor Dynamics Lecture 11 - Gyroscopic Effects : Synchronous and Asynchronous pure wobbling motions
Link Theory and Practice of Rotor Dynamics Lecture 12 - Gyroscopic Effects : Asynchronous whirl of a Rotor system with a thin Disc
Link Theory and Practice of Rotor Dynamics Lecture 13 - Gyroscopic Effects : Asynchronous whirl analysis with Dynamic Approach
Link Theory and Practice of Rotor Dynamics Lecture 14 - Torsional Vibrations: Simple Rotor Systems
Link Theory and Practice of Rotor Dynamics Lecture 15 - Three Disc Rotor System
Link Theory and Practice of Rotor Dynamics Lecture 16 - Transfer Matrix Approach - Part I
Link Theory and Practice of Rotor Dynamics Lecture 17 - Transfer Matrix Approach - Part II
Link Theory and Practice of Rotor Dynamics Lecture 18 - Transfer Matrix Approach - Part III
Link Theory and Practice of Rotor Dynamics Lecture 19 - Geared and Branched Systems
Link Theory and Practice of Rotor Dynamics Lecture 20 - Continuous System and Finite Element Method
Link Theory and Practice of Rotor Dynamics Lecture 21 - Finite Element Method
Link Theory and Practice of Rotor Dynamics Lecture 22 - Finite Element Analysis
Link Theory and Practice of Rotor Dynamics Lecture 23 - Finite Element Analysis - Part III
Link Theory and Practice of Rotor Dynamics Lecture 24 - Influence Coefficient Method
Link Theory and Practice of Rotor Dynamics Lecture 25 - Transfer Matrix Method - Part I
Link Theory and Practice of Rotor Dynamics Lecture 26 - Transfer Matrix Method - Part II
Link Theory and Practice of Rotor Dynamics Lecture 27 - Transfer Matrix Method - Part III
Link Theory and Practice of Rotor Dynamics Lecture 28 - Continuous System Approach
Link Theory and Practice of Rotor Dynamics Lecture 29 - Finite Element Method - Part I
Link Theory and Practice of Rotor Dynamics Lecture 30 - Finite Element Method - Part II
Link Theory and Practice of Rotor Dynamics Lecture 31 - Finite Element Method - Part III
Link Theory and Practice of Rotor Dynamics Lecture 32 - Instability in Rotor Systems: Bearings
Link Theory and Practice of Rotor Dynamics Lecture 33 - Fluid-Film Bearings
Link Theory and Practice of Rotor Dynamics Lecture 34 - Internal Damping & Asymmetrical Shaft
Link Theory and Practice of Rotor Dynamics Lecture 35 - Steam Whirl and Seals
Link Theory and Practice of Rotor Dynamics Lecture 36 - Subcritical Speed Whirl
Link Theory and Practice of Rotor Dynamics Lecture 37 - Introduction to Rigid Rotor Balancing
Link Theory and Practice of Rotor Dynamics Lecture 38 - Dynamic Balancing of Rotors: Rigid Rotor Balancing
Link Theory and Practice of Rotor Dynamics Lecture 39 - Dynamic Balancing of Rotors:Flexible Rotor Model Balancing
Link Theory and Practice of Rotor Dynamics Lecture 40 - Dynamic Balancing of Rotors:Influence Coefficient Method for Flexible Rotor
Link Theory and Practice of Rotor Dynamics Lecture 41 - Common Faults & Vibration signatures
Link Theory and Practice of Rotor Dynamics Lecture 42 - Condition Based Monitoring
Link Engineering Mechanics Lecture 1 - Fundamentals Of Engineering Mechanics
Link Engineering Mechanics Lecture 2 - Equations of Equilibrium
Link Engineering Mechanics Lecture 3 - Truss Analysis - Part 1
Link Engineering Mechanics Lecture 4 - Truss Analysis - Part 2
Link Engineering Mechanics Lecture 5 - Analysis of Frames Machines
Link Engineering Mechanics Lecture 6 - Internal Forces
Link Engineering Mechanics Lecture 7 - Internal Forces in Beams
Link Engineering Mechanics Lecture 8 - Cables
Link Engineering Mechanics Lecture 9 - Friction
Link Engineering Mechanics Lecture 10 - Application of Friction - Part 1
Link Engineering Mechanics Lecture 11 - Application of Friction - Part 2
Link Engineering Mechanics Lecture 12 - Application of Friction - Part 3
Link Engineering Mechanics Lecture 13 - Centroids Center of Mass
Link Engineering Mechanics Lecture 14 - Centroids Area of Moments
Link Engineering Mechanics Lecture 15 - Product of Inertia, Rotation of Axis and Principle Moments of Inertia
Link Engineering Mechanics Lecture 16 - Principle Mass Moments of Inertia
Link Engineering Mechanics Lecture 17 - Second Moment of Mass
Link Engineering Mechanics Lecture 18 - Virtual Work of Ideal System
Link Engineering Mechanics Lecture 19 - Principle of Virtual Work
Link Engineering Mechanics Lecture 20 - Systems with Friction
Link Engineering Mechanics Lecture 21 - Potential Energy
Link Engineering Mechanics Lecture 22 - Stability of Equilibrium
Link Engineering Mechanics Lecture 23 - Kinematics of a Particles
Link Engineering Mechanics Lecture 24 - Kinematics of a Particle Moving on a Curve
Link Engineering Mechanics Lecture 25 - Relative Motion
Link Engineering Mechanics Lecture 26 - Plane Kinematics of Rigid Bodies
Link Engineering Mechanics Lecture 27 - Kinematics of a Particle
Link Engineering Mechanics Lecture 28 - Work and Energy
Link Engineering Mechanics Lecture 29 - Impulse and Momentum
Link Engineering Mechanics Lecture 30 - Direct and Oblique Impulse
Link Engineering Mechanics Lecture 31 - Plane Kinetics of Rigid Bodies
Link Engineering Mechanics Lecture 32 - Kinetics of a Body
Link Engineering Mechanics Lecture 33 - Method of Momentum and Analysis of Robot Manipulator
Link Engineering Mechanics Lecture 34 - Kinematics in 3D
Link Engineering Mechanics Lecture 35 - Kinetics in 3D
Link Engineering Mechanics Lecture 36 - Free Vibration
Link Engineering Mechanics Lecture 37 - Forced Vibration Damped Undamped
Link Engineering Mechanics Lecture 38 - Vibration of Rigid Bodies - Part 1
Link Engineering Mechanics Lecture 39 - Vibration of Rigid Bodies - Part 2
Link Engineering Mechanics Lecture 40 - Some Problems of Vibration
Link Mechanical Vibrations Lecture 1 - Overview of the Course, Practical and Research Trends
Link Mechanical Vibrations Lecture 2 - Harmonic and Periodic Motions, Vibration Terminology
Link Mechanical Vibrations Lecture 3 - Vibration Model, Equation of Motion-Natural Frequency
Link Mechanical Vibrations Lecture 4 - Energy Method, Principle of Virtual Work
Link Mechanical Vibrations Lecture 5 - Viscously Damped Free Vibration Special Cases: Oscillatory
Link Mechanical Vibrations Lecture 6 - Logarithmic Decrement Experimental Determination of Damping Coefficient Hystersis Loop
Link Mechanical Vibrations Lecture 7 - Coulomb Damping other Damping Models
Link Mechanical Vibrations Lecture 8 - Forced Harmonic Vibration, Magnification Factor
Link Mechanical Vibrations Lecture 9 - Laplace Transform, Superposition Theorem
Link Mechanical Vibrations Lecture 10 - Rotor Unbalance and Whirling of Shaft, Transmissibility
Link Mechanical Vibrations Lecture 11 - Support Motion, Vibration Isolation
Link Mechanical Vibrations Lecture 12 - Sharpness of Resonance, Vibration Measuring Instruments
Link Mechanical Vibrations Lecture 13 - Generalized and Principle Coordinates, Derivation of Equation of Motion
Link Mechanical Vibrations Lecture 14 - Lagranges's Equation
Link Mechanical Vibrations Lecture 15 - Coordinate Coupling
Link Mechanical Vibrations Lecture 16 - Forced Harmonic Vibration
Link Mechanical Vibrations Lecture 17 - Tuned Absorber, Determination of Mass Ratio
Link Mechanical Vibrations Lecture 18 - Tuned and Damped Absorber, Untuned Viscous Damper
Link Mechanical Vibrations Lecture 19 - Derivation of Equations of Motion, Influence Coefficient Method
Link Mechanical Vibrations Lecture 20 - Properties of Vibrating Systems: Flexibility & Stiffness Matrices, Reciprocity Theorem
Link Mechanical Vibrations Lecture 21 - Modal Analysis: Undamped
Link Mechanical Vibrations Lecture 22 - Modal Analysis: Damped
Link Mechanical Vibrations Lecture 23 - Simple Systems With One Two or Three Discs Geared System
Link Mechanical Vibrations Lecture 24 - Multi-Degree of Freedom Systems-Transfer Matrix Method Branched Systems
Link Mechanical Vibrations Lecture 25 - Derivation of Equations of Motion Part 1 - Newton
Link Mechanical Vibrations Lecture 26 - Derivation of Equations of Motion Part 2 - Newton
Link Mechanical Vibrations Lecture 27 - Vibration of Strings
Link Mechanical Vibrations Lecture 28 - Longitudinal and Torsional Vibration of Rods
Link Mechanical Vibrations Lecture 29 - Transverse Vibration of Beams, Equations of Motion and Boundary Conditions
Link Mechanical Vibrations Lecture 30 - Transverse Vibration of Beams: Natural Frequencies and Mode Shapes
Link Mechanical Vibrations Lecture 31 - Rayleigh's Energy Method
Link Mechanical Vibrations Lecture 32 - Matrix Iteration Method
Link Mechanical Vibrations Lecture 33 - Durkerley, Rayleigh-Ritz and Galerkin Method
Link Mechanical Vibrations Lecture 34 - Finite Element Formulation for Rods, Gear Train and Branched System
Link Mechanical Vibrations Lecture 35 - Finite Element Formulation for Beams: Galerkin
Link Mechanical Vibrations Lecture 36 - Global Finite Element Assembly and Imposition of Boundary Conditions
Link Mechanical Vibrations Lecture 37 - Vibration Testing Equipments: Signal Measurements
Link Mechanical Vibrations Lecture 38 - Vibration Testing Equipments: Signal Analysis
Link Mechanical Vibrations Lecture 39 - Field Balancing of Rotors
Link Mechanical Vibrations Lecture 40 - Condition Monitoring
Link NOC:Advanced Machining Processes Lecture 1 - Introduction to advanced machining processes
Link NOC:Advanced Machining Processes Lecture 2 - Ultrasonic machining - Part I
Link NOC:Advanced Machining Processes Lecture 3 - Ultrasonic machining - Part II
Link NOC:Advanced Machining Processes Lecture 4 - Abrasive jet machining
Link NOC:Advanced Machining Processes Lecture 5 - Water jet cutting and Abrasive water jet machining
Link NOC:Advanced Machining Processes Lecture 6 - Magnetic abrasive finishing
Link NOC:Advanced Machining Processes Lecture 7 - Abrasive Flow Finishing
Link NOC:Advanced Machining Processes Lecture 8 - Magnetorheological Finishing
Link NOC:Advanced Machining Processes Lecture 9 - Magnetorheological Abrasive Flow Finishing - Part I
Link NOC:Advanced Machining Processes Lecture 10 - Magnetorheological Abrasive Flow Finishing - Part II
Link NOC:Advanced Machining Processes Lecture 11 - Magnetorheological Abrasive Flow Finishing - Part III
Link NOC:Advanced Machining Processes Lecture 12 - Electric discharge machining (EDM)
Link NOC:Advanced Machining Processes Lecture 13 - Electric Discharge Grinding, Electric Discharge Diamond Grinding and Wire Electric Discharge Machining
Link NOC:Advanced Machining Processes Lecture 14 - Electrochemical Machining (ECM)
Link NOC:Advanced Machining Processes Lecture 15 - Electrochemical Grinding, Electrostream Drilling, Shaped Tube Electrolytic Machining
Link NOC:Advanced Machining Processes Lecture 16 - Plasma Arc Machining (PAM)
Link NOC:Advanced Machining Processes Lecture 17 - Electron Beam Machining (EBM) Edit Lesson
Link NOC:Advanced Machining Processes Lecture 18 - Laser Beam Machining (LBM)
Link NOC:Advanced Machining Processes Lecture 19 - Chemical Machining (ChM)
Link NOC:Fundamentals of Nuclear Power Generation Lecture 1 - Introduction of nuclear energy
Link NOC:Fundamentals of Nuclear Power Generation Lecture 2 - Binding energy and mass defect
Link NOC:Fundamentals of Nuclear Power Generation Lecture 3 - Radioactivity and radioactive decay
Link NOC:Fundamentals of Nuclear Power Generation Lecture 4 - Different types of nuclear transmutation
Link NOC:Fundamentals of Nuclear Power Generation Lecture 5 - Artificial radioactivity and neutron-nucleus interactions
Link NOC:Fundamentals of Nuclear Power Generation Lecture 6 - Energy and momentum conservation
Link NOC:Fundamentals of Nuclear Power Generation Lecture 7 - Fission and role of neutron energy
Link NOC:Fundamentals of Nuclear Power Generation Lecture 8 - Theory of elastic scattering
Link NOC:Fundamentals of Nuclear Power Generation Lecture 9 - Neutron multiplication factor
Link NOC:Fundamentals of Nuclear Power Generation Lecture 10 - Neutron diffusion theory
Link NOC:Fundamentals of Nuclear Power Generation Lecture 11 - Solution of one-group diffusion equation
Link NOC:Fundamentals of Nuclear Power Generation Lecture 12 - Simple reactor theory
Link NOC:Fundamentals of Nuclear Power Generation Lecture 13 - Nuclear fuel and simple energy consideration
Link NOC:Fundamentals of Nuclear Power Generation Lecture 14 - Axial temperature distribution and heat transfer coefficient
Link NOC:Fundamentals of Nuclear Power Generation Lecture 15 - Prompt and delayed neutrons
Link NOC:Fundamentals of Nuclear Power Generation Lecture 16 - Delayed neutron kinetics
Link NOC:Fundamentals of Nuclear Power Generation Lecture 17 - Different control mechanisms and various effects
Link NOC:Fundamentals of Nuclear Power Generation Lecture 18 - Classical reactor designs
Link NOC:Fundamentals of Nuclear Power Generation Lecture 19 - Evolution of reactors from Gen-I to Gen-IV
Link NOC:Fundamentals of Nuclear Power Generation Lecture 20 - The concept of breeding
Link NOC:Fundamentals of Nuclear Power Generation Lecture 21 - Fuel cycles and FBR
Link NOC:Fundamentals of Nuclear Power Generation Lecture 22 - Gen-IV FBR designs
Link NOC:Fundamentals of Nuclear Power Generation Lecture 23 - Hydrogen fusion reactions
Link NOC:Fundamentals of Nuclear Power Generation Lecture 24 - Coulomb barrier and other critical factors
Link NOC:Fundamentals of Nuclear Power Generation Lecture 25 - Radiation dose and gross biological effects
Link NOC:Fundamentals of Nuclear Power Generation Lecture 26 - Stochastic and deterministic effects of human cells
Link NOC:Fundamentals of Nuclear Power Generation Lecture 27 - Lessons from TMI and Chernobyl
Link NOC:Fundamentals of Nuclear Power Generation Lecture 28 - Defence-in-depth Philosophy
Link NOC:Fundamentals of Nuclear Power Generation Lecture 29 - Waste classification and Disposal of Mill Tailings
Link NOC:Fundamentals of Nuclear Power Generation Lecture 30 - Disposal methodologies for HLW and IMW
Link NOC:Advances in Welding and Joining Technologies Lecture 1 - Fundamentals of Welding and Joining - Part I
Link NOC:Advances in Welding and Joining Technologies Lecture 2 - Fundamentals of Welding and Joining - Part II
Link NOC:Advances in Welding and Joining Technologies Lecture 3 - Fundamentals of Welding and Joining - Part III
Link NOC:Advances in Welding and Joining Technologies Lecture 4 - Fundamentals of Welding and Joining - Part IV
Link NOC:Advances in Welding and Joining Technologies Lecture 5 - Fundamentals of Welding and Joining - Part V
Link NOC:Advances in Welding and Joining Technologies Lecture 6 - Laser and Electron Beam Welding - Part I
Link NOC:Advances in Welding and Joining Technologies Lecture 7 - Laser and Electron Beam Welding - Part II
Link NOC:Advances in Welding and Joining Technologies Lecture 8 - Solid State Welding Processes - Part I
Link NOC:Advances in Welding and Joining Technologies Lecture 9 - Solid State Welding Processes - Part II
Link NOC:Advances in Welding and Joining Technologies Lecture 10 - Solid State Welding Processes - Part III
Link NOC:Advances in Welding and Joining Technologies Lecture 11 - Computational Welding Mechanics - Part I
Link NOC:Advances in Welding and Joining Technologies Lecture 12 - Computational Welding Mechanics - Part II
Link NOC:Advances in Welding and Joining Technologies Lecture 13 - Computational Welding Mechanics - Part III
Link NOC:Advances in Welding and Joining Technologies Lecture 14 - Micro and Nano Joining Processes - Part I
Link NOC:Advances in Welding and Joining Technologies Lecture 15 - Micro and Nano Joining Processes - Part II
Link NOC:Advances in Welding and Joining Technologies Lecture 16 - Micro and Nano Joining Processes - Part III
Link NOC:Advances in Welding and Joining Technologies Lecture 17 - Welding Metallurgy - Part I
Link NOC:Advances in Welding and Joining Technologies Lecture 18 - Welding Metallurgy - Part II
Link NOC:Advances in Welding and Joining Technologies Lecture 19 - Welding Metallurgy - Part III
Link NOC:Advances in Welding and Joining Technologies Lecture 20 - Welding Metallurgy - Part IV
Link NOC:Advances in Welding and Joining Technologies Lecture 21 - Welding and Joining of Non-Metals - Part I
Link NOC:Advances in Welding and Joining Technologies Lecture 22 - Welding and Joining of Non-Metals - Part II
Link NOC:Advances in Welding and Joining Technologies Lecture 23 - Metal Transfer in Welding and Metal Printing
Link NOC:Introduction to Machining and Machining Fluids Lecture 1 - Introduction
Link NOC:Introduction to Machining and Machining Fluids Lecture 2 - Introduction and Importance of Machining
Link NOC:Introduction to Machining and Machining Fluids Lecture 3 - Principles of Machining or Metal Cutting
Link NOC:Introduction to Machining and Machining Fluids Lecture 4 - Cutting Tools
Link NOC:Introduction to Machining and Machining Fluids Lecture 5 - Forces in Machining
Link NOC:Introduction to Machining and Machining Fluids Lecture 6 - Tribology in Machining
Link NOC:Introduction to Machining and Machining Fluids Lecture 7 - Lubrication surface roughness in Machining
Link NOC:Introduction to Machining and Machining Fluids Lecture 8 - Machinability and Thermal Aspects
Link NOC:Introduction to Machining and Machining Fluids Lecture 9 - Tool Wear and Tool life - Part 1
Link NOC:Introduction to Machining and Machining Fluids Lecture 10 - Tool Wear and Tool life - Part 2
Link NOC:Introduction to Machining and Machining Fluids Lecture 11 - Tool Wear and Tool life - Part 3
Link NOC:Introduction to Machining and Machining Fluids Lecture 12 - Tool Materials and Coatings
Link NOC:Introduction to Machining and Machining Fluids Lecture 13 - Machining Fluids / Cutting Fluids and its Additives - Part 1
Link NOC:Introduction to Machining and Machining Fluids Lecture 14 - Machining Fluids / Cutting Fluids and its Additives - Part 2
Link NOC:Introduction to Machining and Machining Fluids Lecture 15 - Machining Fluids / Cutting Fluids and its Emissions
Link NOC:Introduction to Machining and Machining Fluids Lecture 16 - Eco Friendly Cutting Fluids - Part 1
Link NOC:Introduction to Machining and Machining Fluids Lecture 17 - Eco Friendly Cutting Fluids - Part 2
Link NOC:Introduction to Machining and Machining Fluids Lecture 18 - Rheology and Thermal Characterization of Machining / Cutting Fluids
Link NOC:Introduction to Machining and Machining Fluids Lecture 19 - Bio-degradation Studies of Machining / Cutting Fluids
Link NOC:Introduction to Machining and Machining Fluids Lecture 20 - Cutting Fluid Application in Machining Region
Link NOC:Introduction to Machining and Machining Fluids Lecture 21 - Practical Machining Processes - 1
Link NOC:Introduction to Machining and Machining Fluids Lecture 22 - Practical Machining Processes - 2
Link NOC:Introduction to Machining and Machining Fluids Lecture 23 - Introduction to Abrasive Processes - Grinding
Link NOC:Introduction to Machining and Machining Fluids Lecture 24 - Cutting fluids in Grinding Process
Link NOC:Introduction to Machining and Machining Fluids Lecture 25 - Unbonded Conventional Abrasive Processes
Link NOC:Introduction to Machining and Machining Fluids Lecture 26 - Advances in Metal Cutting_Machining Processes
Link NOC:Introduction to Machining and Machining Fluids Lecture 27 - Advances in Metal Cutting_Machining Processes - 2
Link NOC:Mechanics of Machining Lecture 1 - Deformation of Metals
Link NOC:Mechanics of Machining Lecture 2 - Mechanism of Plastic Deformation
Link NOC:Mechanics of Machining Lecture 3 - Machining Processes: Single Edge Tool, Types of Chips
Link NOC:Mechanics of Machining Lecture 4 - Tool Geometry: Single Point Cutting Tool Specifications
Link NOC:Mechanics of Machining Lecture 5 - Tool Specifications, Conversion Of Tool Angles, Multi-Point Cutting Tools
Link NOC:Mechanics of Machining Lecture 6 - Mechanics of Orthogonal Cutting, Force Relationships
Link NOC:Mechanics of Machining Lecture 7 - Determination of Stress, Strain, and Strain Rate
Link NOC:Mechanics of Machining Lecture 8 - Measurement of Shear Angle
Link NOC:Mechanics of Machining Lecture 9 - Other Analysis for Force Relationships
Link NOC:Mechanics of Machining Lecture 10 - Mechanics of Oblique Cutting
Link NOC:Mechanics of Machining Lecture 11 - Measurement of Cutting Forces
Link NOC:Mechanics of Machining Lecture 12 - Thermal Aspects Of Machining: Temperatures in Orthogonal Cutting
Link NOC:Mechanics of Machining Lecture 13 - Tool Wear and Tool Life and Tool Life Equations
Link NOC:Mechanics of Machining Lecture 14 - Economics in Machining
Link NOC:Mechanics of Machining Lecture 15 - Practical Machining Operations: Turning And Shaping and Planning Operation
Link NOC:Mechanics of Machining Lecture 16 - Practical Machining Operations: Milling And Drilling
Link NOC:Mechanics of Machining Lecture 17 - Grinding of Metals and Mechanics of Grinding Process
Link NOC:Mechanics of Machining Lecture 18 - Abrasive Machining and Finishing Operations
Link NOC:Mechanics of Machining Lecture 19 - CNC Machines and CNC Programming
Link NOC:Mechanics of Machining Lecture 20 - Introduction to Advanced Machining Processes
Link NOC:Principle of Hydraulic Machines and System Design Lecture 1 - Introduction to hydraulic machines: classifications and operational principles
Link NOC:Principle of Hydraulic Machines and System Design Lecture 2 - Euler equation for turbomachines: net head developed by the pump/turbines
Link NOC:Principle of Hydraulic Machines and System Design Lecture 3 - Velocity triangles of pumps, effect of inlet swirl on pump operation
Link NOC:Principle of Hydraulic Machines and System Design Lecture 4 - Velocity triangles of pumps, effect of inlet swirl on pump operation
Link NOC:Principle of Hydraulic Machines and System Design Lecture 5 - Pump casings, Efficiencies and Problems - I
Link NOC:Principle of Hydraulic Machines and System Design Lecture 6 - Pump casings, Efficiencies and Problems - II
Link NOC:Principle of Hydraulic Machines and System Design Lecture 7 - Pump casings, Efficiencies and Problems - III
Link NOC:Principle of Hydraulic Machines and System Design Lecture 8 - Axial flow pump, HQ curve, System Resistance Curve - I
Link NOC:Principle of Hydraulic Machines and System Design Lecture 9 - Axial flow pump, HQ curve, System Resistance Curve - II
Link NOC:Principle of Hydraulic Machines and System Design Lecture 10 - HQ Curve, System Resistance Curve - I
Link NOC:Principle of Hydraulic Machines and System Design Lecture 11 - HQ Curve, System Resistance Curve - II
Link NOC:Principle of Hydraulic Machines and System Design Lecture 12 - Introduction to Cavitation
Link NOC:Principle of Hydraulic Machines and System Design Lecture 13 - Condition for Cavitation and NPSH
Link NOC:Principle of Hydraulic Machines and System Design Lecture 14 - Net Positive Suction Head (NPSH)
Link NOC:Principle of Hydraulic Machines and System Design Lecture 15 - Suction number and Introduction to off design condition
Link NOC:Principle of Hydraulic Machines and System Design Lecture 16 - Cavitation: The effect of off-design Conditions
Link NOC:Principle of Hydraulic Machines and System Design Lecture 17 - Cavitation: Preventive Measures
Link NOC:Principle of Hydraulic Machines and System Design Lecture 18 - Cavitation: Preventive Measures, Effect on Pump Characteristic
Link NOC:Principle of Hydraulic Machines and System Design Lecture 19 - Problems on Cavitation
Link NOC:Principle of Hydraulic Machines and System Design Lecture 20 - Introduction to Slip : Stodola Slip Model
Link NOC:Principle of Hydraulic Machines and System Design Lecture 21 - Departure from Euler theory
Link NOC:Principle of Hydraulic Machines and System Design Lecture 22 - Slip Velocity - I
Link NOC:Principle of Hydraulic Machines and System Design Lecture 23 - Slip Velocity - II
Link NOC:Principle of Hydraulic Machines and System Design Lecture 24 - Problem on slip
Link NOC:Principle of Hydraulic Machines and System Design Lecture 25 - Degree of reaction of pump
Link NOC:Principle of Hydraulic Machines and System Design Lecture 26 - Degree of reaction and axial pump design
Link NOC:Principle of Hydraulic Machines and System Design Lecture 27 - Testing of radial flow pump - I
Link NOC:Principle of Hydraulic Machines and System Design Lecture 28 - Testing of radial flow pump - II
Link NOC:Principle of Hydraulic Machines and System Design Lecture 29 - Problem on radial flow pump testing
Link NOC:Principle of Hydraulic Machines and System Design Lecture 30 - Radial equilibrium of axial flow pump - I
Link NOC:Principle of Hydraulic Machines and System Design Lecture 31 - Radial equilibrium of axial flow pump - II
Link NOC:Principle of Hydraulic Machines and System Design Lecture 32 - Pump operation: series and parallel connection
Link NOC:Principle of Hydraulic Machines and System Design Lecture 33 - Series and parallel operation of dissimilar pumps
Link NOC:Principle of Hydraulic Machines and System Design Lecture 34 - Pumping system design
Link NOC:Principle of Hydraulic Machines and System Design Lecture 35 - Design of parellel pumping system
Link NOC:Principle of Hydraulic Machines and System Design Lecture 36 - Numerical problem on pumps - I
Link NOC:Principle of Hydraulic Machines and System Design Lecture 37 - Numerical problem on pumps - II
Link NOC:Principle of Hydraulic Machines and System Design Lecture 38 - Numerical problem on pumps - III
Link NOC:Principle of Hydraulic Machines and System Design Lecture 39 - Working principle and Indicator diagram of PD pump
Link NOC:Principle of Hydraulic Machines and System Design Lecture 40 - Working principle and Indicator diagram of PD pump (Continued...)
Link NOC:Principle of Hydraulic Machines and System Design Lecture 41 - Modified indicator diagram and Head-Discharge curve
Link NOC:Principle of Hydraulic Machines and System Design Lecture 42 - Analysis and Head-Discharge curve of PD pump
Link NOC:Principle of Hydraulic Machines and System Design Lecture 43 - Analysis and efficiencies of PD pump
Link NOC:Principle of Hydraulic Machines and System Design Lecture 44 - Requirement of air chamber in PD pump
Link NOC:Principle of Hydraulic Machines and System Design Lecture 45 - Numerical problem on PD pump with air chamber
Link NOC:Principle of Hydraulic Machines and System Design Lecture 46 - Similarity and dimensional analysis of hydraulic machines
Link NOC:Principle of Hydraulic Machines and System Design Lecture 47 - Dimensional analysis of hydraulic machines: Buckingham's theorem
Link NOC:Principle of Hydraulic Machines and System Design Lecture 48 - Buckingham's theorem: Specific speed of hydraulic machines
Link NOC:Principle of Hydraulic Machines and System Design Lecture 49 - Turbine Classification and Operational principle of Pelton wheel
Link NOC:Principle of Hydraulic Machines and System Design Lecture 50 - Velocity Tiangles and analysis
Link NOC:Principle of Hydraulic Machines and System Design Lecture 51 - Operational Principle of Reaction turbine
Link NOC:Principle of Hydraulic Machines and System Design Lecture 52 - Degree of Reaction and Introduction to axial flow turbine
Link NOC:Principle of Hydraulic Machines and System Design Lecture 53 - Kaplan Turbine: Operational Principle, Turbine efficiencies
Link NOC:Principle of Hydraulic Machines and System Design Lecture 54 - Draft Tube for Reaction Turbine and Cavitation
Link NOC:Principle of Hydraulic Machines and System Design Lecture 55 - Energy Balance and NPSH
Link NOC:Principle of Hydraulic Machines and System Design Lecture 56 - Thoma Cavitation Factor
Link NOC:Principle of Hydraulic Machines and System Design Lecture 57 - Reaction Turbine: Design aspects and Characteristic Curves
Link NOC:Principle of Hydraulic Machines and System Design Lecture 58 - Problems on Impulse and Reaction Turbines
Link NOC:Introduction to Abrasive Machining and Finishing Processes Lecture 1 - Introduction to Abrasive Machining and Finishing Processes
Link NOC:Introduction to Abrasive Machining and Finishing Processes Lecture 2 - Grinding Process
Link NOC:Introduction to Abrasive Machining and Finishing Processes Lecture 3 - Grinding Fluids and Its Additives
Link NOC:Introduction to Abrasive Machining and Finishing Processes Lecture 4 - Grinding Fluids and its Emissions
Link NOC:Introduction to Abrasive Machining and Finishing Processes Lecture 5 - Sustainable Grinding Process: Biodegradation of Grinding Fluids
Link NOC:Introduction to Abrasive Machining and Finishing Processes Lecture 6 - Sustainable Grinding Process: MQL in Grinding Process
Link NOC:Introduction to Abrasive Machining and Finishing Processes Lecture 7 - Honing Process
Link NOC:Introduction to Abrasive Machining and Finishing Processes Lecture 8 - Lapping Process
Link NOC:Introduction to Abrasive Machining and Finishing Processes Lecture 9 - Super Finishing and Sand Blasting
Link NOC:Introduction to Abrasive Machining and Finishing Processes Lecture 10 - Vibratory Bowl Finishing,Rotary Barrel Finishing or Tumbling
Link NOC:Introduction to Abrasive Machining and Finishing Processes Lecture 11 - Drag Finishing, Ice-bonded Abrasive Finishing, Pitch Polishing, Pad Polishing
Link NOC:Introduction to Abrasive Machining and Finishing Processes Lecture 12 - Introduction to Surface Texture in abrasive Process
Link NOC:Introduction to Abrasive Machining and Finishing Processes Lecture 13 - Representation of Surface Roughness
Link NOC:Introduction to Abrasive Machining and Finishing Processes Lecture 14 - Abrasive Jet Machining (AJM)
Link NOC:Introduction to Abrasive Machining and Finishing Processes Lecture 15 - Abrasive Water Jet Machining (AWJM)
Link NOC:Introduction to Abrasive Machining and Finishing Processes Lecture 16 - Ultrasonic Machining (USM)
Link NOC:Introduction to Abrasive Machining and Finishing Processes Lecture 17 - EDM, Wire-EDM, EDG, EDDG, AW-EDG
Link NOC:Introduction to Abrasive Machining and Finishing Processes Lecture 18 - Elastic Emission Machining
Link NOC:Introduction to Abrasive Machining and Finishing Processes Lecture 19 - PMEDM and ECD and ELID, ECH
Link NOC:Introduction to Abrasive Machining and Finishing Processes Lecture 20 - Abrasive Flow Finishing: Part 1
Link NOC:Introduction to Abrasive Machining and Finishing Processes Lecture 21 - Abrasive Flow Finishing: Part 2
Link NOC:Introduction to Abrasive Machining and Finishing Processes Lecture 22 - Magnetic Field Assisted Abrasive Finishing: MAF, MADe, MFP
Link NOC:Introduction to Abrasive Machining and Finishing Processes Lecture 23 - Magneto Rheological Finishing and BE-MRF
Link NOC:Introduction to Abrasive Machining and Finishing Processes Lecture 24 - Magnetic Field Assisted Abrasive Finishing:CNP,CMMRF,MRAFF,R-MRAFF
Link NOC:Introduction to Abrasive Machining and Finishing Processes Lecture 25 - Summary of the Course
Link NOC:Theory of Rectangular Plates - Part 1 Lecture 1 - Basic of Solid Mechanics
Link NOC:Theory of Rectangular Plates - Part 1 Lecture 2 - Enegry Principles
Link NOC:Theory of Rectangular Plates - Part 1 Lecture 3 - Classification of Plate Theories and Some Basics
Link NOC:Theory of Rectangular Plates - Part 1 Lecture 4 - Tutorial: Transformation of Tensors
Link NOC:Theory of Rectangular Plates - Part 1 Lecture 5 - Governing Equation for Plate - 1
Link NOC:Theory of Rectangular Plates - Part 1 Lecture 6 - Governing Equation for Plate - 2
Link NOC:Theory of Rectangular Plates - Part 1 Lecture 7 - Tutorial: Reduced Stiffness and Plate Stiffness
Link NOC:Theory of Rectangular Plates - Part 1 Lecture 8 - Navier Solution + Levy solution
Link NOC:Theory of Rectangular Plates - Part 1 Lecture 9 - Levy Solution
Link NOC:Theory of Rectangular Plates - Part 1 Lecture 10 - Tutorial: Load Matrices Calculation
Link NOC:Theory of Rectangular Plates - Part 1 Lecture 11 - EKM and buckling of plates
Link NOC:Theory of Rectangular Plates - Part 1 Lecture 12 - 3D Solutions
Link NOC:Theory of Rectangular Plates - Part 1 Lecture 13 - Matlab Coding + ABAQUS
Link NOC:Theory of Rectangular Plates - Part 1 Lecture 14 - Tutorial: Levy Solutions
Link NOC:Principles of Mechanical Measurement Lecture 1 - Introduction to measurement
Link NOC:Principles of Mechanical Measurement Lecture 2 - Generalized measurement system and static characteristics
Link NOC:Principles of Mechanical Measurement Lecture 3 - Uncertainties in measurement
Link NOC:Principles of Mechanical Measurement Lecture 4 - Statistical treatment of random errors
Link NOC:Principles of Mechanical Measurement Lecture 5 - System response to periodic inputs
Link NOC:Principles of Mechanical Measurement Lecture 6 - Zeroth and first order systems
Link NOC:Principles of Mechanical Measurement Lecture 7 - First and second order systems
Link NOC:Principles of Mechanical Measurement Lecture 8 - Basics of digitization and number systems
Link NOC:Principles of Mechanical Measurement Lecture 9 - Binary logic gates and binary codes
Link NOC:Principles of Mechanical Measurement Lecture 10 - Analog-to-digital conversion
Link NOC:Principles of Mechanical Measurement Lecture 11 - Digital-to-analog conversion
Link NOC:Principles of Mechanical Measurement Lecture 12 - Electromagnetic indicators
Link NOC:Principles of Mechanical Measurement Lecture 13 - Electronic amplifiers and filters
Link NOC:Principles of Mechanical Measurement Lecture 14 - Resistive devices
Link NOC:Principles of Mechanical Measurement Lecture 15 - Inductive, capacitive and optical devices
Link NOC:Principles of Mechanical Measurement Lecture 16 - Piezoelectric and nozzle-flapper transducers
Link NOC:Principles of Mechanical Measurement Lecture 17 - Resistive strain gages and associated circuitry
Link NOC:Principles of Mechanical Measurement Lecture 18 - Strain gage rosettes and gage orientation
Link NOC:Principles of Mechanical Measurement Lecture 19 - Elastic and strain gage load cells
Link NOC:Principles of Mechanical Measurement Lecture 20 - Various load cells and dynamometers
Link NOC:Principles of Mechanical Measurement Lecture 21 - Principles of manometry
Link NOC:Principles of Mechanical Measurement Lecture 22 - Piezometer and elastic pressure transducer
Link NOC:Principles of Mechanical Measurement Lecture 23 - Electric pressure transducer and high and low pressure measurement
Link NOC:Principles of Mechanical Measurement Lecture 24 - Bernoulli's equation in obstruction meters
Link NOC:Principles of Mechanical Measurement Lecture 25 - Obstruction meters and volume flowmeters
Link NOC:Principles of Mechanical Measurement Lecture 26 - Mass flowmeters and velocity probes
Link NOC:Principles of Mechanical Measurement Lecture 27 - Expansion-based devices
Link NOC:Principles of Mechanical Measurement Lecture 28 - RTD, Thermistor and Thermocouple
Link NOC:Principles of Mechanical Measurement Lecture 29 - Introduction to pyrometers
Link NOC:Principles of Mechanical Measurement Lecture 30 - Basic seismic transducer
Link NOC:Principles of Mechanical Measurement Lecture 31 - Vibro-, velo- and accelerometer
Link NOC:Principles of Mechanical Measurement Lecture 32 - Introduction to acoustic measurement
Link NOC:Principles of Mechanical Measurement Lecture 33 - Radioactivity and its biological effects
Link NOC:IC Engines and Gas Turbines Lecture 1 - External and Internal combustion engines, Engine components, SI and CI engines
Link NOC:IC Engines and Gas Turbines Lecture 2 - Four-stroke and Two-stroke engines, Comparison between SI and CI engines, and Four-stroke and Two-stroke engines
Link NOC:IC Engines and Gas Turbines Lecture 3 - Classification of IC engines
Link NOC:IC Engines and Gas Turbines Lecture 4 - Engine operating characteristics
Link NOC:IC Engines and Gas Turbines Lecture 5 - Otto, Diesel and Dual cycles
Link NOC:IC Engines and Gas Turbines Lecture 6 - Otto, Diesel and Dual cycles (Continued...)
Link NOC:IC Engines and Gas Turbines Lecture 7 - Otto, Diesel and Dual cycles (Continued...)
Link NOC:IC Engines and Gas Turbines Lecture 8 - Otto, Diesel and Dual cycles (Continued...)
Link NOC:IC Engines and Gas Turbines Lecture 9 - Comparison between the cycles, Actual cycles and their analysis
Link NOC:IC Engines and Gas Turbines Lecture 10 - Carburetor, Mixture requirements
Link NOC:IC Engines and Gas Turbines Lecture 11 - Carburetor, Mixture requirements (Continued...)
Link NOC:IC Engines and Gas Turbines Lecture 12 - Idling, cruising and power ranges
Link NOC:IC Engines and Gas Turbines Lecture 13 - Idling, cruising and power ranges (Continued...)
Link NOC:IC Engines and Gas Turbines Lecture 14 - Classification, types of nozzles, Ignition system, Battery and Magneto ignition systems
Link NOC:IC Engines and Gas Turbines Lecture 15 - Classification, types of nozzles, Ignition system, Battery and Magneto ignition systems (Continued...)
Link NOC:IC Engines and Gas Turbines Lecture 16 - Classification, types of nozzles, Ignition system, Battery and Magneto ignition systems (Continued...)
Link NOC:IC Engines and Gas Turbines Lecture 17 - Engine friction, Lubrication systems, forces on piston
Link NOC:IC Engines and Gas Turbines Lecture 18 - Lubricating oils, Thermochemistry and Fuels, Self-ignition
Link NOC:IC Engines and Gas Turbines Lecture 19 - Octane and Cetane Numbers, Alternative Fuels - Methanol, Ethanol, hydrogen, Natural Gas
Link NOC:IC Engines and Gas Turbines Lecture 20 - Octane and Cetane Numbers, Alternative Fuels - Methanol, Ethanol, hydrogen, Natural Gas (Continued...)
Link NOC:IC Engines and Gas Turbines Lecture 21 - Combustion in SI and CI Engines, Pressure Crank Angle Diagram
Link NOC:IC Engines and Gas Turbines Lecture 22 - Combustion in SI and CI Engines, Pressure Crank Angle Diagram (Continued...)
Link NOC:IC Engines and Gas Turbines Lecture 23 - Combustion in SI and CI Engines, Pressure Crank Angle Diagram (Continued...)
Link NOC:IC Engines and Gas Turbines Lecture 24 - SI engine injection system, Energy distribution, Engine temperatures, Heat transfer in combustion chambers
Link NOC:IC Engines and Gas Turbines Lecture 25 - SI engine injection system, Energy distribution, Engine temperatures, Heat transfer in combustion chambers (Continued...)
Link NOC:IC Engines and Gas Turbines Lecture 26 - CI engine injection systems, Air-cooled and liquid-cooled engines, Modern trends
Link NOC:IC Engines and Gas Turbines Lecture 27 - CI engine injection systems, Air-cooled and liquid-cooled engines, Modern trends (Continued...)
Link NOC:IC Engines and Gas Turbines Lecture 28 - CI engine injection systems, Air-cooled and liquid-cooled engines, Modern trends (Continued...)
Link NOC:IC Engines and Gas Turbines Lecture 29 - Problems on IC engine
Link NOC:IC Engines and Gas Turbines Lecture 30 - Turbomachines, Gas Turbine theory
Link NOC:IC Engines and Gas Turbines Lecture 31 - Open Cycle Gas Turbine Power Plant, Twin Shaft Arrangement
Link NOC:IC Engines and Gas Turbines Lecture 32 - Closed Cycle, Multi-Spool Arrangement, Steam Power Plant
Link NOC:IC Engines and Gas Turbines Lecture 33 - Basic Thermodynamics
Link NOC:IC Engines and Gas Turbines Lecture 34 - Brayton Cycle: Introducton and General Relationships
Link NOC:IC Engines and Gas Turbines Lecture 35 - Brayton Cycle: Efficiency, Work Ratio and Optimum Work Output Condition
Link NOC:IC Engines and Gas Turbines Lecture 36 - Brayton Cycle with Heat Exchanger/Reheater
Link NOC:IC Engines and Gas Turbines Lecture 37 - Brayton Cycle with Intercooler
Link NOC:IC Engines and Gas Turbines Lecture 38 - Real Brayton Cycle, Solved Example for Ideal Cycle
Link NOC:IC Engines and Gas Turbines Lecture 39 - Solved Examples for Real Brayton Cycle
Link NOC:IC Engines and Gas Turbines Lecture 40 - Introduction and Performance Parameters of Propulsion System
Link NOC:IC Engines and Gas Turbines Lecture 41 - Basics of Various Aircraft Engine
Link NOC:IC Engines and Gas Turbines Lecture 42 - Eular Turbomachinary Equation
Link NOC:IC Engines and Gas Turbines Lecture 43 - Introduction and Flow Analysis of Centrifugal Compressors
Link NOC:IC Engines and Gas Turbines Lecture 44 - Thermodynamics Analysis of Centrifugal Compressors
Link NOC:IC Engines and Gas Turbines Lecture 45 - Axial Compressor: Basics, Velocity triangles, T-S diagram and Work Intraction
Link NOC:IC Engines and Gas Turbines Lecture 46 - Axial Compressor: Different factors, Degree of Reaction and Free Vortex Condition
Link NOC:IC Engines and Gas Turbines Lecture 47 - Complete Analysis of Axial Flow Gas Turbine
Link NOC:IC Engines and Gas Turbines Lecture 48 - Solved Examples for Axial Compressors,Centrifugal Compressors and Turbine
Link NOC:IC Engines and Gas Turbines Lecture 49 - Radial Flow Turbine, Solved Example of Free vortex Condition
Link NOC:IC Engines and Gas Turbines Lecture 50 - Nozzles and Diffuers: Introduction, Intake efficiency,Nozzle efficiency
Link NOC:Fundamental of Welding Science and Technology Lecture 1 - Introduction of welding
Link NOC:Fundamental of Welding Science and Technology Lecture 2 - Classification of welding and joints
Link NOC:Fundamental of Welding Science and Technology Lecture 3 - Parts of weld joint
Link NOC:Fundamental of Welding Science and Technology Lecture 4 - Welding Symbol
Link NOC:Fundamental of Welding Science and Technology Lecture 5 - welding power source - 1
Link NOC:Fundamental of Welding Science and Technology Lecture 6 - Welding power source - 2
Link NOC:Fundamental of Welding Science and Technology Lecture 7 - Welding Power sources characteristics - 1
Link NOC:Fundamental of Welding Science and Technology Lecture 8 - Welding Power sources characteristics - 2
Link NOC:Fundamental of Welding Science and Technology Lecture 9 - Physics of welding - 1
Link NOC:Fundamental of Welding Science and Technology Lecture 10 - Physics of welding - 2
Link NOC:Fundamental of Welding Science and Technology Lecture 11 - Physics of welding - 4 (Arc Stability and Arc Blow)
Link NOC:Fundamental of Welding Science and Technology Lecture 12 - Physics of welding - 3
Link NOC:Fundamental of Welding Science and Technology Lecture 13 - Physics of welding - 5 (Metal Transfer-1)
Link NOC:Fundamental of Welding Science and Technology Lecture 14 - Physics of welding - 6 (Metal Transfer-2)
Link NOC:Fundamental of Welding Science and Technology Lecture 15 - Physics of welding - 7 (Metal Transfer-3)
Link NOC:Fundamental of Welding Science and Technology Lecture 16 - Physics of welding - 8 (Metal Transfer-4)
Link NOC:Fundamental of Welding Science and Technology Lecture 17 - Physics of welding - 9 (Metal Transfer-5)
Link NOC:Fundamental of Welding Science and Technology Lecture 18 - Physics of welding - 10 (Metalting Efficiency)
Link NOC:Fundamental of Welding Science and Technology Lecture 19 - Oxy-Fuel Gas Welding
Link NOC:Fundamental of Welding Science and Technology Lecture 20 - Shielded Metal Arc Welding
Link NOC:Fundamental of Welding Science and Technology Lecture 21 - Gas Tungsten Arc Welding
Link NOC:Fundamental of Welding Science and Technology Lecture 22 - Gas Metal Arc Welding
Link NOC:Fundamental of Welding Science and Technology Lecture 23 - Submerged Arc Welding
Link NOC:Fundamental of Welding Science and Technology Lecture 24 - Welding Defects and Inspection
Link NOC:Polymer Assisted Abrasive Finishing Processes Lecture 1 - Introduction to Polymer Assisted Abrasive Finishing Processes
Link NOC:Polymer Assisted Abrasive Finishing Processes Lecture 2 - Surface Integrity and Surface roughness representation - Part I
Link NOC:Polymer Assisted Abrasive Finishing Processes Lecture 3 - Surface Integrity and Surface roughness representation - Part II
Link NOC:Polymer Assisted Abrasive Finishing Processes Lecture 4 - Introduction to Grinding and Polymer assisted Grinding Wheels
Link NOC:Polymer Assisted Abrasive Finishing Processes Lecture 5 - Polymer medium for vibratory bowl finishing, Tumbling, Drag finishing
Link NOC:Polymer Assisted Abrasive Finishing Processes Lecture 6 - Polymer Pad and Chemo-mechanical Polishing
Link NOC:Polymer Assisted Abrasive Finishing Processes Lecture 7 - Elastic Emission Machining
Link NOC:Polymer Assisted Abrasive Finishing Processes Lecture 8 - Hydrodynamic Polishing, Elasto Abrasive Finishing
Link NOC:Polymer Assisted Abrasive Finishing Processes Lecture 9 - Abrasive Flow Machining and Finishing - Part I
Link NOC:Polymer Assisted Abrasive Finishing Processes Lecture 10 - Abrasive Flow Machining and Finishing - Part II
Link NOC:Polymer Assisted Abrasive Finishing Processes Lecture 11 - Advances in Abrasive Flow Finishing: DBGAFF, CFAAFM
Link NOC:Polymer Assisted Abrasive Finishing Processes Lecture 12 - Advances in Abrasive Flow Finishing: Spiral Polishing, R-AFF
Link NOC:Polymer Assisted Abrasive Finishing Processes Lecture 13 - AFF Processes: Magnetio AFF (MRAFF), UAA-AFF, EC-AFF
Link NOC:Polymer Assisted Abrasive Finishing Processes Lecture 14 - Finishing of Biomedical implants (Micro AFF: Micro holes, Micro slots, Bio Implants: Knee implants , Hip implants and Applications of one way, two way and orbital AFF)
Link NOC:Polymer Assisted Abrasive Finishing Processes Lecture 15 - Summary of the Course
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 1 - Materials and manufacturing Processes - 1
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 2 - Materials and manufacturing Processes - 2
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 3 - Physics based modeling approach at different scale
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 4 - Evaluation of properties and process modelling
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 5 - Thermofluid and electromagnetic analysis
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 6 - Solid-state deformation and residual stress - 1
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 7 - Solid-state deformation and residual stress - 2
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 8 - Meltiing, solidification and additive manufacturing
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 9 - Force and velocity diagram - 1
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 10 - Force and velocity diagram - 2
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 11 - Heat transfer analysis
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 12 - Principal and mechanism at different processes - 1
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 13 - Principal and mechanism at different processes - 2
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 14 - Mechanics of bulk metal forming
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 15 - Mechanics of sheet metal forming - 1
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 16 - Mechanics of sheet metal forming - 2
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 17 - Heat transfer and thermomechanical processing
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 18 - Fusion welding processes - 1
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 19 - Fusion welding processes - 2
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 20 - Physics of welding and metal transfer
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 21 - Heat source model in fusion welding
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 22 - Heat transfer and material flow
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 23 - Solidification in welding - 1
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 24 - Solidification in welding - 2
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 25 - Solid state welding - 1
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 26 - Solid state welding - 2
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 27 - Hybrid welding, residual stress and distortion
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 28 - Cooling and solidification at different casting processes
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 29 - Powder metallurgy
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 30 - Principle of surface and coating technologies
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 31 - Principle and development of additive manufacturing technologies - 1
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 32 - Principle and development of additive manufacturing technologies - 2
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 33 - Fundamentals of heat treatment
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 34 - Evaluation of microstructural properties and residual stress
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 35 - Down-scaling of conventional manufacturing processes and Micro-to-nano manufacturing
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 36 - Packaging, micro-finishing and micro-manufacturing processes
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 37 - Processing and shaping of non-metals and bio-materials
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 38 - Principle of glass and ceramics processing and their shaping
Link NOC:Two-Phase flow with phase change in Conventional and Miniature Channels Lecture 1 - Introduction and Notation
Link NOC:Two-Phase flow with phase change in Conventional and Miniature Channels Lecture 2 - Flow Regimes and Flow Regime Maps
Link NOC:Two-Phase flow with phase change in Conventional and Miniature Channels Lecture 3 - The Homogeneous Model
Link NOC:Two-Phase flow with phase change in Conventional and Miniature Channels Lecture 4 - The Separated Flow Model
Link NOC:Two-Phase flow with phase change in Conventional and Miniature Channels Lecture 5 - The Separated Flow Model (Continued...)
Link NOC:Two-Phase flow with phase change in Conventional and Miniature Channels Lecture 6 - The Drift Flux Model
Link NOC:Two-Phase flow with phase change in Conventional and Miniature Channels Lecture 7 - Estimation of pressure drop in two phase flow
Link NOC:Two-Phase flow with phase change in Conventional and Miniature Channels Lecture 8 - Two phase flow and pressure drop in miniature channels
Link NOC:Applied Thermodynamics for Engineers Lecture 1 - Overview of thermodynamic system and state
Link NOC:Applied Thermodynamics for Engineers Lecture 2 - First and second laws of thermodynamics
Link NOC:Applied Thermodynamics for Engineers Lecture 3 - Concept of entropy and entropy generation
Link NOC:Applied Thermodynamics for Engineers Lecture 4 - Concept of exergy and exergy destruction
Link NOC:Applied Thermodynamics for Engineers Lecture 5 - Thermodynamic potentials and Maxwell relations
Link NOC:Applied Thermodynamics for Engineers Lecture 6 - Generalized relations for entropy and specific heats
Link NOC:Applied Thermodynamics for Engineers Lecture 7 - Joule-Thomson coefficient and Clapeyron equation
Link NOC:Applied Thermodynamics for Engineers Lecture 8 - Liquid-vapor phase-change process
Link NOC:Applied Thermodynamics for Engineers Lecture 9 - Use of property tables
Link NOC:Applied Thermodynamics for Engineers Lecture 10 - Equations-of-state and Compressibility factor
Link NOC:Applied Thermodynamics for Engineers Lecture 11 - Ideal cycles for reciprocating engines
Link NOC:Applied Thermodynamics for Engineers Lecture 12 - Otto, Diesel and Dual combustion cycles
Link NOC:Applied Thermodynamics for Engineers Lecture 13 - Stirling and Ericsson cycles
Link NOC:Applied Thermodynamics for Engineers Lecture 14 - Fuel-air cycle
Link NOC:Applied Thermodynamics for Engineers Lecture 15 - Numerical exercise on Fuel-air cycles
Link NOC:Applied Thermodynamics for Engineers Lecture 16 - Losses in actual cycle and valve-timing diagram
Link NOC:Applied Thermodynamics for Engineers Lecture 17 - Ideal Brayton cycle
Link NOC:Applied Thermodynamics for Engineers Lecture 18 - Intercooling and reheating in Brayton cycle
Link NOC:Applied Thermodynamics for Engineers Lecture 19 - Regeneration in Brayton cycle
Link NOC:Applied Thermodynamics for Engineers Lecture 20 - Ideal Rankine cycle
Link NOC:Applied Thermodynamics for Engineers Lecture 21 - Improvements and modifications in Rankine cycle
Link NOC:Applied Thermodynamics for Engineers Lecture 22 - Regenerative Rankine cycle
Link NOC:Applied Thermodynamics for Engineers Lecture 23 - Binary vapor power cycle
Link NOC:Applied Thermodynamics for Engineers Lecture 24 - Combined gas-steam power plant
Link NOC:Applied Thermodynamics for Engineers Lecture 25 - Different arrangments in combined cycles
Link NOC:Applied Thermodynamics for Engineers Lecture 26 - Vapor compression refrigeration cycle
Link NOC:Applied Thermodynamics for Engineers Lecture 27 - SSS cycles and refrigerants
Link NOC:Applied Thermodynamics for Engineers Lecture 28 - Modifications in VCR systems
Link NOC:Applied Thermodynamics for Engineers Lecture 29 - Vapor absorption refrigeration cycle
Link NOC:Applied Thermodynamics for Engineers Lecture 30 - P-v-T behavior of gas mixtures
Link NOC:Applied Thermodynamics for Engineers Lecture 31 - Numerical examples
Link NOC:Applied Thermodynamics for Engineers Lecture 32 - Properties of moist air
Link NOC:Applied Thermodynamics for Engineers Lecture 33 - Psychrometric chart and various psychrometric processes
Link NOC:Applied Thermodynamics for Engineers Lecture 34 - Sensible heat factor and bypass factor
Link NOC:Applied Thermodynamics for Engineers Lecture 35 - Theoretical and actual combustion process
Link NOC:Applied Thermodynamics for Engineers Lecture 36 - Thermodynamic analyses of reacting systems
Link NOC:Fundamentals of Conduction and Radiation Lecture 1 - Relationship of Thermodynamics with Heat transfer
Link NOC:Fundamentals of Conduction and Radiation Lecture 2 - Modes of heat transfer
Link NOC:Fundamentals of Conduction and Radiation Lecture 3 - Fourier's law and thermal conductivity
Link NOC:Fundamentals of Conduction and Radiation Lecture 4 - Generalized heat diffusion equation
Link NOC:Fundamentals of Conduction and Radiation Lecture 5 - Heat diffusion equation in curvilinear coordinates
Link NOC:Fundamentals of Conduction and Radiation Lecture 6 - Concept of thermal resistance
Link NOC:Fundamentals of Conduction and Radiation Lecture 7 - Use of network of resistances in wall and cylinder
Link NOC:Fundamentals of Conduction and Radiation Lecture 8 - Critical thickness of insulation
Link NOC:Fundamentals of Conduction and Radiation Lecture 9 - Conduction with energy generation - I
Link NOC:Fundamentals of Conduction and Radiation Lecture 10 - Conduction with energy generation - II
Link NOC:Fundamentals of Conduction and Radiation Lecture 11 - General Heat Transfer Analysis
Link NOC:Fundamentals of Conduction and Radiation Lecture 12 - Fins with uniform cross-section area - I
Link NOC:Fundamentals of Conduction and Radiation Lecture 13 - Fins with uniform cross-section area - II
Link NOC:Fundamentals of Conduction and Radiation Lecture 14 - Fins with non-uniform cross-section area
Link NOC:Fundamentals of Conduction and Radiation Lecture 15 - Method of Separation of Variables
Link NOC:Fundamentals of Conduction and Radiation Lecture 16 - Graphical approach
Link NOC:Fundamentals of Conduction and Radiation Lecture 17 - Method of Superposition
Link NOC:Fundamentals of Conduction and Radiation Lecture 18 - Lumped capacitance approach - I
Link NOC:Fundamentals of Conduction and Radiation Lecture 19 - Lumped capacitance approach - II
Link NOC:Fundamentals of Conduction and Radiation Lecture 20 - Semi-infinite Solid
Link NOC:Fundamentals of Conduction and Radiation Lecture 21 - Steady Heat Conduction
Link NOC:Fundamentals of Conduction and Radiation Lecture 22 - Unsteady Heat Conduction
Link NOC:Fundamentals of Conduction and Radiation Lecture 23 - Problem solving using Energy Balance Method
Link NOC:Fundamentals of Conduction and Radiation Lecture 24 - Introduction to radiative heat fluxes
Link NOC:Fundamentals of Conduction and Radiation Lecture 25 - Spectral and directional definitions
Link NOC:Fundamentals of Conduction and Radiation Lecture 26 - Blackbody radiation
Link NOC:Fundamentals of Conduction and Radiation Lecture 27 - Emissivity
Link NOC:Fundamentals of Conduction and Radiation Lecture 28 - Irradiation of real surfaces
Link NOC:Fundamentals of Conduction and Radiation Lecture 29 - View factor
Link NOC:Fundamentals of Conduction and Radiation Lecture 30 - Blackbody radiation exchange
Link NOC:Fundamentals of Conduction and Radiation Lecture 31 - Radiation networks
Link NOC:Fundamentals of Conduction and Radiation Lecture 32 - Gas radiation
Link NOC:Fundamentals of Conduction and Radiation Lecture 33 - Radiative Transfer Equation
Link NOC:Steam Power Engineering Lecture 1 - Review of thermodynamics
Link NOC:Steam Power Engineering Lecture 2 - Rankine cycle
Link NOC:Steam Power Engineering Lecture 3 - Performance estimation of steam power cycles
Link NOC:Steam Power Engineering Lecture 4 - Carnot cycle examples
Link NOC:Steam Power Engineering Lecture 5 - Rankine cycle with superheat
Link NOC:Steam Power Engineering Lecture 6 - Rankine cycle with reheat theory and example
Link NOC:Steam Power Engineering Lecture 7 - Examples of Rankine cycle
Link NOC:Steam Power Engineering Lecture 8 - Examples of reheat Rankine cycle
Link NOC:Steam Power Engineering Lecture 9 - Rankine cycle with regeneration
Link NOC:Steam Power Engineering Lecture 10 - Feedwater heaters
Link NOC:Steam Power Engineering Lecture 11 - Cogeneration of power and process heat
Link NOC:Steam Power Engineering Lecture 12 - Examples of regeneration
Link NOC:Steam Power Engineering Lecture 13 - Examples of regenerative Rankine cycle
Link NOC:Steam Power Engineering Lecture 14 - Binary/multi-fluid cycles
Link NOC:Steam Power Engineering Lecture 15 - Low temperature power cycles
Link NOC:Steam Power Engineering Lecture 16 - Examples of binary cycles
Link NOC:Steam Power Engineering Lecture 17 - Types of boilers
Link NOC:Steam Power Engineering Lecture 18 - Boiler accessories
Link NOC:Steam Power Engineering Lecture 19 - Practice examples
Link NOC:Steam Power Engineering Lecture 20 - Stagnation conditions and Nozzle flow
Link NOC:Steam Power Engineering Lecture 21 - Nozzle flow
Link NOC:Steam Power Engineering Lecture 22 - Examples of Nozzle
Link NOC:Steam Power Engineering Lecture 23 - Impulse Turbine - 1
Link NOC:Steam Power Engineering Lecture 24 - Impulse Turbine - 2
Link NOC:Steam Power Engineering Lecture 25 - Examples on Impulse Turbine
Link NOC:Steam Power Engineering Lecture 26 - Reaction Turbine
Link NOC:Steam Power Engineering Lecture 27 - Reheat Factor
Link NOC:Steam Power Engineering Lecture 28 - Examples on Turbine - 1
Link NOC:Steam Power Engineering Lecture 29 - Examples on Turbine - 2
Link NOC:Steam Power Engineering Lecture 30 - Gas Mixture
Link NOC:Steam Power Engineering Lecture 31 - Psychrometry - 1
Link NOC:Steam Power Engineering Lecture 32 - Psychrometry - 2
Link NOC:Steam Power Engineering Lecture 33 - Condensers
Link NOC:Dynamic Behaviour of Materials Lecture 1 - Introduction to Dynamic Behaviour of Materials - I
Link NOC:Dynamic Behaviour of Materials Lecture 2 - Introduction to Dynamic Behaviour of Materials - II
Link NOC:Dynamic Behaviour of Materials Lecture 3 - Introduction to Waves
Link NOC:Dynamic Behaviour of Materials Lecture 4 - Quasi-static vs Dynamic Deformation
Link NOC:Dynamic Behaviour of Materials Lecture 5 - Elastic Wave and its Classification
Link NOC:Dynamic Behaviour of Materials Lecture 6 - Propagation of Elastic Waves in Continuum
Link NOC:Dynamic Behaviour of Materials Lecture 7 - Wave Reflection, Refraction and Interaction
Link NOC:Dynamic Behaviour of Materials Lecture 8 - General Solution of Elastic Wave Equation
Link NOC:Dynamic Behaviour of Materials Lecture 9 - Additional Considerations of Elastic Wave in Cylindrical Bar
Link NOC:Dynamic Behaviour of Materials Lecture 10 - Introduction to Plastic Waves
Link NOC:Dynamic Behaviour of Materials Lecture 11 - Plastic Waves of Uniaxial Stress
Link NOC:Dynamic Behaviour of Materials Lecture 12 - Plastic Waves of Combined Stress
Link NOC:Dynamic Behaviour of Materials Lecture 13 - Taylor's Experiment for Plastic Wave Propagation - 1
Link NOC:Dynamic Behaviour of Materials Lecture 14 - Taylor's Experiment for Plastic Wave Propagation - 2
Link NOC:Dynamic Behaviour of Materials Lecture 15 - Taylor's Experiment: Wilkins-Guinan Analysis
Link NOC:Dynamic Behaviour of Materials Lecture 16 - Introduction to Shock Waves - I
Link NOC:Dynamic Behaviour of Materials Lecture 17 - Introduction to Shock Waves - II
Link NOC:Dynamic Behaviour of Materials Lecture 18 - Shock Wave: Rankine Hugonoit Treatment
Link NOC:Dynamic Behaviour of Materials Lecture 19 - Rankine Hugonoit Treatment and Shock Wave under Impact
Link NOC:Dynamic Behaviour of Materials Lecture 20 - Shock Wave under Impact
Link NOC:Dynamic Behaviour of Materials Lecture 21 - Equations of States (Shock Waves) : Experimental Methods
Link NOC:Dynamic Behaviour of Materials Lecture 22 - Equations of States (Shock Waves) : Theoretical Calculations
Link NOC:Dynamic Behaviour of Materials Lecture 23 - Complex Problems of Shock Waves and Temperature Rise under Shock Wave
Link NOC:Dynamic Behaviour of Materials Lecture 24 - Shock Wave Attenuation, Interaction and Reflection - I
Link NOC:Dynamic Behaviour of Materials Lecture 25 - Shock Wave Attenuation, Interaction and Reflection - II
Link NOC:Dynamic Behaviour of Materials Lecture 26 - Shock Wave Interaction and Reflection
Link NOC:Dynamic Behaviour of Materials Lecture 27 - Fundamentals of Materials Science and Engineering
Link NOC:Dynamic Behaviour of Materials Lecture 28 - Shock Wave Induced Phase Transformations - 1
Link NOC:Dynamic Behaviour of Materials Lecture 29 - Shock Wave Induced Phase Transformations - 2
Link NOC:Dynamic Behaviour of Materials Lecture 30 - Shock Wave Induced Phase Transformations - 3
Link NOC:Dynamic Behaviour of Materials Lecture 31 - Shock Wave Induced Phase Transformations - 4
Link NOC:Dynamic Behaviour of Materials Lecture 32 - Experimental Techniques for Dynamic Deformation - 1
Link NOC:Dynamic Behaviour of Materials Lecture 33 - Experimental Techniques for Dynamic Deformation - 2
Link NOC:Dynamic Behaviour of Materials Lecture 34 - Plastic Deformation at High Strain Rates - 1
Link NOC:Dynamic Behaviour of Materials Lecture 35 - Plastic Deformation at High Strain Rates - 2
Link NOC:Dynamic Behaviour of Materials Lecture 36 - Plastic Deformation at High Strain Rates - 3
Link NOC:Dynamic Behaviour of Materials Lecture 37 - Plastic Deformation at High Strain Rates - 4
Link NOC:Dynamic Behaviour of Materials Lecture 38 - Plastic Deformation at High Strain Rates - 5
Link NOC:Dynamic Behaviour of Materials Lecture 39 - Plastic Deformation Under Shock Waves - 1
Link NOC:Dynamic Behaviour of Materials Lecture 40 - Plastic Deformation Under Shock Waves - 2
Link NOC:Dynamic Behaviour of Materials Lecture 41 - Plastic Deformation Under Shock Waves - 3
Link NOC:Dynamic Behaviour of Materials Lecture 42 - Shear Band - 1
Link NOC:Dynamic Behaviour of Materials Lecture 43 - Shear Band - 2
Link NOC:Dynamic Behaviour of Materials Lecture 44 - Dynamic Fracture - 1
Link NOC:Dynamic Behaviour of Materials Lecture 45 - Dynamic Fracture - 2
Link NOC:Plastic Working of Metallic Materials Lecture 1 - Introduction to Plastic Working of Metals
Link NOC:Plastic Working of Metallic Materials Lecture 2 - Uniaxial Tension Test Analysis
Link NOC:Plastic Working of Metallic Materials Lecture 3 - Temperature effects in metal forming
Link NOC:Plastic Working of Metallic Materials Lecture 4 - Friction and Lubrication
Link NOC:Plastic Working of Metallic Materials Lecture 5 - Friction and Lubrication (Continued...)
Link NOC:Plastic Working of Metallic Materials Lecture 6 - Deformation zone + worked examples
Link NOC:Plastic Working of Metallic Materials Lecture 7 - Stresses at point and Theory of Plasticity
Link NOC:Plastic Working of Metallic Materials Lecture 8 - Slab Analysis
Link NOC:Plastic Working of Metallic Materials Lecture 9 - Slip Line Field Theory - Part 1
Link NOC:Plastic Working of Metallic Materials Lecture 10 - Slip Line Field Theory - Part 2
Link NOC:Plastic Working of Metallic Materials Lecture 11 - Upper Bound Theorem
Link NOC:Plastic Working of Metallic Materials Lecture 12 - Plasticity equations
Link NOC:Plastic Working of Metallic Materials Lecture 13 - Forging
Link NOC:Plastic Working of Metallic Materials Lecture 14 - Analysis of Forging
Link NOC:Plastic Working of Metallic Materials Lecture 15 - Analysis of Forging (Continued...)
Link NOC:Plastic Working of Metallic Materials Lecture 16 - Forging Die Design consideration
Link NOC:Plastic Working of Metallic Materials Lecture 17 - Forging Load
Link NOC:Plastic Working of Metallic Materials Lecture 18 - Rolling of Metals
Link NOC:Plastic Working of Metallic Materials Lecture 19 - Analysis of Rolling
Link NOC:Plastic Working of Metallic Materials Lecture 20 - Analysis of Rolling (Continued...)
Link NOC:Plastic Working of Metallic Materials Lecture 21 - Strain rate in the deformation zone
Link NOC:Plastic Working of Metallic Materials Lecture 22 - Rolling mills
Link NOC:Plastic Working of Metallic Materials Lecture 23 - Prblem on rolling
Link NOC:Plastic Working of Metallic Materials Lecture 24 - Drawing of Rods, Wires and Tubes
Link NOC:Plastic Working of Metallic Materials Lecture 25 - Drawing of Rods, Wires and Tubes (Continued...)
Link NOC:Plastic Working of Metallic Materials Lecture 26 - Analysis of Wire Drawing
Link NOC:Plastic Working of Metallic Materials Lecture 27 - Wire Drawing: Tutorial Problems
Link NOC:Plastic Working of Metallic Materials Lecture 28 - Extrusion Process
Link NOC:Plastic Working of Metallic Materials Lecture 29 - Analysis of Extrusion
Link NOC:Plastic Working of Metallic Materials Lecture 30 - Introduction
Link NOC:Plastic Working of Metallic Materials Lecture 31 - Sheet deformation process
Link NOC:Plastic Working of Metallic Materials Lecture 32 - Deformation of sheet in plane stress
Link NOC:Plastic Working of Metallic Materials Lecture 33 - Analysis of stamping
Link NOC:Plastic Working of Metallic Materials Lecture 34 - Instability in sheet metal forming
Link NOC:Plastic Working of Metallic Materials Lecture 35 - Deep drawing
Link NOC:Plastic Working of Metallic Materials Lecture 36 - Hydroforming
Link NOC:Fundamentals of Artificial Intelligence Lecture 1 - Introduction to Artificial Intelligence
Link NOC:Fundamentals of Artificial Intelligence Lecture 2 - Problem Solving as State Space Search
Link NOC:Fundamentals of Artificial Intelligence Lecture 3 - Uninformed Search
Link NOC:Fundamentals of Artificial Intelligence Lecture 4 - Heuristic Search
Link NOC:Fundamentals of Artificial Intelligence Lecture 5 - Informed Search
Link NOC:Fundamentals of Artificial Intelligence Lecture 6 - Constraint Satisfaction Problems
Link NOC:Fundamentals of Artificial Intelligence Lecture 7 - Searching AND/OR Graphs
Link NOC:Fundamentals of Artificial Intelligence Lecture 8 - Game Playing
Link NOC:Fundamentals of Artificial Intelligence Lecture 9 - Minimax + Alpha-Beta
Link NOC:Fundamentals of Artificial Intelligence Lecture 10 - Introduction to Knowledge Representation
Link NOC:Fundamentals of Artificial Intelligence Lecture 11 - Propositional Logic
Link NOC:Fundamentals of Artificial Intelligence Lecture 12 - First Order Logic - I
Link NOC:Fundamentals of Artificial Intelligence Lecture 13 - First Order Logic - II
Link NOC:Fundamentals of Artificial Intelligence Lecture 14 - Inference in First Order Logic - I
Link NOC:Fundamentals of Artificial Intelligence Lecture 15 - Inference in First Order Logic - II
Link NOC:Fundamentals of Artificial Intelligence Lecture 16 - Answer Extraction
Link NOC:Fundamentals of Artificial Intelligence Lecture 17 - Procedural Control of Reasoning
Link NOC:Fundamentals of Artificial Intelligence Lecture 18 - Reasoning under Uncertainty
Link NOC:Fundamentals of Artificial Intelligence Lecture 19 - Bayesian Network
Link NOC:Fundamentals of Artificial Intelligence Lecture 20 - Decision Network
Link NOC:Fundamentals of Artificial Intelligence Lecture 21 - Introduction to Planning
Link NOC:Fundamentals of Artificial Intelligence Lecture 22 - Plan Space Planning
Link NOC:Fundamentals of Artificial Intelligence Lecture 23 - Planning Graph and GraphPlan
Link NOC:Fundamentals of Artificial Intelligence Lecture 24 - Practical Planning and Acting
Link NOC:Fundamentals of Artificial Intelligence Lecture 25 - Sequential Decision Problems
Link NOC:Fundamentals of Artificial Intelligence Lecture 26 - Making Complex Decisions
Link NOC:Fundamentals of Artificial Intelligence Lecture 27 - Introduction to Machine Learning
Link NOC:Fundamentals of Artificial Intelligence Lecture 28 - Learning Decision Trees
Link NOC:Fundamentals of Artificial Intelligence Lecture 29 - Linear Regression
Link NOC:Fundamentals of Artificial Intelligence Lecture 30 - Support Vector Machines
Link NOC:Fundamentals of Artificial Intelligence Lecture 31 - Unsupervised Learning
Link NOC:Fundamentals of Artificial Intelligence Lecture 32 - Reinforcement Learning
Link NOC:Fundamentals of Artificial Intelligence Lecture 33 - Learning in Neural Networks
Link NOC:Fundamentals of Artificial Intelligence Lecture 34 - Deep Learning: A Brief Overview
Link NOC:Aircraft Propulsion Lecture 1 - Overview of Basic Thermodynamics
Link NOC:Aircraft Propulsion Lecture 2 - Solved Examples for Flow process
Link NOC:Aircraft Propulsion Lecture 3 - Turbomachines: Introduction, Classification, Types
Link NOC:Aircraft Propulsion Lecture 4 - Components of Gas Turbine Power Plant, Gas Turbine Attachments
Link NOC:Aircraft Propulsion Lecture 5 - Introduction to Various Aircraft engines, Engine Performance parameters
Link NOC:Aircraft Propulsion Lecture 6 - Air Standard Ideal Brayton Cycle
Link NOC:Aircraft Propulsion Lecture 7 - Examples for Ideal Brayton Cycle
Link NOC:Aircraft Propulsion Lecture 8 - Non-Ideal Brayton Cycle
Link NOC:Aircraft Propulsion Lecture 9 - Examples for Non-Ideal Brayton Cycle
Link NOC:Aircraft Propulsion Lecture 10 - Brayton Cycle with Heat Exchanger / Re-heater
Link NOC:Aircraft Propulsion Lecture 11 - Brayton Cycle with Intercooler / All Attachments
Link NOC:Aircraft Propulsion Lecture 12 - Examples of Gas Turbine Attachment
Link NOC:Aircraft Propulsion Lecture 13 - Examples of Gas Turbine Attachment
Link NOC:Aircraft Propulsion Lecture 14 - Stagnation Conditions, Real Brayton Cycle with Stagnation Conditions
Link NOC:Aircraft Propulsion Lecture 15 - Polytropic Efficiency of Compressor and Turbine
Link NOC:Aircraft Propulsion Lecture 16 - Examples of Real Cycle
Link NOC:Aircraft Propulsion Lecture 17 - Nozzle Flow: Isentropic Relations, Area Velocity Relation, Choked Mass Flow Rate
Link NOC:Aircraft Propulsion Lecture 18 - Aircraft Engine Intake, Intake Efficiency
Link NOC:Aircraft Propulsion Lecture 19 - Propelling Nozzle, Nozzle Efficiency
Link NOC:Aircraft Propulsion Lecture 20 - Turbojet engine: Confriguration and Examples
Link NOC:Aircraft Propulsion Lecture 21 - Turbofan engine: Confriguration and Examples
Link NOC:Aircraft Propulsion Lecture 22 - Ramjet engine: Parameters and losses
Link NOC:Aircraft Propulsion Lecture 23 - Examples of Ramjet Engine
Link NOC:Aircraft Propulsion Lecture 24 - Thrust Augmentation and Engine performance parameters for Aircrafts
Link NOC:Aircraft Propulsion Lecture 25 - Introduction to Turbomachinary
Link NOC:Aircraft Propulsion Lecture 26 - Centrifugal Compressor: Velocity diagrams, Workdone
Link NOC:Aircraft Propulsion Lecture 27 - Centrifugal Compressor: Thermodynamic analysis, Stage efficiency and Degree of reaction
Link NOC:Aircraft Propulsion Lecture 28 - Examples of Centrifugal compressor
Link NOC:Aircraft Propulsion Lecture 29 - Axial Flow Compressor: Velocity diagrams, Workdone and Degree of Reaction
Link NOC:Aircraft Propulsion Lecture 30 - Axial Flow Compressor: Free vortex Condition
Link NOC:Aircraft Propulsion Lecture 31 - Examples of Axial Flow Compressor - 1
Link NOC:Aircraft Propulsion Lecture 32 - Examples of Axial Flow Compressor - 2
Link NOC:Aircraft Propulsion Lecture 33 - Examples of Axial Flow Compressor - 3
Link NOC:Aircraft Propulsion Lecture 34 - Axial Turbine: Velocity diagrams, Workdone, and Degree of Reaction
Link NOC:Aircraft Propulsion Lecture 35 - Radial Turbine: Velocity diagrams, h-s diagram, Stage effieciency and degree of reaction
Link NOC:Aircraft Propulsion Lecture 36 - Examples of Axial Turbine
Link NOC:Aircraft Propulsion Lecture 37 - Practice examples of Axial Turbine and cetrifugal compressor
Link NOC:Aircraft Propulsion Lecture 38 - Cascade theory and Blade design
Link NOC:Aircraft Propulsion Lecture 39 - Cascade variables and Turbine Cascade
Link NOC:Aircraft Propulsion Lecture 40 - Velocity diagrams of Turbine Cascade, Compressor cascade
Link NOC:Aircraft Propulsion Lecture 41 - Turbine cooling methods
Link NOC:Aircraft Propulsion Lecture 42 - Practice examples of aircraft engine
Link NOC:Computational Fluid Dynamics for Incompressible Flows Lecture 1 - Applications of CFD
Link NOC:Computational Fluid Dynamics for Incompressible Flows Lecture 2 - Basic equations of fluid dynamics and heat transfer
Link NOC:Computational Fluid Dynamics for Incompressible Flows Lecture 3 - Initial and boundary conditions
Link NOC:Computational Fluid Dynamics for Incompressible Flows Lecture 4 - Physical Classification, System of first-order PDEs
Link NOC:Computational Fluid Dynamics for Incompressible Flows Lecture 5 - System of second-order PDEs
Link NOC:Computational Fluid Dynamics for Incompressible Flows Lecture 6 - Finite difference by Taylor series expansion
Link NOC:Computational Fluid Dynamics for Incompressible Flows Lecture 7 - Finite difference by general approximation and polynomials
Link NOC:Computational Fluid Dynamics for Incompressible Flows Lecture 8 - Finite difference in non-uniform grid
Link NOC:Computational Fluid Dynamics for Incompressible Flows Lecture 9 - Types of error and accuracy of FD solutions
Link NOC:Computational Fluid Dynamics for Incompressible Flows Lecture 10 - Finite difference formulations of Elliptic Equations with boundary condition treatment
Link NOC:Computational Fluid Dynamics for Incompressible Flows Lecture 11 - Iterative Methods
Link NOC:Computational Fluid Dynamics for Incompressible Flows Lecture 12 - Applications
Link NOC:Computational Fluid Dynamics for Incompressible Flows Lecture 13 - Linear Solvers
Link NOC:Computational Fluid Dynamics for Incompressible Flows Lecture 14 - Finite difference formulations of Parabolic Equations
Link NOC:Computational Fluid Dynamics for Incompressible Flows Lecture 15 - Finite difference formulations of Parabolic Equations: Implicit Methods
Link NOC:Computational Fluid Dynamics for Incompressible Flows Lecture 16 - Finite difference formulations of Parabolic Equations: Unsteady Two-Dimensional Equation
Link NOC:Computational Fluid Dynamics for Incompressible Flows Lecture 17 - Finite difference formulations of Parabolic Equations: Unsteady Three-Dimensional Equation
Link NOC:Computational Fluid Dynamics for Incompressible Flows Lecture 18 - Finite difference formulations of the first order wave equation: Explicit Method
Link NOC:Computational Fluid Dynamics for Incompressible Flows Lecture 19 - Finite difference formulations of the first order wave equation: Implicit Method
Link NOC:Computational Fluid Dynamics for Incompressible Flows Lecture 20 - Von Neumann stability analysis of different schemes for Parabolic equations
Link NOC:Computational Fluid Dynamics for Incompressible Flows Lecture 21 - Von Neumann stability analysis of different schemes for Parabolic equations
Link NOC:Computational Fluid Dynamics for Incompressible Flows Lecture 22 - Von Neumann stability analysis of different schemes for Hyperbolic equations
Link NOC:Computational Fluid Dynamics for Incompressible Flows Lecture 23 - Modified equation, Artificial viscosity, Numerical diffusion
Link NOC:Computational Fluid Dynamics for Incompressible Flows Lecture 24 - Discretization vorticity-stream function equations using FDM
Link NOC:Computational Fluid Dynamics for Incompressible Flows Lecture 25 - Boundary conditions for flow problems
Link NOC:Computational Fluid Dynamics for Incompressible Flows Lecture 26 - Solutions of vorticity-stream function equations
Link NOC:Computational Fluid Dynamics for Incompressible Flows Lecture 27 - Solution of Navier-Stokes Equation using FDM
Link NOC:Computational Fluid Dynamics for Incompressible Flows Lecture 28 - Solution of Navier-Stokes Equation using FDM (Continued...)
Link NOC:Computational Fluid Dynamics for Incompressible Flows Lecture 29 - Introduction to finite volume method
Link NOC:Computational Fluid Dynamics for Incompressible Flows Lecture 30 - Finite volume discretization of steady diffusion equation
Link NOC:Computational Fluid Dynamics for Incompressible Flows Lecture 31 - Finite volume discretization of unsteady diffusion equation
Link NOC:Computational Fluid Dynamics for Incompressible Flows Lecture 32 - Finite volume discretization of steady convection-diffusion equation
Link NOC:Computational Fluid Dynamics for Incompressible Flows Lecture 33 - Finite volume discretization of unsteady convection-diffusion equation
Link NOC:Computational Fluid Dynamics for Incompressible Flows Lecture 34 - Convection Schemes
Link NOC:Computational Fluid Dynamics for Incompressible Flows Lecture 35 - Solution of Navier-Stokes Equations using FVM - I
Link NOC:Computational Fluid Dynamics for Incompressible Flows Lecture 36 - Solution of Navier-Stokes Equations using FVM - II
Link NOC:Computational Fluid Dynamics for Incompressible Flows Lecture 37 - Boundary Conditions
Link NOC:Experimental Methods in Fluid Mechanics Lecture 1 - Basic concepts, Calibration
Link NOC:Experimental Methods in Fluid Mechanics Lecture 2 - Dimensions, Units, Standards, Systems of dimensions, System of units, Unit conversion table
Link NOC:Experimental Methods in Fluid Mechanics Lecture 3 - Basic concept of dynamic measurements
Link NOC:Experimental Methods in Fluid Mechanics Lecture 4 - Basic concept of dynamic measurements (Continued...)
Link NOC:Experimental Methods in Fluid Mechanics Lecture 5 - Basic concept of dynamic measurements (Continued...)
Link NOC:Experimental Methods in Fluid Mechanics Lecture 6 - System response and distortion, Impedence matching
Link NOC:Experimental Methods in Fluid Mechanics Lecture 7 - Dimensional measurement Gauge blocks, The pneumatic displacement gauge
Link NOC:Experimental Methods in Fluid Mechanics Lecture 8 - Dimensional measurement Gauge blocks, The pneumatic displacement gauge
Link NOC:Experimental Methods in Fluid Mechanics Lecture 9 - Pressure Measurements: Definition of pressure and Dynamic response considerations
Link NOC:Experimental Methods in Fluid Mechanics Lecture 10 - Mechanical pressure measurement devices, U-tube manometer, The inclined well type manometer
Link NOC:Experimental Methods in Fluid Mechanics Lecture 11 - The aneroid barometer, Diaphragm and Bellows Gauges
Link NOC:Experimental Methods in Fluid Mechanics Lecture 12 - The Mcleod gauge, The Pirani gauge, The Ionization gauge
Link NOC:Experimental Methods in Fluid Mechanics Lecture 13 - The Mcleod gauge, The Pirani gauge, The Ionization gauge (Continued...)
Link NOC:Experimental Methods in Fluid Mechanics Lecture 14 - The Mcleod gauge, The Pirani gauge, The Ionization gauge (Continued...)
Link NOC:Experimental Methods in Fluid Mechanics Lecture 15 - Pressure measurement using 3 holes/probes
Link NOC:Experimental Methods in Fluid Mechanics Lecture 16 - Pressure measurement using 3 holes/probes (Continued...)
Link NOC:Experimental Methods in Fluid Mechanics Lecture 17 - Flow obstruction flow rate measuerement(venturimeter/orificemeter), the Rotameter
Link NOC:Experimental Methods in Fluid Mechanics Lecture 18 - Flow obstruction flow rate measuerement(venturimeter/orificemeter), the Rotameter (Continued...)
Link NOC:Experimental Methods in Fluid Mechanics Lecture 19 - Thermal Anemometry(hot wire/hot film), Hot wire anemometer
Link NOC:Experimental Methods in Fluid Mechanics Lecture 20 - Thermal Anemometry(hot wire/hot film), Hot wire anemometer (Continued...)
Link NOC:Experimental Methods in Fluid Mechanics Lecture 21 - Laser Doppler anemometry
Link NOC:Experimental Methods in Fluid Mechanics Lecture 22 - Measurement of velocity components by 3 holes and 4 holes probes
Link NOC:Experimental Methods in Fluid Mechanics Lecture 23 - Ideal gas thermometer, Temperature measurement by mechanical and electrical effects
Link NOC:Experimental Methods in Fluid Mechanics Lecture 24 - Ideal gas thermometer, Temperature measurement by mechanical and electrical effects (Continued...)
Link NOC:Experimental Methods in Fluid Mechanics Lecture 25 - Thermostatic temperature, Resistance Temperature Detectors (RTD), Thermistors, Thermocouples
Link NOC:Experimental Methods in Fluid Mechanics Lecture 26 - Temperature measurement by Radiation, The optical pyrometer
Link NOC:Experimental Methods in Fluid Mechanics Lecture 27 - Transient response of thermal system, Thermocouple compensation, high speed flow
Link NOC:Experimental Methods in Fluid Mechanics Lecture 28 - Transient response of thermal system, Thermocouple compensation, high speed flow (Continued...)
Link NOC:Experimental Methods in Fluid Mechanics Lecture 29 - Transient response of thermal system, Thermocouple compensation, high speed flow (Continued...)
Link NOC:Experimental Methods in Fluid Mechanics Lecture 30 - Constant temperature hot-wire anemometer, LDA
Link NOC:Experimental Methods in Fluid Mechanics Lecture 31 - Use of PIV
Link NOC:Experimental Methods in Fluid Mechanics Lecture 32 - Use of PIV (Continued...)
Link NOC:Experimental Methods in Fluid Mechanics Lecture 33 - Use of PIV (Continued...)
Link NOC:Experimental Methods in Fluid Mechanics Lecture 34 - Measurement of pitch angle
Link NOC:Experimental Methods in Fluid Mechanics Lecture 35 - Measurement of torque by dynamometers, straingauge, transducers
Link NOC:Experimental Methods in Fluid Mechanics Lecture 36 - Measurement of microscale flow features - I
Link NOC:Experimental Methods in Fluid Mechanics Lecture 37 - Measurement of microscale flow features - II
Link NOC:Experimental Methods in Fluid Mechanics Lecture 38 - Transient and Frequency response consideration
Link NOC:Experimental Methods in Fluid Mechanics Lecture 39 - Examples
Link NOC:Experimental Methods in Fluid Mechanics Lecture 40 - Analysis of experimental data, causes and types of experimental errors
Link NOC:Experimental Methods in Fluid Mechanics Lecture 41 - Rejection of data: Chauvenets Criterion with example
Link NOC:Experimental Methods in Fluid Mechanics Lecture 42 - Error propagation: function of two variables, several variables
Link NOC:Experimental Methods in Fluid Mechanics Lecture 43 - The Method of Least square with example
Link NOC:Automation in Manufacturing Lecture 1 - Basic concepts
Link NOC:Automation in Manufacturing Lecture 2 - Mechatronics
Link NOC:Automation in Manufacturing Lecture 3 - Mechatronics based systems
Link NOC:Automation in Manufacturing Lecture 4 - Automated systems and equipment used in manufacturing - Part I
Link NOC:Automation in Manufacturing Lecture 5 - Automated systems and equipment used in manufacturing - Part II
Link NOC:Automation in Manufacturing Lecture 6 - Selection of electrical and electronics components for mechatronics based systems
Link NOC:Automation in Manufacturing Lecture 7 - Terms related to performance of electro-mechanical systems
Link NOC:Automation in Manufacturing Lecture 8 - Computer aided design of components
Link NOC:Automation in Manufacturing Lecture 9 - Fabrication Processes
Link NOC:Automation in Manufacturing Lecture 10 - Measurement system and potentiometer sensors
Link NOC:Automation in Manufacturing Lecture 11 - Displacement, position and proximity sensors - I
Link NOC:Automation in Manufacturing Lecture 12 - Displacement, position and proximity sensors - II
Link NOC:Automation in Manufacturing Lecture 13 - Fluid flow, pressure, and temperature measurement
Link NOC:Automation in Manufacturing Lecture 14 - Signal Conditioning: amplification, filtering
Link NOC:Automation in Manufacturing Lecture 15 - Pulse modulation, Protection devices, and Wheatstone bridge
Link NOC:Automation in Manufacturing Lecture 16 - Signal conversion
Link NOC:Automation in Manufacturing Lecture 17 - Microprocessor Technology
Link NOC:Automation in Manufacturing Lecture 18 - Introduction to Microprocessor Programming
Link NOC:Automation in Manufacturing Lecture 19 - Application of electric drives in automation
Link NOC:Automation in Manufacturing Lecture 20 - DC and AC motors
Link NOC:Automation in Manufacturing Lecture 21 - Stepper motor and servo motor
Link NOC:Automation in Manufacturing Lecture 22 - Types of industrial automation and mechanisms
Link NOC:Automation in Manufacturing Lecture 23 - Ball screw based linear motion drives
Link NOC:Automation in Manufacturing Lecture 24 - Application of cams in automation
Link NOC:Automation in Manufacturing Lecture 25 - Application of indexing mechanisms in automation
Link NOC:Automation in Manufacturing Lecture 26 - Application of tool magazines in automation
Link NOC:Automation in Manufacturing Lecture 27 - Material handling systems
Link NOC:Automation in Manufacturing Lecture 28 - Fundamental concepts
Link NOC:Automation in Manufacturing Lecture 29 - Hydraulic pumps
Link NOC:Automation in Manufacturing Lecture 30 - Direction control valves
Link NOC:Automation in Manufacturing Lecture 31 - Flow control and pressure relief valves
Link NOC:Automation in Manufacturing Lecture 32 - Graphical representation of hydraulic system elements
Link NOC:Automation in Manufacturing Lecture 33 - Basic concepts and air compressors
Link NOC:Automation in Manufacturing Lecture 34 - Air treatment and pressure regulation
Link NOC:Automation in Manufacturing Lecture 35 - Graphical representation and pneumatic circuits
Link NOC:Automation in Manufacturing Lecture 36 - Computer aided manufacturing and process planning
Link NOC:Automation in Manufacturing Lecture 37 - CNC machines and interpolation
Link NOC:Automation in Manufacturing Lecture 38 - CNC Programming
Link NOC:Fundamentals of Compressible Flow Lecture 1 - Review Concepts of Fluid Mechanics and Thermodynamics - I
Link NOC:Fundamentals of Compressible Flow Lecture 2 - Review Concepts of Fluid Mechanics and Thermodynamics - II
Link NOC:Fundamentals of Compressible Flow Lecture 3 - Review Concepts of Fluid Mechanics and Thermodynamics - III
Link NOC:Fundamentals of Compressible Flow Lecture 4 - Wave Propagation in Compressible Medium - I
Link NOC:Fundamentals of Compressible Flow Lecture 5 - Wave Propagation in Compressible Medium - II
Link NOC:Fundamentals of Compressible Flow Lecture 6 - Wave Propagation in Compressible Medium - III
Link NOC:Fundamentals of Compressible Flow Lecture 7 - Quasi-One Dimensional Isentropic Flow - I
Link NOC:Fundamentals of Compressible Flow Lecture 8 - Quasi-One Dimensional Isentropic Flow - II
Link NOC:Fundamentals of Compressible Flow Lecture 9 - Quasi-One Dimensional Isentropic Flow - III
Link NOC:Fundamentals of Compressible Flow Lecture 10 - Normal Shock Waves - I
Link NOC:Fundamentals of Compressible Flow Lecture 11 - Normal Shock Waves - II
Link NOC:Fundamentals of Compressible Flow Lecture 12 - Normal Shock Waves - III
Link NOC:Fundamentals of Compressible Flow Lecture 13 - Normal Shock Waves - IV
Link NOC:Fundamentals of Compressible Flow Lecture 14 - Expansion Waves and Oblique Shocks - I
Link NOC:Fundamentals of Compressible Flow Lecture 15 - Expansion Waves and Oblique Shocks - II
Link NOC:Fundamentals of Compressible Flow Lecture 16 - Expansion Waves and Oblique Shocks - III
Link NOC:Fundamentals of Compressible Flow Lecture 17 - Expansion Waves and Oblique Shocks - IV
Link NOC:Fundamentals of Compressible Flow Lecture 18 - Expansion Waves and Oblique Shocks - V
Link NOC:Fundamentals of Compressible Flow Lecture 19 - Expansion Waves and Oblique Shocks - VI
Link NOC:Fundamentals of Compressible Flow Lecture 20 - Supersonic Nozzles and Diffusers - I
Link NOC:Fundamentals of Compressible Flow Lecture 21 - Supersonic Nozzles and Diffusers - II
Link NOC:Fundamentals of Compressible Flow Lecture 22 - Supersonic Nozzles and Diffusers - III
Link NOC:Fundamentals of Compressible Flow Lecture 23 - Measurement Diagnostics and Experimental Facilitates for Compressible Flow - II
Link NOC:Fundamentals of Compressible Flow Lecture 24 - Compressible Flow with Friction and Heat Transfer - II
Link NOC:Fundamentals of Compressible Flow Lecture 25 - Compressible Flow with Friction and Heat Transfer - III
Link NOC:Fundamentals of Compressible Flow Lecture 26 - Measurement Diagnostics and Experimental Facilities for Compressible Flow - I
Link NOC:Fundamentals of Compressible Flow Lecture 27 - Measurement Diagnostics and Experimental Facilities for Compressible Flow - II
Link NOC:Fundamentals of Compressible Flow Lecture 28 - Measurement Diagnostics and Experimental Facilities for Compressible Flow - III
Link NOC:Fundamentals of Compressible Flow Lecture 29 - Measurement Diagnostics and Experimental Facilities for Compressible Flow - IV
Link NOC:Fundamentals of Compressible Flow Lecture 30 - Measurement Diagnostics and Experimental Facilities for Compressible Flow - V
Link NOC:Fundamentals of Compressible Flow Lecture 31 - Measurement Diagnostics and Experimental Facilities for Compressible Flow - VI
Link NOC:Finite Element Method: Variational Methods to Computer Programming Lecture 1 - Functional, First variation, Euler Lagrange equation; Several Dependent variables
Link NOC:Finite Element Method: Variational Methods to Computer Programming Lecture 2 - Functional with higher order derivatives; Variational statement
Link NOC:Finite Element Method: Variational Methods to Computer Programming Lecture 3 - Differential equation, Variational statement and Minimization problem; Rayleigh-Ritz method
Link NOC:Finite Element Method: Variational Methods to Computer Programming Lecture 4 - FEM steps: Explained with discrete linear springs; Gaussian Quadrature rule for integration
Link NOC:Finite Element Method: Variational Methods to Computer Programming Lecture 5 - Solving one Ordinary Differential Equation using Linear Finite Element
Link NOC:Finite Element Method: Variational Methods to Computer Programming Lecture 6 - Solving one Ordinary Differential Equation using Quadratic Finite Element
Link NOC:Finite Element Method: Variational Methods to Computer Programming Lecture 7 - Bar Element: Elemental equation; Matlab Implementation with Example
Link NOC:Finite Element Method: Variational Methods to Computer Programming Lecture 8 - Bar Element: Postprocessing; Comparison with Analytical Solution; Bar with linear springs
Link NOC:Finite Element Method: Variational Methods to Computer Programming Lecture 9 - Truss Element: Elemental equation; Matlab Implementation with Example
Link NOC:Finite Element Method: Variational Methods to Computer Programming Lecture 10 - Beam Element: Variational statement; Hermite shape function
Link NOC:Finite Element Method: Variational Methods to Computer Programming Lecture 11 - Beam Element: Elemental equation; Matlab implementation with Example
Link NOC:Finite Element Method: Variational Methods to Computer Programming Lecture 12 - Beam Element: Matlab implementation for the example with Non-uniform distributed load
Link NOC:Finite Element Method: Variational Methods to Computer Programming Lecture 13 - Frame Element: Derivation of elemental equation in global reference frame
Link NOC:Finite Element Method: Variational Methods to Computer Programming Lecture 14 - Frame Element: Matlab implementation with one Example
Link NOC:Finite Element Method: Variational Methods to Computer Programming Lecture 15 - Generalization of Geometry data; Stiffness matrix, Load vector formation at element level
Link NOC:Finite Element Method: Variational Methods to Computer Programming Lecture 16 - Generalization of Assembly, Imposition of Boundary condition and Load information
Link NOC:Finite Element Method: Variational Methods to Computer Programming Lecture 17 - Indicial Notation: Summation convention, Kronecker delta, Permutation symbol
Link NOC:Finite Element Method: Variational Methods to Computer Programming Lecture 18 - Second order tensor; Gradient, Divergence, Curl and Laplacian in Indicial notation
Link NOC:Finite Element Method: Variational Methods to Computer Programming Lecture 19 - Gauss Divergence theorem and its application in Heat transfer and Structural analysis
Link NOC:Finite Element Method: Variational Methods to Computer Programming Lecture 20 - Derivation of weak form of 2D steady-state heat conduction problem
Link NOC:Finite Element Method: Variational Methods to Computer Programming Lecture 21 - Triangular element, calculating element stiffness and element force vector
Link NOC:Finite Element Method: Variational Methods to Computer Programming Lecture 22 - Numerical example, assembly, mapping
Link NOC:Finite Element Method: Variational Methods to Computer Programming Lecture 23 - Numerical integration, Neumann boundary, and higher order shape functions
Link NOC:Finite Element Method: Variational Methods to Computer Programming Lecture 24 - Quadrilateral element, Lagrange shape functions, Serendipity elements
Link NOC:Finite Element Method: Variational Methods to Computer Programming Lecture 25 - Development of a MATLAB code for solving 2D steady-state heat conduction problem
Link NOC:Finite Element Method: Variational Methods to Computer Programming Lecture 26 - Demonstration of the MATLAB code
Link NOC:Finite Element Method: Variational Methods to Computer Programming Lecture 27 - Elasticity problems in two dimension and obtaining the weak form
Link NOC:Finite Element Method: Variational Methods to Computer Programming Lecture 28 - Deriving element stiffness matrix and element force vector, numerical example
Link NOC:Finite Element Method: Variational Methods to Computer Programming Lecture 29 - Development of a MATLAB code for solving planar elasticity problems
Link NOC:Finite Element Method: Variational Methods to Computer Programming Lecture 30 - Superconvergent Patch Recovery, error estimator, adaptive refinement
Link NOC:Finite Element Method: Variational Methods to Computer Programming Lecture 31 - Solving eigenvalue problem in bar and beam, writing FEM code in MATLAB
Link NOC:Finite Element Method: Variational Methods to Computer Programming Lecture 32 - Solving eigenvalue problem of membrane, writing FEM code in MATLAB
Link NOC:Finite Element Method: Variational Methods to Computer Programming Lecture 33 - Solving transient problems (parabolic type)
Link NOC:Finite Element Method: Variational Methods to Computer Programming Lecture 34 - Solving transient problems (hyperbolic type)
Link NOC:Finite Element Method: Variational Methods to Computer Programming Lecture 35 - Solving elasticity problems in 3D using FEM, Solvers
Link NOC:Computational Continuum Mechanics Lecture 1 - Origin of nonlinearities - 1
Link NOC:Computational Continuum Mechanics Lecture 2 - Origin of nonlinearities - 2
Link NOC:Computational Continuum Mechanics Lecture 3 - Tensor and Tensor Algebra - 1
Link NOC:Computational Continuum Mechanics Lecture 4 - Tensor and Tensor Algebra - 2
Link NOC:Computational Continuum Mechanics Lecture 5 - Tensor and Tensor Algebra - 3
Link NOC:Computational Continuum Mechanics Lecture 6 - Tensor and Tensor Algebra - 4
Link NOC:Computational Continuum Mechanics Lecture 7 - Linearization and directional derivative, Tensor analysis - 1
Link NOC:Computational Continuum Mechanics Lecture 8 - Linearization and directional derivative, Tensor analysis - 2
Link NOC:Computational Continuum Mechanics Lecture 9 - Worked Examples - 1
Link NOC:Computational Continuum Mechanics Lecture 10 - Worked Examples - 2
Link NOC:Computational Continuum Mechanics Lecture 11 - Idea of Motion, Material and Spatial Descriptions, Deformation Gradient Tensor
Link NOC:Computational Continuum Mechanics Lecture 12 - Strain, Polar Decomposition - 1
Link NOC:Computational Continuum Mechanics Lecture 13 - Polar Decomposition - 2, Volume and Area Change
Link NOC:Computational Continuum Mechanics Lecture 14 - Worked Examples, Linearized Kinematics
Link NOC:Computational Continuum Mechanics Lecture 15 - Velocity, Acceleration, Material Time Derivative
Link NOC:Computational Continuum Mechanics Lecture 16 - Velocity Gradient, Rate of Deformation tensor, Area and Volume Rate, Reynolds Transport Theorem
Link NOC:Computational Continuum Mechanics Lecture 17 - Solved Examples
Link NOC:Computational Continuum Mechanics Lecture 18 - Conservation of Mass, Balance of Linear Momentum, Cauchy's Stress Principle - 1
Link NOC:Computational Continuum Mechanics Lecture 19 - Cauchy's Stress Principle - 2, Cauchy Stress Tensor
Link NOC:Computational Continuum Mechanics Lecture 20 - Objectivity, Stress Objectivity, Equilibrium Equations - 1
Link NOC:Computational Continuum Mechanics Lecture 21 - Equilibrium Equations - 2, Principle of Virtual Work
Link NOC:Computational Continuum Mechanics Lecture 22 - Work Conjugacy, First Piola-Kirchhoff Stress Tensor
Link NOC:Computational Continuum Mechanics Lecture 23 - Second Piola-Kirchhoff Stress Tensor, Decomposition of Stress - 1
Link NOC:Computational Continuum Mechanics Lecture 24 - Decomposition of Stress - 2, Objective Stress Measures
Link NOC:Computational Continuum Mechanics Lecture 25 - Solved Examples
Link NOC:Computational Continuum Mechanics Lecture 26 - Constitutive relations and constraints, Hyperelasticity, Material elasticity tensor
Link NOC:Computational Continuum Mechanics Lecture 27 - Spatial Elasticity Tensor, Solved Example
Link NOC:Computational Continuum Mechanics Lecture 28 - Isotropic hyperelasticity - material and spatial description, Hyperelastic models
Link NOC:Computational Continuum Mechanics Lecture 29 - Isotropic Hyperelasticity, Neo-Hookean Material Model, Solved Examples
Link NOC:Computational Continuum Mechanics Lecture 30 - Introduction, Linearization Process Overview
Link NOC:Computational Continuum Mechanics Lecture 31 - Linearization of Internal Virtual Work and External Virtual Work
Link NOC:Computational Continuum Mechanics Lecture 32 - Discretization of Kinematic Quantities, Equilibrium Equations
Link NOC:Computational Continuum Mechanics Lecture 33 - Discretization of Linearized Equilibrium Equations
Link NOC:Computational Continuum Mechanics Lecture 34 - Newton Raphson Method
Link NOC:Computational Continuum Mechanics Lecture 35 - Line Search Method
Link NOC:Computational Continuum Mechanics Lecture 36 - Arc Length Method, Solved Examples
Link NOC:Computational Continuum Mechanics Lecture 37 - FE Formulation of Ductile Fracture in Dynamic Elasto-Plastic Contact Problem - Introduction
Link NOC:Computational Continuum Mechanics Lecture 38 - FE Formulation of Ductile Fracture in Dynamic Elasto-Plastic Contact Problem - Formulation
Link NOC:Computational Continuum Mechanics Lecture 39 - FE Formulation of Ductile Fracture in Dynamic Elasto-Plastic Contact Problem - FEM
Link NOC:Computational Continuum Mechanics Lecture 40 - FE Formulation of Ductile Fracture in Dynamic Elasto-Plastic Contact Problem - Results
Link NOC:Fundamentals of Convective Heat Transfer Lecture 1 - Application of convective heat transfer
Link NOC:Fundamentals of Convective Heat Transfer Lecture 2 - Foundations of heat transfer
Link NOC:Fundamentals of Convective Heat Transfer Lecture 3 - Derivation of energy equation
Link NOC:Fundamentals of Convective Heat Transfer Lecture 4 - Derivation of boundary layer equation
Link NOC:Fundamentals of Convective Heat Transfer Lecture 5 - Derivation of boundary layer energy equation
Link NOC:Fundamentals of Convective Heat Transfer Lecture 6 - Blasius solution: similarity method
Link NOC:Fundamentals of Convective Heat Transfer Lecture 7 - Pohlhausen solution: similarity method
Link NOC:Fundamentals of Convective Heat Transfer Lecture 8 - Pohlhausen solution: heat transfer parameters
Link NOC:Fundamentals of Convective Heat Transfer Lecture 9 - Falkner-Skan equation: Boundary layer flow over a wedge
Link NOC:Fundamentals of Convective Heat Transfer Lecture 10 - Momentum integral equation for flat plate boundary layer
Link NOC:Fundamentals of Convective Heat Transfer Lecture 11 - Laminar BL flow over flat plate: Uniform surface temperature
Link NOC:Fundamentals of Convective Heat Transfer Lecture 12 - Laminar BL flow over flat plate: Uniform surface heat flux
Link NOC:Fundamentals of Convective Heat Transfer Lecture 13 - Solution of example problems
Link NOC:Fundamentals of Convective Heat Transfer Lecture 14 - Hydrodynamic and thermal regions
Link NOC:Fundamentals of Convective Heat Transfer Lecture 15 - Energy balance in channel flow
Link NOC:Fundamentals of Convective Heat Transfer Lecture 16 - Determination of heat transfer coefficient
Link NOC:Fundamentals of Convective Heat Transfer Lecture 17 - Velocity profile in fully-developed channel flows
Link NOC:Fundamentals of Convective Heat Transfer Lecture 18 - Thermally fully developed laminar slug flow with uniform wall heat flux condition
Link NOC:Fundamentals of Convective Heat Transfer Lecture 19 - Hydrodynamically and thermally fully developed flow with uniform wall heat flux condition
Link NOC:Fundamentals of Convective Heat Transfer Lecture 20 - Fully developed flow through parallel plate channel with uniform wall temperature
Link NOC:Fundamentals of Convective Heat Transfer Lecture 21 - Fully developed flow through circular pipe with uniform wall temperature
Link NOC:Fundamentals of Convective Heat Transfer Lecture 22 - Thermally developing flow through circular pipe with uniform wall heat flux
Link NOC:Fundamentals of Convective Heat Transfer Lecture 23 - Thermally developing flow through circular pipe with uniform wall temperature
Link NOC:Fundamentals of Convective Heat Transfer Lecture 24 - Heat transfer in plane Couette flow
Link NOC:Fundamentals of Convective Heat Transfer Lecture 25 - Solutions of example problems
Link NOC:Fundamentals of Convective Heat Transfer Lecture 26 - Introduction and scale analysis
Link NOC:Fundamentals of Convective Heat Transfer Lecture 27 - Natural convection over a vertical plate: Similarity Solution
Link NOC:Fundamentals of Convective Heat Transfer Lecture 28 - Natural convection over a vertical plate: Similarity solution of energy equation
Link NOC:Fundamentals of Convective Heat Transfer Lecture 29 - Natural convection over a vertical plate: Integral solution
Link NOC:Fundamentals of Convective Heat Transfer Lecture 30 - Natural convection over inclined plate and mixed convection
Link NOC:Fundamentals of Convective Heat Transfer Lecture 31 - Natural convection inside enclosures
Link NOC:Fundamentals of Convective Heat Transfer Lecture 32 - Solution of example problems
Link NOC:Fundamentals of Convective Heat Transfer Lecture 33 - Basics of finite difference method
Link NOC:Fundamentals of Convective Heat Transfer Lecture 34 - Solution of Navier-Stokes equations
Link NOC:Fundamentals of Convective Heat Transfer Lecture 35 - Solution of energy equation
Link NOC:Fundamentals of Convective Heat Transfer Lecture 36 - Derivation of Reynolds Averaged Navier-Stokes Equations
Link NOC:Fundamentals of Convective Heat Transfer Lecture 37 - External Turbulent Flow
Link NOC:Fundamentals of Convective Heat Transfer Lecture 38 - Integral solution for turbulent boundary layer flow over a flat plate
Link NOC:Fundamentals of Convective Heat Transfer Lecture 39 - Convection in turbulent pipe flow
Link NOC:Fundamentals of Convective Heat Transfer Lecture 40 - Boiling regimes and boiling curve
Link NOC:Fundamentals of Convective Heat Transfer Lecture 41 - Laminar film condensation on a vertical plate
Link NOC:Fundamentals of Convective Heat Transfer Lecture 42 - Laminar film condensation on horizontal tube
Link NOC:Fundamentals of Convective Heat Transfer Lecture 43 - Solution of example problems
Link NOC:Theory of Composite Shells Lecture 1 - Introduction to composite materials
Link NOC:Theory of Composite Shells Lecture 2 - Basic terminology in Shell
Link NOC:Theory of Composite Shells Lecture 3 - Derivation of fundamental theorem of surfaces
Link NOC:Theory of Composite Shells Lecture 4 - Derivative of unit vectors and various theorems
Link NOC:Theory of Composite Shells Lecture 5 - Classification of shells
Link NOC:Theory of Composite Shells Lecture 6 - Derivation of strain-displacement relation
Link NOC:Theory of Composite Shells Lecture 7 - Derivation of shell governing equations - 1
Link NOC:Theory of Composite Shells Lecture 8 - Derivation of shell governing equations - 2
Link NOC:Theory of Composite Shells Lecture 9 - Derivation of shell governing equations - 3
Link NOC:Theory of Composite Shells Lecture 10 - Derivation of special cases
Link NOC:Theory of Composite Shells Lecture 11 - Derivation of shell constitutive relations
Link NOC:Theory of Composite Shells Lecture 12 - Solved examples on membrane theory and moment shell theory
Link NOC:Theory of Composite Shells Lecture 13 - Shell of revolution problems
Link NOC:Theory of Composite Shells Lecture 14 - Derivation of Navier solution for infinite shell panel
Link NOC:Theory of Composite Shells Lecture 15 - Basics of MATLAB coding
Link NOC:Theory of Composite Shells Lecture 16 - Derivation of Navier solution for finite shell panel
Link NOC:Theory of Composite Shells Lecture 17 - ABAQUS Modelling
Link NOC:Theory of Composite Shells Lecture 18 - Extended Kanatrovich method for shell panel
Link NOC:Theory of Composite Shells Lecture 19 - Free Vibration solution of shell panels under Navier and Levy supports - 1
Link NOC:Theory of Composite Shells Lecture 20 - Free Vibration solution of shell panels under Navier and Levy supports - 2
Link NOC:Theory of Composite Shells Lecture 21 - Basics of Buckling of shells
Link NOC:Theory of Composite Shells Lecture 22 - Buckling of cylindrical shells
Link NOC:Theory of Composite Shells Lecture 23 - Buckling of Levy-type cylindrical shells
Link NOC:Theory of Composite Shells Lecture 24 - 3D Bending
Link NOC:Theory of Composite Shells Lecture 25 - 3D Free vibration
Link NOC:Theory of Composite Shells Lecture 26 - 3D Buckling
Link NOC:Theory of Composite Shells Lecture 27 - Advanced Material
Link NOC:Theory of Composite Shells Lecture 28 - Free vibration of a composite cylindrical shell
Link NOC:Finite Element Modeling of Welding Processes Lecture 1 - Properties, Modelling approaches, Process modelling and Optimization
Link NOC:Finite Element Modeling of Welding Processes Lecture 2 - Fusion welding - 1
Link NOC:Finite Element Modeling of Welding Processes Lecture 3 - Fusion welding - 2
Link NOC:Finite Element Modeling of Welding Processes Lecture 4 - Soldering, Brazing, Solid-state welding processes
Link NOC:Finite Element Modeling of Welding Processes Lecture 5 - Advanced welding processes
Link NOC:Finite Element Modeling of Welding Processes Lecture 6 - Advances in laser microwelding
Link NOC:Finite Element Modeling of Welding Processes Lecture 7 - Additive manufacturing processes
Link NOC:Finite Element Modeling of Welding Processes Lecture 8 - Elastic stress analysis - I
Link NOC:Finite Element Modeling of Welding Processes Lecture 9 - Elastic stress analysis - II and Potential energy method
Link NOC:Finite Element Modeling of Welding Processes Lecture 10 - Three-Dimensional element
Link NOC:Finite Element Modeling of Welding Processes Lecture 11 - Weighted residual method
Link NOC:Finite Element Modeling of Welding Processes Lecture 12 - Material nonlineaity - I
Link NOC:Finite Element Modeling of Welding Processes Lecture 13 - Material nonlineaity - II
Link NOC:Finite Element Modeling of Welding Processes Lecture 14 - Fluid flow and Natural coordinate system - I
Link NOC:Finite Element Modeling of Welding Processes Lecture 15 - Natural coordinate system in 3D and XFEM
Link NOC:Finite Element Modeling of Welding Processes Lecture 16 - Introduction to heat source model
Link NOC:Finite Element Modeling of Welding Processes Lecture 17 - Heat source models in welding - I
Link NOC:Finite Element Modeling of Welding Processes Lecture 18 - Heat source models in welding - II
Link NOC:Finite Element Modeling of Welding Processes Lecture 19 - Heat source model for Keyhole mode and solid state welding
Link NOC:Finite Element Modeling of Welding Processes Lecture 20 - Implementation of FEM in fusion welding processes
Link NOC:Finite Element Modeling of Welding Processes Lecture 21 - Implementation of FEM for fluid flow in fusion welding processes
Link NOC:Finite Element Modeling of Welding Processes Lecture 22 - FEM modeling of EBW and RSW
Link NOC:Finite Element Modeling of Welding Processes Lecture 23 - FEM modeling of FSW and hybrid FSW
Link NOC:Finite Element Modeling of Welding Processes Lecture 24 - Demonstration of thermal model development using commercial software
Link NOC:Finite Element Modeling of Welding Processes Lecture 25 - Fluid flow modeling in welding processes
Link NOC:Finite Element Modeling of Welding Processes Lecture 26 - Heat transfer and fluid flow analysis in quasi-steady state
Link NOC:Finite Element Modeling of Welding Processes Lecture 27 - Prediction of free surface profile
Link NOC:Finite Element Modeling of Welding Processes Lecture 28 - Principle stress, Hydrostatic and Deviatoric Components of Stress
Link NOC:Finite Element Modeling of Welding Processes Lecture 29 - Yield Function, Von Mises Yield Surface and Hardening rule
Link NOC:Finite Element Modeling of Welding Processes Lecture 30 - Material models, Residual stress and distortion
Link NOC:Finite Element Modeling of Welding Processes Lecture 31 - Phase transformation effect on Residual stress and distortion
Link NOC:Finite Element Modeling of Welding Processes Lecture 32 - Demonstration of thermo-mechanical model development using commercial software
Link NOC:Finite Element Modeling of Welding Processes Lecture 33 - Fundamentals of metal transfer in arc welding
Link NOC:Finite Element Modeling of Welding Processes Lecture 34 - FE-based modelling approaches
Link NOC:Finite Element Modeling of Welding Processes Lecture 35 - Theoretical development of heat transfer model
Link NOC:Finite Element Modeling of Welding Processes Lecture 36 - Heating of nano-film
Link NOC:Finite Element Modeling of Welding Processes Lecture 37 - Theoretical development of stress analysis model
Link NOC:Finite Element Modeling of Welding Processes Lecture 38 - Fundamentals of wire arc additive manufacturing processes - I
Link NOC:Finite Element Modeling of Welding Processes Lecture 39 - Fundamentals of wire arc additive manufacturing processes - II
Link NOC:Finite Element Modeling of Welding Processes Lecture 40 - Modelling approaches of additive manufacturing
Link NOC:Nonlinear Vibration Lecture 1 - Introduction to mechanical systems
Link NOC:Nonlinear Vibration Lecture 2 - Superposition rule, Commonly used nonlinear equations
Link NOC:Nonlinear Vibration Lecture 3 - Equilibrium points: potential function
Link NOC:Nonlinear Vibration Lecture 4 - Force and moment based Approach, Lagrange Principle
Link NOC:Nonlinear Vibration Lecture 5 - Extended Hamilton’s principle
Link NOC:Nonlinear Vibration Lecture 6 - Use of scaling and book-keeping parameter for ordering
Link NOC:Nonlinear Vibration Lecture 7 - Numerical solution, Analytical solutions: Harmonic Balance method
Link NOC:Nonlinear Vibration Lecture 8 - Straight forward expansion
Link NOC:Nonlinear Vibration Lecture 9 - Lindstd-Poincare’ method
Link NOC:Nonlinear Vibration Lecture 10 - Method of Averaging
Link NOC:Nonlinear Vibration Lecture 11 - Method of multiple scales
Link NOC:Nonlinear Vibration Lecture 12 - Method of generalized Harmonic Balance method
Link NOC:Nonlinear Vibration Lecture 13 - Free vibration of undamped and damped SDOF systems with quadratic and cubic nonlinearity
Link NOC:Nonlinear Vibration Lecture 14 - Super and sub harmonic resonance conditions
Link NOC:Nonlinear Vibration Lecture 15 - Bifurcation analysis of fixed-point response
Link NOC:Nonlinear Vibration Lecture 16 - Nonlinear system with hard excitations
Link NOC:Nonlinear Vibration Lecture 17 - Super and sub harmonic resonance conditions
Link NOC:Nonlinear Vibration Lecture 18 - Bifurcation analysis of fixed-point response
Link NOC:Nonlinear Vibration Lecture 19 - Floquet theory, Hill's infinite determinant, Resonance in parametrically excited systems
Link NOC:Nonlinear Vibration Lecture 20 - Parametrically excited pneumatic artificial muscle
Link NOC:Nonlinear Vibration Lecture 21 - Parametric instability of sandwich plate
Link NOC:Nonlinear Vibration Lecture 22 - Analysis of periodic, quasi-periodic and chaotic systems
Link NOC:Nonlinear Vibration Lecture 23 - Stability and bifurcation analysis of periodic and quasi-periodic response
Link NOC:Nonlinear Vibration Lecture 24 - Analysis of chaotic system
Link NOC:Nonlinear Vibration Lecture 25 - Numerical methods for finding roots and solutions of ODE
Link NOC:Nonlinear Vibration Lecture 26 - Time response, phase portraits, frequency response
Link NOC:Nonlinear Vibration Lecture 27 - Poincare section, FFT, Lyapunov exponent
Link NOC:Nonlinear Vibration Lecture 28 - Pasive and active vibration absorber with displacement and acceleration feedback
Link NOC:Nonlinear Vibration Lecture 29 - Active vibration absorber with time delay acceleration feedback by HBM
Link NOC:Nonlinear Vibration Lecture 30 - Application of Active vibration absorber with combination feedback
Link NOC:Nonlinear Vibration Lecture 31 - Cantilever beam with tip mass for principal parametric resonance
Link NOC:Nonlinear Vibration Lecture 32 - Cantilever beam with tip mass for combination resonance
Link NOC:Nonlinear Vibration Lecture 33 - Cantilever beam based piezoelectric based energy harvestor
Link NOC:Nonlinear Vibration Lecture 34 - Nonlinear dynamics of turning operation with delay and internal resonance
Link NOC:Nonlinear Vibration Lecture 35 - Chatter in rolling mills and dynamic analysis of artificial pneumatic muscle
Link NOC:Nonlinear Vibration Lecture 36 - Chaotic systems and control of chaos
Link NOC:Evolutionary Computation for Single and Multi Objective Optimization Lecture 1 - Introduction to Optimization
Link NOC:Evolutionary Computation for Single and Multi Objective Optimization Lecture 2 - Introduction to Evolutionary Computation
Link NOC:Evolutionary Computation for Single and Multi Objective Optimization Lecture 3 - Binary-Coded Genetic Algorithm (BGA)
Link NOC:Evolutionary Computation for Single and Multi Objective Optimization Lecture 4 - Operators and Simulations of Binary-Coded Genetic Algorithm
Link NOC:Evolutionary Computation for Single and Multi Objective Optimization Lecture 5 - Real-Coded Genetic Algorithm (RGA)
Link NOC:Evolutionary Computation for Single and Multi Objective Optimization Lecture 6 - Operators and Simulations of Real-Coded Genetic Algorithm
Link NOC:Evolutionary Computation for Single and Multi Objective Optimization Lecture 7 - Algorithmic Implementation of BGA and RGA
Link NOC:Evolutionary Computation for Single and Multi Objective Optimization Lecture 8 - Particle Swarm Optimization (PSO)
Link NOC:Evolutionary Computation for Single and Multi Objective Optimization Lecture 9 - Simulations and Algorithmic Implementation of Particle Swarm Optimization
Link NOC:Evolutionary Computation for Single and Multi Objective Optimization Lecture 10 - Differential Evolution (DE)
Link NOC:Evolutionary Computation for Single and Multi Objective Optimization Lecture 11 - Simulations and Algorithmic Implementation of Differential Evolution
Link NOC:Evolutionary Computation for Single and Multi Objective Optimization Lecture 12 - Constrained Optimization: Introduction and Optimality
Link NOC:Evolutionary Computation for Single and Multi Objective Optimization Lecture 13 - Penalty Function Methods for Evolutionary Computing Techniques
Link NOC:Evolutionary Computation for Single and Multi Objective Optimization Lecture 14 - Evolutionary Computing Techniques: Separation of Objective Function and Constraints
Link NOC:Evolutionary Computation for Single and Multi Objective Optimization Lecture 15 - Simulations of Constraint Handling Techniques - Part 1
Link NOC:Evolutionary Computation for Single and Multi Objective Optimization Lecture 16 - Simulations of Constraint Handling Techniques - Part 2
Link NOC:Evolutionary Computation for Single and Multi Objective Optimization Lecture 17 - Introduction to Multi-Objective Optimization - Part 1
Link NOC:Evolutionary Computation for Single and Multi Objective Optimization Lecture 18 - Introduction to Multi-Objective Optimization - Part 2
Link NOC:Evolutionary Computation for Single and Multi Objective Optimization Lecture 19 - Multi-Objective Optimization: Ranking and Diversity
Link NOC:Evolutionary Computation for Single and Multi Objective Optimization Lecture 20 - Classical Multi-Objective Optimization Methods
Link NOC:Evolutionary Computation for Single and Multi Objective Optimization Lecture 21 - Non-Dominated Genetic Algorithm: NSGA-II: Introduction
Link NOC:Evolutionary Computation for Single and Multi Objective Optimization Lecture 22 - Non-Dominated Genetic Algorithm: NSGA-II: Simulations
Link NOC:Evolutionary Computation for Single and Multi Objective Optimization Lecture 23 - Strength Pareto Evolutionary Algorithm: SPEA2: Introduction
Link NOC:Evolutionary Computation for Single and Multi Objective Optimization Lecture 24 - Strength Pareto Evolutionary Algorithm: SPEA2: Simulations
Link NOC:Evolutionary Computation for Single and Multi Objective Optimization Lecture 25 - Performance Assessment of Multi-Objective EC Techniques
Link NOC:Evolutionary Computation for Single and Multi Objective Optimization Lecture 26 - Closure of EC for Single and Multi-Objective Optimization
Link NOC:Viscous Fluid Flow Lecture 1 - Preliminary concepts
Link NOC:Viscous Fluid Flow Lecture 2 - Fluid Kinematics
Link NOC:Viscous Fluid Flow Lecture 3 - Derivation of incompressible Navier-Stokes equations
Link NOC:Viscous Fluid Flow Lecture 4 - Initial and Boundary Conditions
Link NOC:Viscous Fluid Flow Lecture 5 - Plane Couette Flow
Link NOC:Viscous Fluid Flow Lecture 6 - Plane Poiseuille Flow
Link NOC:Viscous Fluid Flow Lecture 7 - Plane Poiseuille Flow with Slip and Thin Film Flow
Link NOC:Viscous Fluid Flow Lecture 8 - Combined Couette - Poiseuille Flow
Link NOC:Viscous Fluid Flow Lecture 9 - Example Problems
Link NOC:Viscous Fluid Flow Lecture 10 - Hagen - Poiseuille Flow
Link NOC:Viscous Fluid Flow Lecture 11 - Thin Film Flow and Annular Flow
Link NOC:Viscous Fluid Flow Lecture 12 - Steady Flow Between Rotating Cylinders
Link NOC:Viscous Fluid Flow Lecture 13 - Flow near a plate suddenly set in motion
Link NOC:Viscous Fluid Flow Lecture 14 - Flow due to an oscillating plate
Link NOC:Viscous Fluid Flow Lecture 15 - Transient Plane Couette Flow
Link NOC:Viscous Fluid Flow Lecture 16 - Transient Axisymmetric Poiseuille Flow
Link NOC:Viscous Fluid Flow Lecture 17 - Flow Through Rectangular Duct
Link NOC:Viscous Fluid Flow Lecture 18 - Flow Through Equilateral Triangular Duct
Link NOC:Viscous Fluid Flow Lecture 19 - Flow Through Elliptical Duct
Link NOC:Viscous Fluid Flow Lecture 20 - Example Problems
Link NOC:Viscous Fluid Flow Lecture 21 - Creeping Flow Around a Sphere
Link NOC:Viscous Fluid Flow Lecture 22 - Reynolds Equation for Lubrication
Link NOC:Viscous Fluid Flow Lecture 23 - One-dimensional Slider Bearing
Link NOC:Viscous Fluid Flow Lecture 24 - Journal Bearing and Piston-ring Lubrication
Link NOC:Viscous Fluid Flow Lecture 25 - Derivation of Boundary Layer Equations
Link NOC:Viscous Fluid Flow Lecture 26 - Blasius Flow Over A Flat Plate: Similarity Solution
Link NOC:Viscous Fluid Flow Lecture 27 - Momentum Integral Equation For Flat Plate Boundary Layer
Link NOC:Viscous Fluid Flow Lecture 28 - Falkner-Skan equation: Boundary layer flow over a wedge
Link NOC:Viscous Fluid Flow Lecture 29 - Karman-Pohlhausen Method for Non-zero Pressure Gradient Flows
Link NOC:Viscous Fluid Flow Lecture 30 - The Correlation Method by Thwaites
Link NOC:Viscous Fluid Flow Lecture 31 - Separation of Boundary Layer
Link NOC:Viscous Fluid Flow Lecture 32 - Example Problems
Link NOC:Viscous Fluid Flow Lecture 33 - Two-dimensional Laminar Jet
Link NOC:Viscous Fluid Flow Lecture 34 - Flow in the Wake of a Flat Plate
Link NOC:Viscous Fluid Flow Lecture 35 - Free Shear Layer Between Two Different Streams
Link NOC:Viscous Fluid Flow Lecture 36 - Derivation of Orr-Sommerfeld Equation
Link NOC:Viscous Fluid Flow Lecture 37 - Viscous Stability
Link NOC:Viscous Fluid Flow Lecture 38 - Inviscid Analysis
Link NOC:Viscous Fluid Flow Lecture 39 - Introduction to Turbulent Flows
Link NOC:Viscous Fluid Flow Lecture 40 - Derivation of Reynolds Averaged Navier-Stokes Equations
Link NOC:Viscous Fluid Flow Lecture 41 - External Turbulent Flows
Link NOC:Viscous Fluid Flow Lecture 42 - Integral Solution for Turbulent Boundary Layer Flow
Link NOC:Viscous Fluid Flow Lecture 43 - Internal Turbulent Flow
Link NOC:Viscous Fluid Flow Lecture 44 - Turbulence Modelling
Link NOC:Welding Application Technology Lecture 1 - Plasma Arc Welding (PAW)
Link NOC:Welding Application Technology Lecture 2 - Flux Cored Arc Welding (FCAW)
Link NOC:Welding Application Technology Lecture 3 - Thermit Welding
Link NOC:Welding Application Technology Lecture 4 - Resistance Welding - Part 1 (Resistance Spot Welding)
Link NOC:Welding Application Technology Lecture 5 - Resistance Welding - Part 2 (Types of Resistance Welding)
Link NOC:Welding Application Technology Lecture 6 - Friction Welding
Link NOC:Welding Application Technology Lecture 7 - Friction Stir Welding - Part 1
Link NOC:Welding Application Technology Lecture 8 - Friction Stir Welding - Part 2
Link NOC:Welding Application Technology Lecture 9 - Soldering
Link NOC:Welding Application Technology Lecture 10 - Brazing
Link NOC:Welding Application Technology Lecture 11 - Residual Stress - Part 1
Link NOC:Welding Application Technology Lecture 12 - Residual Stress - Part 2
Link NOC:Welding Application Technology Lecture 13 - Influencing Factors and Control of Residual Stresses
Link NOC:Welding Application Technology Lecture 14 - Residual Stress Measurement - 1
Link NOC:Welding Application Technology Lecture 15 - Residual Stress Measurement - 2
Link NOC:Welding Application Technology Lecture 16 - Residual Stress Measurement by NDT
Link NOC:Welding Application Technology Lecture 17 - Welding Induced Distortion
Link NOC:Welding Application Technology Lecture 18 - Welding Induced Distortion (Control and Measurement)
Link NOC:Welding Application Technology Lecture 19 - Welding Induced Distortion (Measurement and Prediction)
Link NOC:Welding Application Technology Lecture 20 - Welded Joint Analysis
Link NOC:Welding Application Technology Lecture 21 - Welded Joints Analysis (Strength of Parallel and Transverse Fillet Welds)
Link NOC:Welding Application Technology Lecture 22 - Welded Joints Analysis (Analysis of Eccentrically Loaded Welded Joint)
Link NOC:Welding Application Technology Lecture 23 - Welded Joints Static Analysis (Analysis of Eccentrically Loaded Welded Joint - Part 1)
Link NOC:Welding Application Technology Lecture 24 - Welded Joints Static Analysis (Analysis of Eccentrically Loaded Welded Joint - Part 2)
Link NOC:Welding Application Technology Lecture 25 - Welded Joints Static Analysis (Welded Joint Subjected to Bending Moment)
Link NOC:Welding Application Technology Lecture 26 - Welded Joints Static Analysis (Welded Joint Subjected to Bending Moment - Part 1)
Link NOC:Welding Application Technology Lecture 27 - Welded Joints Static Analysis (Welded Joint Subjected to Bending Moment - Part 2)
Link NOC:Fundamentals of Additive Manufacturing Technologies Lecture 1 - Introduction to Additive Manufacturing
Link NOC:Fundamentals of Additive Manufacturing Technologies Lecture 2 - CAD Models for Additive Manufacturing
Link NOC:Fundamentals of Additive Manufacturing Technologies Lecture 3 - Manipulation of STL Files
Link NOC:Fundamentals of Additive Manufacturing Technologies Lecture 4 - Slicing Methods - Part A
Link NOC:Fundamentals of Additive Manufacturing Technologies Lecture 5 - Slicing Methods - Part B
Link NOC:Fundamentals of Additive Manufacturing Technologies Lecture 6 - Toolpath Planning
Link NOC:Fundamentals of Additive Manufacturing Technologies Lecture 7 - Demonstration of CAD-CAM Packages
Link NOC:Fundamentals of Additive Manufacturing Technologies Lecture 8 - Introduction to Liquid AM
Link NOC:Fundamentals of Additive Manufacturing Technologies Lecture 9 - Stereolithography Apparatus: Fundamentals of Photopolymerization - Part 1
Link NOC:Fundamentals of Additive Manufacturing Technologies Lecture 10 - Stereolithography Apparatus: Fundamentals of Photopolymerization - Part 2
Link NOC:Fundamentals of Additive Manufacturing Technologies Lecture 11 - Stereolithography Apparatus: Sub-systems - Part 1
Link NOC:Fundamentals of Additive Manufacturing Technologies Lecture 12 - Stereolithography Apparatus: Sub-systems - Part 2
Link NOC:Fundamentals of Additive Manufacturing Technologies Lecture 13 - Other Liquid AM Processes - 1
Link NOC:Fundamentals of Additive Manufacturing Technologies Lecture 14 - Other Liquid AM Processes - 2
Link NOC:Fundamentals of Additive Manufacturing Technologies Lecture 15 - Sheet Additive Manufacturing - Part 1
Link NOC:Fundamentals of Additive Manufacturing Technologies Lecture 16 - Sheet Additive Manufacturing - Part 2
Link NOC:Fundamentals of Additive Manufacturing Technologies Lecture 17 - Wire Additive Manufacturing
Link NOC:Fundamentals of Additive Manufacturing Technologies Lecture 18 - Fused Deposition Modeling
Link NOC:Fundamentals of Additive Manufacturing Technologies Lecture 19 - Metal Wire Additive Manufacturing
Link NOC:Fundamentals of Additive Manufacturing Technologies Lecture 20 - Metal Inert Gas-Wire Arc Additive Manufacturing (MIG-WAAM) - Part 1
Link NOC:Fundamentals of Additive Manufacturing Technologies Lecture 21 - Metal Inert Gas-Wire Arc Additive Manufacturing (MIG-WAAM) - Part 2
Link NOC:Fundamentals of Additive Manufacturing Technologies Lecture 22 - Tungsten Inert Gas/Plasma-Wire Arc Additive Manufacturing (TIG/Plasma-WAAM)
Link NOC:Fundamentals of Additive Manufacturing Technologies Lecture 23 - Electron beam-based Wire Beam Additive Manufacturing (WBAM)
Link NOC:Fundamentals of Additive Manufacturing Technologies Lecture 24 - Laser Metal Wire Additive Manufacturing
Link NOC:Fundamentals of Additive Manufacturing Technologies Lecture 25 - Powder-Feed Additive Manufacturing - Part 1
Link NOC:Fundamentals of Additive Manufacturing Technologies Lecture 26 - Powder-Feed Additive Manufacturing - Part 2
Link NOC:Fundamentals of Additive Manufacturing Technologies Lecture 27 - Process Modeling for Powder Feed Additive Manufacturing - Part 1
Link NOC:Fundamentals of Additive Manufacturing Technologies Lecture 28 - Process Modeling for Powder Feed Additive Manufacturing - Part 2
Link NOC:Fundamentals of Additive Manufacturing Technologies Lecture 29 - Laser Beam based Powder Bed Additive Manufacturing - Part 1
Link NOC:Fundamentals of Additive Manufacturing Technologies Lecture 30 - Laser Beam based Powder Bed Additive Manufacturing - Part 2
Link NOC:Fundamentals of Additive Manufacturing Technologies Lecture 31 - Electron Beam based Powder Bed Additive Manufacturing
Link NOC:Fundamentals of Additive Manufacturing Technologies Lecture 32 - Binder based Powder Bed Additive Manufacturing - Part 1
Link NOC:Fundamentals of Additive Manufacturing Technologies Lecture 33 - Binder based Powder Bed Additive Manufacturing - Part 2
Link NOC:Applied Thermodynamics Lecture 1 - Thermodynamic Systems and Pure Substance
Link NOC:Applied Thermodynamics Lecture 2 - Heat and Work Transfer - First Law of Thermodynamics
Link NOC:Applied Thermodynamics Lecture 3 - Second Law of Thermodynamics
Link NOC:Applied Thermodynamics Lecture 4 - Entropy and Exergy
Link NOC:Applied Thermodynamics Lecture 5 - Introduction to Steam Power Plant
Link NOC:Applied Thermodynamics Lecture 6 - Thermodynamics aspects of Steam Power Plant-Efficiency and Work ration
Link NOC:Applied Thermodynamics Lecture 7 - Rankine Cycle and its analysis
Link NOC:Applied Thermodynamics Lecture 8 - Improvement in Rankine Cycle Efficiency: Superheating and Reheating
Link NOC:Applied Thermodynamics Lecture 9 - Improvement in Rankine Cycle Efficiency: Reheating and Regenerative Methods
Link NOC:Applied Thermodynamics Lecture 10 - Improvement in Rankine Cycle Efficiency: Regenerative Methods
Link NOC:Applied Thermodynamics Lecture 11 - Regenerative Cycles
Link NOC:Applied Thermodynamics Lecture 12 - Impulse Steam Turbine: Velocity Diagrams,Work Transfer,Blade Efficiency
Link NOC:Applied Thermodynamics Lecture 13 - Impulse Steam Turbine: Velocity Diagrams,Work Transfer,Blade Efficiency (Continued...)
Link NOC:Applied Thermodynamics Lecture 14 - Reaction Steam Turbine
Link NOC:Applied Thermodynamics Lecture 15 - Reaction Steam Turbine: Velocity Diagram, Work transfer, Blade Efficiency
Link NOC:Applied Thermodynamics Lecture 16 - Steam Nozzle: Analysis and Efficiency
Link NOC:Applied Thermodynamics Lecture 17 - Steam Nozzle: Analysis and Efficiency (Continued...)
Link NOC:Applied Thermodynamics Lecture 18 - Boilers and Condensers
Link NOC:Applied Thermodynamics Lecture 19 - Condensers and Second Law Analysis of Steam Power cycle
Link NOC:Applied Thermodynamics Lecture 20 - Exergy Analysis of a Steam Turbine
Link NOC:Applied Thermodynamics Lecture 21 - Numerical Problems: Steam Power Cycle
Link NOC:Applied Thermodynamics Lecture 22 - IC engine-Components, Nomenclature and Classifications
Link NOC:Applied Thermodynamics Lecture 23 - Basic Engine Cycle and Engine Kinematic Analysis
Link NOC:Applied Thermodynamics Lecture 24 - Engine Operating Characteristics
Link NOC:Applied Thermodynamics Lecture 25 - Thermodynamics Analysis of Air Standard Cycles
Link NOC:Applied Thermodynamics Lecture 26 - Valve Timing Diagram and Fuel-Air Cycle
Link NOC:Applied Thermodynamics Lecture 27 - Thermochemistry and Fuel Characteristics
Link NOC:Applied Thermodynamics Lecture 28 - Combustion Phenomena in Engines
Link NOC:Applied Thermodynamics Lecture 29 - Heat Transfer Analysis in Engines
Link NOC:Applied Thermodynamics Lecture 30 - Exergy Analysis and Engine Emission/Pollution
Link NOC:Applied Thermodynamics Lecture 31 - Gas Turbine Engine-Components and Thermal Circuit
Link NOC:Applied Thermodynamics Lecture 32 - Gas Turbine Performance Cycle - I
Link NOC:Applied Thermodynamics Lecture 33 - Gas Turbine Performance Cycle - II
Link NOC:Applied Thermodynamics Lecture 34 - Real Gas Turbine Performance Cycle
Link NOC:Applied Thermodynamics Lecture 35 - Aircraft Propulsion Cycle - I
Link NOC:Applied Thermodynamics Lecture 36 - Aircraft Propulsion Cycle - II
Link NOC:Applied Thermodynamics Lecture 37 - Vapour Compression Refrigeration System - I
Link NOC:Applied Thermodynamics Lecture 38 - Vapour Compression Refrigeration System - II
Link NOC:Applied Thermodynamics Lecture 39 - Absorption Refrigeration and Refrigerants
Link NOC:Applied Thermodynamics Lecture 40 - Fundamentals of Psychrometrics
Link NOC:Applied Thermodynamics Lecture 41 - Air-Conditioning Processes
Link NOC:Applied Thermodynamics Lecture 42 - Cooling Tower and Air Washers
Link NOC:Applied Thermodynamics Lecture 43 - Reciprocating Compressor - Analysis and Modelling
Link NOC:Applied Thermodynamics Lecture 44 - Multistage Compression - Analysis and Modelling
Link NOC:Mechanics of Fiber Reinforced Polymer Composite Structures Lecture 1 - Composite Materials - Introduction
Link NOC:Mechanics of Fiber Reinforced Polymer Composite Structures Lecture 2 - Composite Materials - Classification
Link NOC:Mechanics of Fiber Reinforced Polymer Composite Structures Lecture 3 - Anisotropic Elasticity
Link NOC:Mechanics of Fiber Reinforced Polymer Composite Structures Lecture 4 - Orthotropic Materials
Link NOC:Mechanics of Fiber Reinforced Polymer Composite Structures Lecture 5 - Hooke’s Law for 2D Lamina
Link NOC:Mechanics of Fiber Reinforced Polymer Composite Structures Lecture 6 - Engineering Constants for 2D Lamina
Link NOC:Mechanics of Fiber Reinforced Polymer Composite Structures Lecture 7 - Strength Failure Criteria - Part I
Link NOC:Mechanics of Fiber Reinforced Polymer Composite Structures Lecture 8 - Strength Failure Criteria - Part II
Link NOC:Mechanics of Fiber Reinforced Polymer Composite Structures Lecture 9 - Hygrothermal Behavior of Lamina
Link NOC:Mechanics of Fiber Reinforced Polymer Composite Structures Lecture 10 - Introduction and Terminologies
Link NOC:Mechanics of Fiber Reinforced Polymer Composite Structures Lecture 11 - Evaluation of Elastic Moduli
Link NOC:Mechanics of Fiber Reinforced Polymer Composite Structures Lecture 12 - Evaluation of Longitudinal Strength
Link NOC:Mechanics of Fiber Reinforced Polymer Composite Structures Lecture 13 - Evaluation of Transverse and Shear Strengths
Link NOC:Mechanics of Fiber Reinforced Polymer Composite Structures Lecture 14 - Evaluation of Hygrothermal Properties
Link NOC:Mechanics of Fiber Reinforced Polymer Composite Structures Lecture 15 - Elasticity Approach
Link NOC:Mechanics of Fiber Reinforced Polymer Composite Structures Lecture 16 - Experimental Evaluation
Link NOC:Mechanics of Fiber Reinforced Polymer Composite Structures Lecture 17 - Laminate - Introduction
Link NOC:Mechanics of Fiber Reinforced Polymer Composite Structures Lecture 18 - Classical Lamination Theory - Part I
Link NOC:Mechanics of Fiber Reinforced Polymer Composite Structures Lecture 19 - Classical Lamination Theory - Part II
Link NOC:Mechanics of Fiber Reinforced Polymer Composite Structures Lecture 20 - Response of Laminate - Significance of ABBD
Link NOC:Mechanics of Fiber Reinforced Polymer Composite Structures Lecture 21 - Special Classes of Laminates
Link NOC:Mechanics of Fiber Reinforced Polymer Composite Structures Lecture 22 - Engineering Constants of Laminates
Link NOC:Mechanics of Fiber Reinforced Polymer Composite Structures Lecture 23 - Hygrothermal Behaviour of Laminates
Link NOC:Mechanics of Fiber Reinforced Polymer Composite Structures Lecture 24 - Analysis of Laminates
Link NOC:Mechanics of Fiber Reinforced Polymer Composite Structures Lecture 25 - Failure of Laminates
Link NOC:Mechanics of Fiber Reinforced Polymer Composite Structures Lecture 26 - Failure Analysis under Combined Loading
Link NOC:Mechanics of Fiber Reinforced Polymer Composite Structures Lecture 27 - Design Example - I
Link NOC:Mechanics of Fiber Reinforced Polymer Composite Structures Lecture 28 - Design Example - II
Link NOC:Mechanics of Fiber Reinforced Polymer Composite Structures Lecture 29 - Interlaminar Stresses- Delamination
Link NOC:Mechanics of Fiber Reinforced Polymer Composite Structures Lecture 30 - Prediction of Delamination
Link NOC:Mechanics of Fiber Reinforced Polymer Composite Structures Lecture 31 - Transverse Deflection
Link NOC:Mechanics of Fiber Reinforced Polymer Composite Structures Lecture 32 - Buckling and Free Vibration
Link NOC:Laser Based Manufacturing Lecture 1 - Lasers in Manufacturing: Importance and Applications
Link NOC:Laser Based Manufacturing Lecture 2 - Fundamentals of Laser Technology
Link NOC:Laser Based Manufacturing Lecture 3 - Laser System: Construction and Types
Link NOC:Laser Based Manufacturing Lecture 4 - Principle of Operation, Types of Laser Cutting, and Kerf Geometry
Link NOC:Laser Based Manufacturing Lecture 5 - Types of Lasers in Material Removal, Process and Performance Parameters
Link NOC:Laser Based Manufacturing Lecture 6 - A Case-study on Cutting a Circular Part using CO2 Laser Machine
Link NOC:Laser Based Manufacturing Lecture 7 - Mechanisms of Laser Welding - Part I
Link NOC:Laser Based Manufacturing Lecture 8 - Mechanisms of Laser Welding - Part II
Link NOC:Laser Based Manufacturing Lecture 9 - Effects of Process Parameters during Laser Welding and Study of Defects in Weld Beads
Link NOC:Laser Based Manufacturing Lecture 10 - A Case Study on Welding of Mild Steel Sheets using 2.5 kW CO2 Laser Machine
Link NOC:Laser Based Manufacturing Lecture 11 - Material Forming and Fundamentals of Laser Forming
Link NOC:Laser Based Manufacturing Lecture 12 - Mechanisms of Laser Forming
Link NOC:Laser Based Manufacturing Lecture 13 - Process Parameters and their Effects on the Performance of Laser Forming
Link NOC:Laser Based Manufacturing Lecture 14 - Surface Treatment and Application of Lasers
Link NOC:Laser Based Manufacturing Lecture 15 - Laser Surface Hardening
Link NOC:Laser Based Manufacturing Lecture 16 - Laser Surface Alloying
Link NOC:Laser Based Manufacturing Lecture 17 - Laser Cladding
Link NOC:Laser Based Manufacturing Lecture 18 - Additive Manufacturing Techniques
Link NOC:Laser Based Manufacturing Lecture 19 - Laser Scanning Stereolithography
Link NOC:Laser Based Manufacturing Lecture 20 - Selective Laser Sintering and Selective Laser Melting
Link NOC:Laser Based Manufacturing Lecture 21 - Process and Performance Parameters of Laser Based Additive Manufacturing Techniques
Link NOC:Laser Based Manufacturing Lecture 22 - Lasers in Manufacturing Automation
Link NOC:Laser Based Manufacturing Lecture 23 - CNC for Laser Based Manufacturing
Link NOC:Laser Based Manufacturing Lecture 24 - CAD for Laser Based Manufacturing
Link NOC:Laser Based Manufacturing Lecture 25 - Laser-assisted Material Forming
Link NOC:Laser Based Manufacturing Lecture 26 - Effect of Coatings, 3D Laser Forming and Micro-forming
Link NOC:Advanced Thermodynamics and Combustion Lecture 1 - Temperature and Zeroth Law of Thermodynamics
Link NOC:Advanced Thermodynamics and Combustion Lecture 2 - Work and Heat Transfer - First Law of Thermodynamics
Link NOC:Advanced Thermodynamics and Combustion Lecture 3 - Heat Engines and Refrigerators/Heat Pump - Second Law of Thermodynamics
Link NOC:Advanced Thermodynamics and Combustion Lecture 4 - Entropy Analysis - Part I
Link NOC:Advanced Thermodynamics and Combustion Lecture 5 - Entropy Analysis - Part II
Link NOC:Advanced Thermodynamics and Combustion Lecture 6 - Entropy Analysis - Part III
Link NOC:Advanced Thermodynamics and Combustion Lecture 7 - Exergy Analysis - Part I
Link NOC:Advanced Thermodynamics and Combustion Lecture 8 - Exergy Analysis - Part II
Link NOC:Advanced Thermodynamics and Combustion Lecture 9 - Exergy Analysis - Part III
Link NOC:Advanced Thermodynamics and Combustion Lecture 10 - Thermodynamic Functions and Maxwell's Equations
Link NOC:Advanced Thermodynamics and Combustion Lecture 11 - Property Relations for Phase Change Processes
Link NOC:Advanced Thermodynamics and Combustion Lecture 12 - Property Relations for Single Phase Systems
Link NOC:Advanced Thermodynamics and Combustion Lecture 13 - Heat Capacity Equations and its Applications
Link NOC:Advanced Thermodynamics and Combustion Lecture 14 - Joule - Thomson Coefficient and Liquefaction of Gases
Link NOC:Advanced Thermodynamics and Combustion Lecture 15 - Ideal Gas and Real Gas
Link NOC:Advanced Thermodynamics and Combustion Lecture 16 - Gas Mixtures and Multi-Component System
Link NOC:Advanced Thermodynamics and Combustion Lecture 17 - Ideal Gas Mixture
Link NOC:Advanced Thermodynamics and Combustion Lecture 18 - Mixing Analysis of Thermodynamic Systems
Link NOC:Advanced Thermodynamics and Combustion Lecture 19 - Thermodynamic Considerations of Combustion
Link NOC:Advanced Thermodynamics and Combustion Lecture 20 - Conservation of Energy for Reacting Systems
Link NOC:Advanced Thermodynamics and Combustion Lecture 21 - Adiabatic Flame Temperature, Entropy and Gibbs Function for Reacting System
Link NOC:Advanced Thermodynamics and Combustion Lecture 22 - Equilibrium Products of Combustion and Effective Energy Utilization
Link NOC:Advanced Thermodynamics and Combustion Lecture 23 - Fundamentals of Chemical Reactions
Link NOC:Advanced Thermodynamics and Combustion Lecture 24 - Reaction Mechanisms - Part I
Link NOC:Advanced Thermodynamics and Combustion Lecture 25 - Reaction Mechanisms - Part II
Link NOC:Advanced Thermodynamics and Combustion Lecture 26 - Chemical and Thermal Analysis of Reacting Systems
Link NOC:Advanced Thermodynamics and Combustion Lecture 27 - Simplified Conservation Equations for Reacting Flows
Link NOC:Advanced Thermodynamics and Combustion Lecture 28 - Laminar Premixed Flame - Part I
Link NOC:Advanced Thermodynamics and Combustion Lecture 29 - Laminar Premixed Flame - Part II
Link NOC:Advanced Thermodynamics and Combustion Lecture 30 - Laminar Diffusion Flame
Link NOC:Advanced Thermodynamics and Combustion Lecture 31 - Droplet Evaporation and Turbulent Flame
Link NOC:Advanced Thermodynamics and Combustion Lecture 32 - Engine Combustion and Pollution
Link NOC:Thermal Engineering: Basic and Applied Lecture 1 - First law of Thermodynamics for control mass and control volume systems
Link NOC:Thermal Engineering: Basic and Applied Lecture 2 - First law of Thermodynamics for control volume system (Flow system)
Link NOC:Thermal Engineering: Basic and Applied Lecture 3 - Steady State Steady Flow Processes, combination of First and Second Laws
Link NOC:Thermal Engineering: Basic and Applied Lecture 4 - Second Law of Thermodynamics: A Brief Review
Link NOC:Thermal Engineering: Basic and Applied Lecture 5 - Combined First and Second Laws Applied to Processes
Link NOC:Thermal Engineering: Basic and Applied Lecture 6 - Combined First and Second Laws: Flow and Non-Flow Processes
Link NOC:Thermal Engineering: Basic and Applied Lecture 7 - Description of Steam Power Plant: Application of 1st and 2nd Laws to Different Processes
Link NOC:Thermal Engineering: Basic and Applied Lecture 8 - Second Law Applied to Processes of Power Plant and Ideal Cycle of Power Plant
Link NOC:Thermal Engineering: Basic and Applied Lecture 9 - Steam Power Plant: Thermodynamic aspects, Efficiency, Work ratio and Ideal Cycle
Link NOC:Thermal Engineering: Basic and Applied Lecture 10 - Ideal Power Cycle and its Limitations, Introduction to Actual Power Cycle
Link NOC:Thermal Engineering: Basic and Applied Lecture 11 - Limitations of Carnot Cycle, Simple Rankine Cycle and Analysis
Link NOC:Thermal Engineering: Basic and Applied Lecture 12 - Analysis of Simple Rankine Cycle and its Design Modifications
Link NOC:Thermal Engineering: Basic and Applied Lecture 13 - Reheat Cycle and Analysis
Link NOC:Thermal Engineering: Basic and Applied Lecture 14 - Reheat Cycle and Analysis (Continued...)
Link NOC:Thermal Engineering: Basic and Applied Lecture 15 - Regenerative Principle of Steam Power Cycles
Link NOC:Thermal Engineering: Basic and Applied Lecture 16 - Analysis of Regenerative Steam Power Cycles
Link NOC:Thermal Engineering: Basic and Applied Lecture 17 - Regenerative Steam Power Cycle with Closed Feed-Water Heater, Ideal Working Fluid
Link NOC:Thermal Engineering: Basic and Applied Lecture 18 - Multi-fluid Cycle and Analysis
Link NOC:Thermal Engineering: Basic and Applied Lecture 19 - Analysis of Multi-fluid Cycle; Second Law Analysis of Steam Power Cycle
Link NOC:Thermal Engineering: Basic and Applied Lecture 20 - Problems of Steam Power Cycle
Link NOC:Thermal Engineering: Basic and Applied Lecture 21 - Problems of Steam Power Cycle (Continued...)
Link NOC:Thermal Engineering: Basic and Applied Lecture 22 - Types of Boiler, Different Cycles in Boiler Operation, Boiler attachment
Link NOC:Thermal Engineering: Basic and Applied Lecture 23 - Cochran Boiler Operation, Boiler attachment
Link NOC:Thermal Engineering: Basic and Applied Lecture 24 - Boiler Attachments
Link NOC:Thermal Engineering: Basic and Applied Lecture 25 - Superheaters and their Arrangements, Steam Temperature Control
Link NOC:Thermal Engineering: Basic and Applied Lecture 26 - Characteristics of Convective and Radiant Superheaters; Steam Temperature Control
Link NOC:Thermal Engineering: Basic and Applied Lecture 27 - Problems on Boiler/Steam Generator
Link NOC:Thermal Engineering: Basic and Applied Lecture 28 - Use of nozzles in steam power plant, flow analysis of steam in nozzle
Link NOC:Thermal Engineering: Basic and Applied Lecture 29 - Flow analysis of steam in nozzle: Mass flow rate
Link NOC:Thermal Engineering: Basic and Applied Lecture 30 - Mass flow rate of steam in nozzle, Critical Pressure Ratio
Link NOC:Thermal Engineering: Basic and Applied Lecture 31 - Critical Pressure Ratio and its Physical Significance
Link NOC:Thermal Engineering: Basic and Applied Lecture 32 - Nozzle efficiency and factors that affect the efficiency
Link NOC:Thermal Engineering: Basic and Applied Lecture 33 - Factors that affect the efficiency, problem on flow nozzle
Link NOC:Thermal Engineering: Basic and Applied Lecture 34 - Problem on flow nozzle
Link NOC:Thermal Engineering: Basic and Applied Lecture 35 - Steam Turbines: types and analysis using velocity triangles
Link NOC:Thermal Engineering: Basic and Applied Lecture 36 - Analysis of Impulse Steam Turbine
Link NOC:Thermal Engineering: Basic and Applied Lecture 37 - Compounding of Steam Turbine
Link NOC:Thermal Engineering: Basic and Applied Lecture 38 - Analysis of Reaction Steam Turbine
Link NOC:Thermal Engineering: Basic and Applied Lecture 39 - Problems on Steam Turbine
Link NOC:Thermal Engineering: Basic and Applied Lecture 40 - The Role of Condenser in Power Plant
Link NOC:Thermal Engineering: Basic and Applied Lecture 41 - Cooling Tower: Types and Analysis
Link NOC:Thermal Engineering: Basic and Applied Lecture 42 - Cooling Tower Performance
Link NOC:Thermal Engineering: Basic and Applied Lecture 43 - IC Engines, Classification, Different Parts, SI and CI Engines
Link NOC:Thermal Engineering: Basic and Applied Lecture 44 - Comparison of 2-stroke and 4-stroke Engines
Link NOC:Thermal Engineering: Basic and Applied Lecture 45 - Comparison of SI and CI Engines, Compression Ratio
Link NOC:Thermal Engineering: Basic and Applied Lecture 46 - Introduction to Carburettor and Regimes of Engine Operation
Link NOC:Thermal Engineering: Basic and Applied Lecture 47 - Regimes of Engine Operation and Simple Float Type Carburettor
Link NOC:Thermal Engineering: Basic and Applied Lecture 48 - Simple Float Type Carburettor and its Analysis
Link NOC:Thermal Engineering: Basic and Applied Lecture 49 - Mass Flow Rate of Fuel and limitations of Simple Float Type Carburettor
Link NOC:Thermal Engineering: Basic and Applied Lecture 50 - Limitations of Simple Float Type Carburettor, Problem on Carburettion
Link NOC:Thermal Engineering: Basic and Applied Lecture 51 - Engine Operating Characteristics: MEP and Indicator diagram
Link NOC:Thermal Engineering: Basic and Applied Lecture 52 - Performance Analysis parameters of IC Engine
Link NOC:Thermal Engineering: Basic and Applied Lecture 53 - Fuel of IC Engines
Link NOC:Thermal Engineering: Basic and Applied Lecture 54 - Alternative Fuels and Self Ignition Characteristics of Fuel: Octane Numner, Cetane Number
Link NOC:Thermal Engineering: Basic and Applied Lecture 55 - Thermodynamic Analysis of SI Engine
Link NOC:Thermal Engineering: Basic and Applied Lecture 56 - Thermodynamic Analysis of CI Engine
Link NOC:Thermal Engineering: Basic and Applied Lecture 57 - Numerical Problems on Engine Performance
Link NOC:Thermal Engineering: Basic and Applied Lecture 58 - Pressure-Crank angle diagram, Engine Efficiencies
Link NOC:Thermal Engineering: Basic and Applied Lecture 59 - Numerical Problems on SI and CI Engines
Link NOC:Thermal Engineering: Basic and Applied Lecture 60 - Vapour Compression Refrigeration Cycle and its analysis
Link NOC:Thermal Engineering: Basic and Applied Lecture 61 - Problems on Vapour Compression Refrigeration Cycle
Link NOC:Thermal Engineering: Basic and Applied Lecture 62 - Gas Turbine Units and Thermodynamic Cycles
Link NOC:Thermal Engineering: Basic and Applied Lecture 63 - Gas Compressor and Optimum Pressure Ratio
Link NOC:Thermal Engineering: Basic and Applied Lecture 64 - Compressor Efficiency and Multistage Compression with Intercooling
Link NOC:Thermal Engineering: Basic and Applied Lecture 65 - Gas Turbine Unit: Combined Cycle
Link NOC:Thermal Engineering: Basic and Applied Lecture 66 - Problems On Gas Turbine Cycle
Link NOC:Mechanics of Sheet Metal Forming Lecture 1 - Introduction to sheet forming and tensile test of sheets
Link NOC:Mechanics of Sheet Metal Forming Lecture 2 - Tensile test, effect of properties, exercise problem
Link NOC:Mechanics of Sheet Metal Forming Lecture 3 - Sheet deformation processes
Link NOC:Mechanics of Sheet Metal Forming Lecture 4 - Sheet deformation processes (Continued...)
Link NOC:Mechanics of Sheet Metal Forming Lecture 5 - Sheet deformation processes (Continued...)
Link NOC:Mechanics of Sheet Metal Forming Lecture 6 - Sheet deformation in plane stress
Link NOC:Mechanics of Sheet Metal Forming Lecture 7 - Sheet deformation in plane stress (Continued...)
Link NOC:Mechanics of Sheet Metal Forming Lecture 8 - Stamping analyses
Link NOC:Mechanics of Sheet Metal Forming Lecture 9 - Load instability and tearing
Link NOC:Mechanics of Sheet Metal Forming Lecture 10 - Load instability and tearing
Link NOC:Mechanics of Sheet Metal Forming Lecture 11 - Formability testing of sheet metals
Link NOC:Mechanics of Sheet Metal Forming Lecture 12 - Sheet formability
Link NOC:Mechanics of Sheet Metal Forming Lecture 13 - Sheet formability (Continued...)
Link NOC:Mechanics of Sheet Metal Forming Lecture 14 - Bending of sheets
Link NOC:Mechanics of Sheet Metal Forming Lecture 15 - Bending of sheets (Continued...)
Link NOC:Mechanics of Sheet Metal Forming Lecture 16 - Cup deep drawing
Link NOC:Mechanics of Sheet Metal Forming Lecture 17 - Deep drawing, redrawing, ironing of cup
Link NOC:Mechanics of Sheet Metal Forming Lecture 18 - Stretching of sheet
Link NOC:Mechanics of Sheet Metal Forming Lecture 19 - Hydroforming
Link NOC:Mechanics of Sheet Metal Forming Lecture 20 - Yield functions with sheet anisotropy
Link NOC:Mechanics of Sheet Metal Forming Lecture 21 - Demonstration of sheet forming experiments
Link NOC:Power Plant System Engineering Lecture 1 - Thermodynamics Concepts - Part I
Link NOC:Power Plant System Engineering Lecture 2 - Thermodynamics Concepts - Part II
Link NOC:Power Plant System Engineering Lecture 3 - Thermodynamic Analysis of Vapor Power Cycle
Link NOC:Power Plant System Engineering Lecture 4 - Rankine Cycle
Link NOC:Power Plant System Engineering Lecture 5 - Modified Rankine Cycle
Link NOC:Power Plant System Engineering Lecture 6 - Exergy Analysis of Vapor Power Cycles
Link NOC:Power Plant System Engineering Lecture 7 - Rotodynambic Machines
Link NOC:Power Plant System Engineering Lecture 8 - Impulse Turbine
Link NOC:Power Plant System Engineering Lecture 9 - Reaction Turbine
Link NOC:Power Plant System Engineering Lecture 10 - Performance Analysis of Steam Turbines
Link NOC:Power Plant System Engineering Lecture 11 - Steam Nozzles - Part I
Link NOC:Power Plant System Engineering Lecture 12 - Steam Nozzles - Part II
Link NOC:Power Plant System Engineering Lecture 13 - Steam Generator
Link NOC:Power Plant System Engineering Lecture 14 - Water Tube Boiler - Part I
Link NOC:Power Plant System Engineering Lecture 15 - Water Tube Boiler - Part II
Link NOC:Power Plant System Engineering Lecture 16 - Fuels and Combustion - Part I
Link NOC:Power Plant System Engineering Lecture 17 - Fuels and Combustion - Part II
Link NOC:Power Plant System Engineering Lecture 18 - Steam Condenser
Link NOC:Power Plant System Engineering Lecture 19 - Feed Water Heaters
Link NOC:Power Plant System Engineering Lecture 20 - Cooling Towers
Link NOC:Power Plant System Engineering Lecture 21 - Fundamentals of Gas turbine systems
Link NOC:Power Plant System Engineering Lecture 22 - Modifications of Brayton cycle
Link NOC:Power Plant System Engineering Lecture 23 - Combined Power cycle
Link NOC:Power Plant System Engineering Lecture 24 - Gas Turbines for Aircraft Propulsion
Link NOC:Power Plant System Engineering Lecture 25 - Hydro-Power System - Part I
Link NOC:Power Plant System Engineering Lecture 26 - Hydro-Power System - Part II
Link NOC:Power Plant System Engineering Lecture 27 - Wind Energy - Part I
Link NOC:Power Plant System Engineering Lecture 28 - Wind Energy - Part II
Link NOC:Power Plant System Engineering Lecture 29 - Energy From Oceans - Part I
Link NOC:Power Plant System Engineering Lecture 30 - Energy From Oceans - Part II
Link NOC:Power Plant System Engineering Lecture 31 - Geothermal Energy
Link NOC:Power Plant System Engineering Lecture 32 - Energy Storage - I
Link NOC:Power Plant System Engineering Lecture 33 - Energy Storage - II
Link NOC:Power Plant System Engineering Lecture 34 - Energy Storage - III
Link NOC:Introduction to Solidification Processing Lecture 1 - Introduction to phase diagrams
Link NOC:Introduction to Solidification Processing Lecture 2 - Thermodynamic relations
Link NOC:Introduction to Solidification Processing Lecture 3 - Single component system and binary solutions
Link NOC:Introduction to Solidification Processing Lecture 4 - Regular solutions
Link NOC:Introduction to Solidification Processing Lecture 5 - Real solutions
Link NOC:Introduction to Solidification Processing Lecture 6 - Phase transformations
Link NOC:Introduction to Solidification Processing Lecture 7 - Practice problems (Module 1)
Link NOC:Introduction to Solidification Processing Lecture 8 - Introduction to homogenous nucleation process
Link NOC:Introduction to Solidification Processing Lecture 9 - Fundamental to heterogeneous nucleation
Link NOC:Introduction to Solidification Processing Lecture 10 - Growth of pure metal
Link NOC:Introduction to Solidification Processing Lecture 11 - Alloy solidification
Link NOC:Introduction to Solidification Processing Lecture 12 - Formation of different S/L interface
Link NOC:Introduction to Solidification Processing Lecture 13 - Solidifcation structures and segregation
Link NOC:Introduction to Solidification Processing Lecture 14 - Weld Metal Solidification and Microstructure - I
Link NOC:Introduction to Solidification Processing Lecture 15 - Weld Metal Solidification and Microstructure - II
Link NOC:Introduction to Solidification Processing Lecture 16 - Solidification of additive manufacturing - I
Link NOC:Introduction to Solidification Processing Lecture 17 - Solidification of additive manufacturing - II
Link NOC:Introduction to Solidification Processing Lecture 18 - Rate of solidification-sand casting
Link NOC:Introduction to Solidification Processing Lecture 19 - Rate of solidification-die casting
Link NOC:Introduction to Solidification Processing Lecture 20 - Riser design and solidification of pure metal
Link NOC:Introduction to Solidification Processing Lecture 21 - Zone melting and rapid solidification
Link NOC:Introduction to Solidification Processing Lecture 22 - Semisolid processing and other solidification techniques
Link NOC:Introduction to Solidification Processing Lecture 23 - Demonstration of the solidification process and numerical problems
Link NOC:Materials Processing (Casting, Forming and Welding) Lecture 1 - Materials and microcture evolutions - 1
Link NOC:Materials Processing (Casting, Forming and Welding) Lecture 2 - Materials and microcture evolutions - 2
Link NOC:Materials Processing (Casting, Forming and Welding) Lecture 3 - Materials and microcture evolutions - 3
Link NOC:Materials Processing (Casting, Forming and Welding) Lecture 4 - Basics of heat conduction - 1
Link NOC:Materials Processing (Casting, Forming and Welding) Lecture 5 - Basics of heat conduction - 2
Link NOC:Materials Processing (Casting, Forming and Welding) Lecture 6 - Basics of heat conduction - 3
Link NOC:Materials Processing (Casting, Forming and Welding) Lecture 7 - Basics of heat conduction - 4
Link NOC:Materials Processing (Casting, Forming and Welding) Lecture 8 - Basics of fluid flow - 1
Link NOC:Materials Processing (Casting, Forming and Welding) Lecture 9 - Basics of fluid flow - 2
Link NOC:Materials Processing (Casting, Forming and Welding) Lecture 10 - Solidification processing - 1
Link NOC:Materials Processing (Casting, Forming and Welding) Lecture 11 - Solidification processing - 2
Link NOC:Materials Processing (Casting, Forming and Welding) Lecture 12 - Casting and welding - 1
Link NOC:Materials Processing (Casting, Forming and Welding) Lecture 13 - Casting and welding - 2
Link NOC:Materials Processing (Casting, Forming and Welding) Lecture 14 - Casting and welding - 3
Link NOC:Materials Processing (Casting, Forming and Welding) Lecture 15 - Casting and welding - 4
Link NOC:Materials Processing (Casting, Forming and Welding) Lecture 16 - Material forming
Link NOC:Materials Processing (Casting, Forming and Welding) Lecture 17 - Material forming: Numerical problem
Link NOC:Materials Processing (Casting, Forming and Welding) Lecture 18 - Processing of metal: Casting Process - I
Link NOC:Materials Processing (Casting, Forming and Welding) Lecture 19 - Processing of metal: Casting Process - II
Link NOC:Materials Processing (Casting, Forming and Welding) Lecture 20 - Processing of polymer: Thermoplastic and thermosets
Link NOC:Materials Processing (Casting, Forming and Welding) Lecture 21 - Processing of polymer: Extrusion
Link NOC:Materials Processing (Casting, Forming and Welding) Lecture 22 - Processing of polymer: Injection molding
Link NOC:Materials Processing (Casting, Forming and Welding) Lecture 23 - Processing of polymer: Blow molding
Link NOC:Materials Processing (Casting, Forming and Welding) Lecture 24 - Processing of polymer: Thermosets
Link NOC:Materials Processing (Casting, Forming and Welding) Lecture 25 - Processing of ceramics - I
Link NOC:Materials Processing (Casting, Forming and Welding) Lecture 26 - Processing of ceramics - II
Link NOC:Materials Processing (Casting, Forming and Welding) Lecture 27 - Processing of galss and fused depostion modeling
Link NOC:Materials Processing (Casting, Forming and Welding) Lecture 28 - Arc wellding processes
Link NOC:Materials Processing (Casting, Forming and Welding) Lecture 29 - Welding of polymers
Link NOC:Materials Processing (Casting, Forming and Welding) Lecture 30 - Laser and electron beam welding processes
Link NOC:Materials Processing (Casting, Forming and Welding) Lecture 31 - Advanced welding processes
Link NOC:Materials Processing (Casting, Forming and Welding) Lecture 32 - Welding solidification
Link NOC:Materials Processing (Casting, Forming and Welding) Lecture 33 - Metallic wire additive manufacturing
Link NOC:Materials Processing (Casting, Forming and Welding) Lecture 34 - Mechanical responses of metals and polymers
Link NOC:Materials Processing (Casting, Forming and Welding) Lecture 35 - Hot working and cold working
Link NOC:Materials Processing (Casting, Forming and Welding) Lecture 36 - Types of metal forming processes - I
Link NOC:Materials Processing (Casting, Forming and Welding) Lecture 37 - Types of metal forming processes - II
Link NOC:Materials Processing (Casting, Forming and Welding) Lecture 38 - Types of metal forming processes - III and Hot rolling of steel
Link NOC:Materials Processing (Casting, Forming and Welding) Lecture 39 - Solid state deformation - 1
Link NOC:Materials Processing (Casting, Forming and Welding) Lecture 40 - Solid state deformation - 2
Link NOC:Materials Processing (Casting, Forming and Welding) Lecture 41 - Powder processing - 1
Link NOC:Materials Processing (Casting, Forming and Welding) Lecture 42 - Powder processing - 2
Link NOC:Materials Processing (Casting, Forming and Welding) Lecture 43 - Powder processing - 3
Link NOC:Materials Processing (Casting, Forming and Welding) Lecture 44 - Ceramic processing: Dry pressing and plastic forming methods
Link NOC:Materials Processing (Casting, Forming and Welding) Lecture 45 - Ceramic processing: Colloidal processing, casting, and coating techniques
Link NOC:Materials Processing (Casting, Forming and Welding) Lecture 46 - Introduction to steel making and single crystal production
Link NOC:Materials Processing (Casting, Forming and Welding) Lecture 47 - Integrated Analysis of Steel Solidification, Fluid Flow, and Prodder Processing Technologies
Link NOC:Materials Processing (Casting, Forming and Welding) Lecture 48 - Processing of electronics Materials, A case Study: semiconductor measurements
Link NOC:Materials Processing (Casting, Forming and Welding) Lecture 49 - Processing of magnetic materials and Processing of magnetic materials for advanced materials
Link NOC:Materials Processing (Casting, Forming and Welding) Lecture 50 - Processing of optics materials and pertaining case study
Link Acoustics Lecture 1 - Intro, sound wave versus vibration, different types of waves, octave, music scales, sense of SPL
Link Acoustics Lecture 2 - Review: Linearity, complex numbers, and spring mass system
Link Acoustics Lecture 3 - Review: Poles and zeroes, phase and magnitude plots, transfer functions, Bode plots
Link Acoustics Lecture 4 - Review: Transfer functions, and Bode plots
Link Acoustics Lecture 5 - 1-D wave equation, and its solution
Link Acoustics Lecture 6 - Solution for 1-D wave equation
Link Acoustics Lecture 7 - Waveguides, transmission line equations, and standing waves
Link Acoustics Lecture 8 - Waveguides, transmission line equations, and standing waves
Link Acoustics Lecture 9 - Examples of 1-D waves in tubes, short tubes, Kundt's tube
Link Acoustics Lecture 10 - Thermodynamic processes during sound transmission
Link Acoustics Lecture 11 - Numerical examples
Link Acoustics Lecture 12 - Sound transmission through walls
Link Acoustics Lecture 13 - Sound transmission through walls
Link Acoustics Lecture 14 - Leakage in walls, STC Ratings, Octave bands
Link Acoustics Lecture 15 - Instantaneous power flow
Link Acoustics Lecture 16 - Radial propagation of sound, monopoles, and dipoles
Link Acoustics Lecture 17 - Radial propagation of sound, monopoles, and dipoles
Link Acoustics Lecture 18 - Radial propagation of sound, monopoles, and dipoles
Link Acoustics Lecture 19 - Numerical examples
Link Acoustics Lecture 20 - Numerical examples
Link Acoustics Lecture 21 - Directivity
Link Acoustics Lecture 22 - Directivity
Link Acoustics Lecture 23 - Directivity
Link Acoustics Lecture 24 - Directivity
Link Acoustics Lecture 25 - Generalized elements
Link Acoustics Lecture 26 - Examples of electromechanical systems
Link Acoustics Lecture 27 - Transformers, radiation impedance, and Helmholtz resonator
Link Acoustics Lecture 28 - Radiation impedance
Link Acoustics Lecture 29 - Radiation impedance
Link Acoustics Lecture 30 - Models of electro-mechanical-acoustic systems
Link Acoustics Lecture 31 - Solution for a loudspeaker model
Link Acoustics Lecture 32 - Microphones
Link Acoustics Lecture 33 - Vibro-meter, seismometer, accelerometer, shaker table
Link Acoustics Lecture 34 - Sound propagation in rooms, 1-D rooms, 2D rooms
Link Acoustics Lecture 35 - Sound in 3-D rooms
Link Acoustics Lecture 36 - Absorption coefficient, and irregular rooms
Link Acoustics Lecture 37 - Room constant, and Sabine's coefficient
Link Acoustics Lecture 38 - Design of a muffler
Link Acoustics Lecture 39 - Noise in machines, basics of noise management
Link Advanced Machining Processes Lecture 1 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 2 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 3 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 4 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 5 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 6 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 7 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 8 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 9 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 10 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 11 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 12 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 13 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 14 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 15 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 16 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 17 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 18 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 19 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 20 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 21 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 22 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 23 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 24 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 25 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 26 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 27 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 28 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 29 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 30 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 31 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 32 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 33 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 34 - Advanced Machining Processes
Link Biomicroelectromechanical systems Lecture 1
Link Biomicroelectromechanical systems Lecture 2
Link Biomicroelectromechanical systems Lecture 3
Link Biomicroelectromechanical systems Lecture 4
Link Biomicroelectromechanical systems Lecture 5
Link Biomicroelectromechanical systems Lecture 6
Link Biomicroelectromechanical systems Lecture 7
Link Biomicroelectromechanical systems Lecture 8
Link Biomicroelectromechanical systems Lecture 9
Link Biomicroelectromechanical systems Lecture 10 (same as 9)
Link Biomicroelectromechanical systems Lecture 11
Link Biomicroelectromechanical systems Lecture 12
Link Biomicroelectromechanical systems Lecture 13
Link Biomicroelectromechanical systems Lecture 14
Link Biomicroelectromechanical systems Lecture 15
Link Biomicroelectromechanical systems Lecture 16
Link Biomicroelectromechanical systems Lecture 17
Link Biomicroelectromechanical systems Lecture 18
Link Biomicroelectromechanical systems Lecture 19
Link Biomicroelectromechanical systems Lecture 20
Link Biomicroelectromechanical systems Lecture 21
Link Biomicroelectromechanical systems Lecture 22
Link Biomicroelectromechanical systems Lecture 23
Link Biomicroelectromechanical systems Lecture 24
Link Biomicroelectromechanical systems Lecture 25
Link Biomicroelectromechanical systems Lecture 26
Link Biomicroelectromechanical systems Lecture 27
Link Biomicroelectromechanical systems Lecture 28
Link Biomicroelectromechanical systems Lecture 29
Link Biomicroelectromechanical systems Lecture 30
Link Biomicroelectromechanical systems Lecture 31
Link Biomicroelectromechanical systems Lecture 32
Link Biomicroelectromechanical systems Lecture 33
Link Biomicroelectromechanical systems Lecture 34
Link Biomicroelectromechanical systems Lecture 35
Link Biomicroelectromechanical systems Lecture 36
Link Biomicroelectromechanical systems Lecture 37
Link Biomicroelectromechanical systems Lecture 38
Link Biomicroelectromechanical systems Lecture 39
Link Biomicroelectromechanical systems Lecture 40
Link Computer Aided Engineering Design Lecture 1
Link Computer Aided Engineering Design Lecture 2
Link Computer Aided Engineering Design Lecture 3
Link Computer Aided Engineering Design Lecture 4
Link Computer Aided Engineering Design Lecture 5
Link Computer Aided Engineering Design Lecture 6
Link Computer Aided Engineering Design Lecture 7
Link Computer Aided Engineering Design Lecture 8
Link Computer Aided Engineering Design Lecture 9
Link Computer Aided Engineering Design Lecture 10
Link Computer Aided Engineering Design Lecture 11
Link Computer Aided Engineering Design Lecture 12
Link Computer Aided Engineering Design Lecture 13
Link Computer Aided Engineering Design Lecture 14
Link Computer Aided Engineering Design Lecture 15
Link Computer Aided Engineering Design Lecture 16
Link Computer Aided Engineering Design Lecture 17
Link Computer Aided Engineering Design Lecture 18
Link Computer Aided Engineering Design Lecture 19
Link Computer Aided Engineering Design Lecture 20
Link Computer Aided Engineering Design Lecture 21
Link Computer Aided Engineering Design Lecture 22
Link Computer Aided Engineering Design Lecture 23
Link Computer Aided Engineering Design Lecture 24
Link Computer Aided Engineering Design Lecture 25
Link Computer Aided Engineering Design Lecture 26
Link Computer Aided Engineering Design Lecture 27
Link Computer Aided Engineering Design Lecture 28
Link Computer Aided Engineering Design Lecture 29
Link Computer Aided Engineering Design Lecture 30
Link Computer Aided Engineering Design Lecture 31
Link Computer Aided Engineering Design Lecture 32
Link Computer Aided Engineering Design Lecture 33
Link Computer Aided Engineering Design Lecture 34
Link Computer Aided Engineering Design Lecture 35
Link Computer Aided Engineering Design Lecture 36
Link Computer Aided Engineering Design Lecture 37
Link Computer Aided Engineering Design Lecture 38
Link Computer Aided Engineering Design Lecture 39
Link Computer Aided Engineering Design Lecture 40
Link Mathematical Methods in Engineering and Science Lecture 1 - Introduction
Link Mathematical Methods in Engineering and Science Lecture 2 - Basic Ideas of Applied Linear Algebra
Link Mathematical Methods in Engineering and Science Lecture 3 - Systems of Linear Equations
Link Mathematical Methods in Engineering and Science Lecture 4 - Square Non-Singular Systems
Link Mathematical Methods in Engineering and Science Lecture 5 - Ill-Conditioned and Ill-Posed Systems
Link Mathematical Methods in Engineering and Science Lecture 6 - The Algebraic Eigenvalue Problem
Link Mathematical Methods in Engineering and Science Lecture 7 - Canonical Forms, Symmetric Matrices
Link Mathematical Methods in Engineering and Science Lecture 8 - Methods of Plane Rotations
Link Mathematical Methods in Engineering and Science Lecture 9 - Householder Method, Tridiagonal Matrices
Link Mathematical Methods in Engineering and Science Lecture 10 - QR Decomposition, General Matrices
Link Mathematical Methods in Engineering and Science Lecture 11 - Singular Value Decomposition
Link Mathematical Methods in Engineering and Science Lecture 12 - Vector Space: Concepts
Link Mathematical Methods in Engineering and Science Lecture 13 - Multivariate Calculus
Link Mathematical Methods in Engineering and Science Lecture 14 - Vector Calculus in Geometry
Link Mathematical Methods in Engineering and Science Lecture 15 - Vector Calculus in Physics
Link Mathematical Methods in Engineering and Science Lecture 16 - Solution of Equations
Link Mathematical Methods in Engineering and Science Lecture 17 - Introdcution to Optimization
Link Mathematical Methods in Engineering and Science Lecture 18 - Multivariate Optimization
Link Mathematical Methods in Engineering and Science Lecture 19 - Constrained Optimization: Optimality Criteria
Link Mathematical Methods in Engineering and Science Lecture 20 - Constrained Optimization: Further Issues
Link Mathematical Methods in Engineering and Science Lecture 21 - Interpolation
Link Mathematical Methods in Engineering and Science Lecture 22 - Numerical Integration
Link Mathematical Methods in Engineering and Science Lecture 23 - Numerical Solution of ODE's as IVP
Link Mathematical Methods in Engineering and Science Lecture 24 - Boundary Value Problems, Question of Stability in IVP Solution
Link Mathematical Methods in Engineering and Science Lecture 25 - Stiff Differential Equations, Existence and Uniqueness Theory
Link Mathematical Methods in Engineering and Science Lecture 26 - Theory of First Order ODE's
Link Mathematical Methods in Engineering and Science Lecture 27 - Linear Second Order ODE's
Link Mathematical Methods in Engineering and Science Lecture 28 - Methods of Linear ODE's
Link Mathematical Methods in Engineering and Science Lecture 29 - ODE Systems
Link Mathematical Methods in Engineering and Science Lecture 30 - Stability of Dynamic Systems
Link Mathematical Methods in Engineering and Science Lecture 31 - Series Solutions and Special Functions
Link Mathematical Methods in Engineering and Science Lecture 32 - Sturm-Liouville Theory
Link Mathematical Methods in Engineering and Science Lecture 33 - Approximation Theory and Fourier Series
Link Mathematical Methods in Engineering and Science Lecture 34 - Fourier Integral to Fourier Transform, Minimax Approximation
Link Mathematical Methods in Engineering and Science Lecture 35 - Separation of Variables in PDE's, Hyperbolic Equations
Link Mathematical Methods in Engineering and Science Lecture 36 - Parabolic and Elliptic Equations, Membrane Equation
Link Mathematical Methods in Engineering and Science Lecture 37 - Analytic Functions
Link Mathematical Methods in Engineering and Science Lecture 38 - Integration of Complex Functions
Link Mathematical Methods in Engineering and Science Lecture 39 - Singularities and Residues
Link Mathematical Methods in Engineering and Science Lecture 40 - Calculus of Variations
Link Dynamics of Machines Lecture 1 - Rigid Body Motion - Part 1
Link Dynamics of Machines Lecture 2 - Rigid Body Motion - Part 2
Link Dynamics of Machines Lecture 3 - Dynamic Force Analysis of Mechanisms
Link Dynamics of Machines Lecture 4 - Space Motion of Rigid Bodies
Link Dynamics of Machines Lecture 5 - Inertia Tensor Angular Momentum
Link Dynamics of Machines Lecture 6 - Euler's Equation of Motion
Link Dynamics of Machines Lecture 7 - Gyroscopic Action in Machines
Link Dynamics of Machines Lecture 8 - Unbalance in Machines
Link Dynamics of Machines Lecture 9 - Rotary Balancing
Link Dynamics of Machines Lecture 10 - Balancing Machines
Link Dynamics of Machines Lecture 11 - Field Balancing of Rotors
Link Dynamics of Machines Lecture 12 - Single-Cylinder Engine Balancing
Link Dynamics of Machines Lecture 13 - Balancing of Single Slider Machines
Link Dynamics of Machines Lecture 14 - In-Line Engine Balancing
Link Dynamics of Machines Lecture 15 - V and Radial Engine Balancing
Link Dynamics of Machines Lecture 16 - Turning Moment Diagram
Link Dynamics of Machines Lecture 17 - Flywheel Analysis
Link Dynamics of Machines Lecture 18 - Dynamics of Machines
Link Dynamics of Machines Lecture 19 - Dynamics of Machines
Link Dynamics of Machines Lecture 20 - Dynamics of Machines
Link Dynamics of Machines Lecture 21 - Dynamics of Machines
Link Dynamics of Machines Lecture 22 - Dynamics of Machines
Link Dynamics of Machines Lecture 23 - Dynamics of Machines
Link Dynamics of Machines Lecture 24 - Dynamics of Machines
Link Dynamics of Machines Lecture 25 - Dynamics of Machines
Link Dynamics of Machines Lecture 26 - Dynamics of Machines
Link Dynamics of Machines Lecture 27 - Dynamics of Machines
Link Dynamics of Machines Lecture 28 - Dynamics of Machines
Link Dynamics of Machines Lecture 29 - Rotating Vector Approach
Link Dynamics of Machines Lecture 30 - Equivalent viscous damping
Link Dynamics of Machines Lecture 31 - Dynamics of Machines
Link Dynamics of Machines Lecture 32 - Systems with two degree of freedom
Link Dynamics of Machines Lecture 33 - Tuned Vibration Absorber
Link Dynamics of Machines Lecture 34 - Design of Vibration Absorbers
Link Dynamics of Machines Lecture 35 - Flexibility Matrix Influence Coeff
Link Dynamics of Machines Lecture 36 - Forced Vibration of multiple
Link Dynamics of Machines Lecture 37 - Forced Vibration of Multiple degrees
Link Dynamics of Machines Lecture 38 - Vibration of Continuous Systems
Link Dynamics of Machines Lecture 39 - Vibration of Continuous Systems
Link Dynamics of Machines Lecture 40 - Vibration of Beams
Link Dynamics of Machines Lecture 41 - Rayleigh's method
Link Dynamics of Machines Lecture 42 - Rayleigh-Ritz Method
Link Dynamics of Machines Lecture 43 - Vibration Measurement
Link Dynamics of Machines Lecture 44 - Vibration Measurement Types of Pickups
Link Finite Element Method Module 1 - Lecture 1
Link Finite Element Method Module 1 - Lecture 2
Link Finite Element Method Module 1 - Lecture 3
Link Finite Element Method Module 2 - Lecture 1
Link Finite Element Method Module 2 - Lecture 2
Link Finite Element Method Module 2 - Lecture 3
Link Finite Element Method Module 2 - Lecture 4
Link Finite Element Method Module 3 - Lecture 1
Link Finite Element Method Module 3 - Lecture 2
Link Finite Element Method Module 3 - Lecture 3
Link Finite Element Method Module 4 - Lecture 1
Link Finite Element Method Module 4 - Lecture 2
Link Finite Element Method Module 4 - Lecture 3
Link Finite Element Method Module 5 - Lecture 1
Link Finite Element Method Module 5 - Lecture 2
Link Finite Element Method Module 5 - Lecture 3
Link Finite Element Method Module 6 - Lecture 1
Link Finite Element Method Module 6 - Lecture 2
Link Finite Element Method Module 6 - Lecture 3
Link Finite Element Method Module 7 - Lecture 1
Link Finite Element Method Module 7 - Lecture 2
Link Finite Element Method Module 7 - Lecture 3
Link Finite Element Method Module 7 - Lecture 4
Link Finite Element Method Module 8 - Lecture 1
Link Finite Element Method Module 8 - Lecture 2
Link Finite Element Method Module 8 - Lecture 3
Link Finite Element Method Module 9 - Lecture 1
Link Finite Element Method Module 9 - Lecture 2
Link Finite Element Method Module 9 - Lecture 3
Link Finite Element Method Module 10 - Lecture 1
Link Finite Element Method Module 10 - Lecture 2
Link Finite Element Method Module 11 - Lecture 1
Link Finite Element Method Module 11 - Lecture 2
Link Finite Element Method Module 12 - Lecture 1
Link Finite Element Method Module 13 - Lecture 1
Link Finite Element Method Module 13 - Lecture 2
Link Finite Element Method Module 14 - Lecture 1
Link Finite Element Method Module 14 - Lecture 2
Link Kinematics of Machines Module 1 - Lecture 1
Link Kinematics of Machines Module 1 - Lecture 2
Link Kinematics of Machines Module 1 - Lecture 3
Link Kinematics of Machines Module 2 - Lecture 1
Link Kinematics of Machines Module 2 - Lecture 2
Link Kinematics of Machines Module 2 - Lecture 3
Link Kinematics of Machines Module 3 - Lecture 1
Link Kinematics of Machines Module 3 - Lecture 2
Link Kinematics of Machines Module 3 - Lecture 3
Link Kinematics of Machines Module 3 - Lecture 4
Link Kinematics of Machines Module 4 - Lecture 1
Link Kinematics of Machines Module 4 - Lecture 2
Link Kinematics of Machines Module 5 - Lecture 1
Link Kinematics of Machines Module 5 - Lecture 2
Link Kinematics of Machines Module 5 - Lecture 3
Link Kinematics of Machines Module 6 - Lecture 1
Link Kinematics of Machines Module 6 - Lecture 2
Link Kinematics of Machines Module 6 - Lecture 3
Link Kinematics of Machines Module 7 - Lecture 1
Link Kinematics of Machines Module 7 - Lecture 2
Link Kinematics of Machines Module 7 - Lecture 3
Link Kinematics of Machines Module 8 - Lecture 1
Link Kinematics of Machines Module 8 - Lecture 2
Link Kinematics of Machines Module 9 - Lecture 1
Link Kinematics of Machines Module 9 - Lecture 2
Link Kinematics of Machines Module 9 - Lecture 3
Link Kinematics of Machines Module 9 - Lecture 4
Link Kinematics of Machines Module 10 - Lecture 1
Link Kinematics of Machines Module 10 - Lecture 2
Link Kinematics of Machines Module 10 - Lecture 3
Link Kinematics of Machines Module 11 - Lecture 1
Link Kinematics of Machines Module 11 - Lecture 2
Link Kinematics of Machines Module 11 - Lecture 3
Link Kinematics of Machines Module 12 - Lecture 1
Link Kinematics of Machines Module 12 - Lecture 2
Link Kinematics of Machines Module 12 - Lecture 3
Link Kinematics of Machines Module 13 - Lecture 1
Link Kinematics of Machines Module 13 - Lecture 2
Link Kinematics of Machines Module 13 - Lecture 3
Link Advanced manufacturing process for micro sytem fabrication Lecture 1
Link Advanced manufacturing process for micro sytem fabrication Lecture 2
Link Advanced manufacturing process for micro sytem fabrication Lecture 3
Link Advanced manufacturing process for micro sytem fabrication Lecture 4
Link Advanced manufacturing process for micro sytem fabrication Lecture 5
Link Advanced manufacturing process for micro sytem fabrication Lecture 6
Link Advanced manufacturing process for micro sytem fabrication Lecture 7
Link Advanced manufacturing process for micro sytem fabrication Lecture 8
Link Advanced manufacturing process for micro sytem fabrication Lecture 9
Link Advanced manufacturing process for micro sytem fabrication Lecture 10
Link Advanced manufacturing process for micro sytem fabrication Lecture 11
Link Advanced manufacturing process for micro sytem fabrication Lecture 12
Link Advanced manufacturing process for micro sytem fabrication Lecture 13
Link Advanced manufacturing process for micro sytem fabrication Lecture 14
Link Advanced manufacturing process for micro sytem fabrication Lecture 15
Link Advanced manufacturing process for micro sytem fabrication Lecture 16
Link Advanced manufacturing process for micro sytem fabrication Lecture 17
Link Advanced manufacturing process for micro sytem fabrication Lecture 18
Link Advanced manufacturing process for micro sytem fabrication Lecture 19
Link Advanced manufacturing process for micro sytem fabrication Lecture 20
Link Advanced manufacturing process for micro sytem fabrication Lecture 21
Link Advanced manufacturing process for micro sytem fabrication Lecture 22
Link Advanced manufacturing process for micro sytem fabrication Lecture 23
Link Advanced manufacturing process for micro sytem fabrication Lecture 24
Link Advanced manufacturing process for micro sytem fabrication Lecture 25
Link Advanced manufacturing process for micro sytem fabrication Lecture 26
Link Advanced manufacturing process for micro sytem fabrication Lecture 27
Link Advanced manufacturing process for micro sytem fabrication Lecture 28
Link Advanced manufacturing process for micro sytem fabrication Lab session 1 - Advanced manufacturing process for micro sytem fabrication
Link Advanced manufacturing process for micro sytem fabrication Lab session 2 - EDM Micro Machening
Link Advanced manufacturing process for micro sytem fabrication Lab session 3 - EDM Micro Drilling
Link Advanced manufacturing process for micro sytem fabrication Lab session 4 - Laser Machening Process
Link Advanced manufacturing process for micro sytem fabrication Lab session 5 - Vaccume Assisted Forming
Link Advanced manufacturing process for micro sytem fabrication Lab session 6 - Vaccume Forming
Link Advanced manufacturing process for micro sytem fabrication Lab session 7 - Photolithiography
Link Advanced manufacturing process for micro sytem fabrication Lab session 8 - Replication part 1
Link Advanced manufacturing process for micro sytem fabrication Lab session 9 - Replication part 2
Link Advanced manufacturing process for micro sytem fabrication Lab session 10 - PCB Making
Link Engineering Drawing (Dr. Anupam Saxena) Lecture 1 - Technical Arts 101
Link Engineering Drawing (Dr. Anupam Saxena) Lecture 2 - Technical Arts 101
Link Engineering Drawing (Dr. Anupam Saxena) Lecture 3 - Technical Arts 101
Link Engineering Drawing (Dr. Anupam Saxena) Lecture 4 - Technical Arts 101
Link Engineering Drawing (Dr. Anupam Saxena) Lecture 5 - Technical Arts 101
Link Engineering Drawing (Dr. Anupam Saxena) Lecture 6 - Technical Arts 101
Link Engineering Drawing (Dr. Anupam Saxena) Lecture 7 - Technical Arts 101
Link Engineering Drawing (Dr. Anupam Saxena) Lecture 8 - Technical Arts 101
Link Engineering Drawing (Dr. Anupam Saxena) Lecture 9 - Technical Arts 101
Link Engineering Drawing (Dr. Anupam Saxena) Lecture 10 - Technical Arts 101
Link Engineering Drawing (Dr. Anupam Saxena) Lecture 11 - Technical Arts 101
Link Engineering Drawing (Dr. Anupam Saxena) Lecture 12 - Technical Arts 101
Link Engineering Drawing (Dr. Anupam Saxena) Lecture 13 - Technical Arts 101
Link Engineering Drawing (Dr. Anupam Saxena) Lecture 14 - Technical Arts 101
Link Engineering Drawing (Dr. Anupam Saxena) Lecture 15 - Technical Arts 101
Link Engineering Drawing (Dr. Anupam Saxena) Lecture 16 - Technical Arts 101
Link Engineering Drawing (Dr. Anupam Saxena) Lecture 17 - Technical Arts 101
Link Engineering Drawing (Dr. Anupam Saxena) Lecture 18 - Technical Arts 101
Link Engineering Drawing (Dr. Anupam Saxena) Lecture 19 - Technical Arts 101
Link Engineering Drawing (Dr. Anupam Saxena) Lecture 20 - Technical Arts 101
Link Engineering Drawing (Dr. Anupam Saxena) Lecture 21 - Technical Arts 101
Link Engineering Drawing (Dr. Anupam Saxena) Lecture 22 - Technical Arts 101
Link Engineering Drawing (Dr. Anupam Saxena) Lecture 23 - Technical Arts 101
Link Engineering Drawing (Dr. Anupam Saxena) Lecture 24 - Technical Arts 101
Link Engineering Drawing (Dr. Anupam Saxena) Lecture 25 - Technical Arts 101
Link Engineering Drawing (Dr. Anupam Saxena) Lecture 26 - Technical Arts 101
Link Engineering Drawing (Dr. Anupam Saxena) Lecture 27 - Technical Arts 101
Link Engineering Drawing (Dr. Anupam Saxena) Lecture 28 - Technical Arts 101
Link Engineering Drawing (Dr. Anupam Saxena) Lab Session 1
Link Engineering Drawing (Dr. Anupam Saxena) Lab Session 2
Link Engineering Drawing (Dr. Anupam Saxena) Lab Session 3
Link Engineering Drawing (Dr. Anupam Saxena) Lab Session 4
Link Engineering Drawing (Dr. Anupam Saxena) Lab Session 5
Link Engineering Drawing (Dr. Anupam Saxena) Lab Session 6
Link Engineering Drawing (Dr. Anupam Saxena) Lab Session 7
Link Engineering Drawing (Dr. Anupam Saxena) Lab Session 8
Link Engineering Drawing (Dr. Anupam Saxena) Lab Session 9
Link Engineering Drawing (Dr. Anupam Saxena) Lab Session 10
Link Engineering Drawing (Dr. Anupam Saxena) Lab Session 11
Link Engineering Drawing (Dr. Anupam Saxena) Lab Session 12
Link NOC:BioMEMS and Microsystems Lecture 1 - Lecture 1
Link NOC:BioMEMS and Microsystems Lecture 2 - Lecture 2
Link NOC:BioMEMS and Microsystems Lecture 3 - Lecture 3
Link NOC:BioMEMS and Microsystems Lecture 4 - Review Lecture 1,2,3
Link NOC:BioMEMS and Microsystems Lecture 5 - Lecture 4
Link NOC:BioMEMS and Microsystems Lecture 6 - Lecture 5
Link NOC:BioMEMS and Microsystems Lecture 7 - Lecture 6
Link NOC:BioMEMS and Microsystems Lecture 8 - Review Lecture 4,5,6
Link NOC:BioMEMS and Microsystems Lecture 9 - Lecture 7
Link NOC:BioMEMS and Microsystems Lecture 10 - Lecture 8
Link NOC:BioMEMS and Microsystems Lecture 11 - Lecture 9-10
Link NOC:BioMEMS and Microsystems Lecture 12 - Lecture-11
Link NOC:BioMEMS and Microsystems Lecture 13 - Lecture-12
Link NOC:BioMEMS and Microsystems Lecture 14 - Lecture-13
Link NOC:BioMEMS and Microsystems Lecture 15 - Lecture-14
Link NOC:BioMEMS and Microsystems Lecture 16 - Lecture-15
Link NOC:BioMEMS and Microsystems Lecture 17 - Lecture-16
Link NOC:BioMEMS and Microsystems Lecture 18 - Lecture-17
Link NOC:BioMEMS and Microsystems Lecture 19 - Lecture-18
Link NOC:BioMEMS and Microsystems Lecture 20 - Lecture-19
Link NOC:BioMEMS and Microsystems Lecture 21 - Review Lecture 7 to 10
Link NOC:BioMEMS and Microsystems Lecture 22 - Review Lecture 11 to 13
Link NOC:BioMEMS and Microsystems Lecture 23 - Review Lecture 14 to 16
Link NOC:BioMEMS and Microsystems Lecture 24 - Lecture-20
Link NOC:BioMEMS and Microsystems Lecture 25 - Lecture-21
Link NOC:BioMEMS and Microsystems Lecture 26 - Lecture-22
Link NOC:BioMEMS and Microsystems Lecture 27 - Lecture-23
Link NOC:BioMEMS and Microsystems Lecture 28 - Lecture-24
Link NOC:BioMEMS and Microsystems Lecture 29 - Lecture-25
Link NOC:BioMEMS and Microsystems Lecture 30 - Review Lecture 17,18,19
Link NOC:BioMEMS and Microsystems Lecture 31 - Review Lecture 20,21,22
Link NOC:BioMEMS and Microsystems Lecture 32 - Lecture-26
Link NOC:BioMEMS and Microsystems Lecture 33 - Lecture-27
Link NOC:BioMEMS and Microsystems Lecture 34 - Lecture-28
Link NOC:BioMEMS and Microsystems Lecture 35 - Lecture-29
Link NOC:BioMEMS and Microsystems Lecture 36 - Lecture-30
Link NOC:BioMEMS and Microsystems Lecture 37 - Lecture-31
Link NOC:BioMEMS and Microsystems Lecture 38 - Lecture-32
Link NOC:BioMEMS and Microsystems Lecture 39 - Lecture-33
Link NOC:BioMEMS and Microsystems Lecture 40 - Review lecture 23,24,25
Link NOC:BioMEMS and Microsystems Lecture 41 - Review lecture 26,27,28
Link NOC:BioMEMS and Microsystems Lecture 42 - Review lecture 29 to 33
Link NOC:Manufacturing Systems Technology Lecture 1
Link NOC:Manufacturing Systems Technology Lecture 2
Link NOC:Manufacturing Systems Technology Lecture 3
Link NOC:Manufacturing Systems Technology Lecture 4
Link NOC:Manufacturing Systems Technology Lecture 5
Link NOC:Manufacturing Systems Technology Lecture 6
Link NOC:Manufacturing Systems Technology Lecture 7
Link NOC:Manufacturing Systems Technology Lecture 8
Link NOC:Manufacturing Systems Technology Lecture 9
Link NOC:Manufacturing Systems Technology Lecture 10
Link NOC:Manufacturing Systems Technology Lecture 11
Link NOC:Manufacturing Systems Technology Lecture 12
Link NOC:Manufacturing Systems Technology Lecture 13
Link NOC:Manufacturing Systems Technology Lecture 14
Link NOC:Manufacturing Systems Technology Lecture 15
Link NOC:Manufacturing Systems Technology Lecture 16
Link NOC:Manufacturing Systems Technology Lecture 17
Link NOC:Manufacturing Systems Technology Lecture 18
Link NOC:Manufacturing Systems Technology Lecture 19
Link NOC:Manufacturing Systems Technology Lecture 20
Link NOC:Manufacturing Systems Technology Lecture 21
Link NOC:Manufacturing Systems Technology Lecture 22
Link NOC:Manufacturing Systems Technology Lecture 23
Link NOC:Manufacturing Systems Technology Lecture 24
Link NOC:Manufacturing Systems Technology Lecture 25
Link NOC:Manufacturing Systems Technology Lecture 26
Link NOC:Manufacturing Systems Technology Lecture 27
Link NOC:Manufacturing Systems Technology Lecture 28
Link NOC:Manufacturing Systems Technology Lecture 29
Link NOC:Manufacturing Systems Technology Lecture 30
Link NOC:Manufacturing Systems Technology Lecture 31
Link NOC:Manufacturing Systems Technology Lecture 32
Link NOC:Manufacturing Systems Technology Lecture 33
Link NOC:Manufacturing Systems Technology Lecture 34
Link NOC:Manufacturing Systems Technology Lecture 35
Link NOC:Manufacturing Systems Technology Lecture 36
Link NOC:Manufacturing Systems Technology Lecture 37
Link NOC:Manufacturing Systems Technology Lecture 38
Link NOC:Manufacturing Systems Technology Lecture 39
Link NOC:Manufacturing Systems Technology Lecture 40
Link NOC:Manufacturing Systems Technology Lecture 41
Link NOC:Manufacturing Systems Technology Lecture 42
Link NOC:Manufacturing Systems Technology Lecture 43
Link NOC:Manufacturing Systems Technology Lecture 44
Link NOC:Manufacturing Systems Technology Lecture 45
Link NOC:Manufacturing Systems Technology Lecture 46
Link NOC:Manufacturing Systems Technology Lecture 47
Link NOC:Manufacturing Systems Technology Lecture 48
Link NOC:Manufacturing Systems Technology - Part II Lecture 1 - Introduction to Quality Engineering
Link NOC:Manufacturing Systems Technology - Part II Lecture 2 - Quality Costs
Link NOC:Manufacturing Systems Technology - Part II Lecture 3 - Product Design
Link NOC:Manufacturing Systems Technology - Part II Lecture 4 - Design of Experiments
Link NOC:Manufacturing Systems Technology - Part II Lecture 5 - Applications of Quality Loss Function
Link NOC:Manufacturing Systems Technology - Part II Lecture 6 - Product Selection Strategies
Link NOC:Manufacturing Systems Technology - Part II Lecture 7 - Robust Design Approaches
Link NOC:Manufacturing Systems Technology - Part II Lecture 8 - Taguchi's Method
Link NOC:Manufacturing Systems Technology - Part II Lecture 9 - Failure mode and effects analysis
Link NOC:Manufacturing Systems Technology - Part II Lecture 10 - Problem Solving : Failure mode and effects analysis - 1
Link NOC:Manufacturing Systems Technology - Part II Lecture 11 - Problem solving : Failure mode and effects analysis - 2
Link NOC:Manufacturing Systems Technology - Part II Lecture 12 - Product quality improvement methods
Link NOC:Manufacturing Systems Technology - Part II Lecture 13 - Quality tools - Part 1
Link NOC:Manufacturing Systems Technology - Part II Lecture 14 - Quality Tools - Part 2
Link NOC:Manufacturing Systems Technology - Part II Lecture 15 - Different types of control charts
Link NOC:Manufacturing Systems Technology - Part II Lecture 16 - Mean, Variance and Standard deviation
Link NOC:Manufacturing Systems Technology - Part II Lecture 17 - X bar chart, R-chart
Link NOC:Manufacturing Systems Technology - Part II Lecture 18 - Plotting methods for control charts
Link NOC:Manufacturing Systems Technology - Part II Lecture 19 - Six Sigma - Part 1
Link NOC:Manufacturing Systems Technology - Part II Lecture 20 - Six Sigma - Part 2
Link NOC:Manufacturing Systems Technology - Part II Lecture 21 - Theory of probability
Link NOC:Manufacturing Systems Technology - Part II Lecture 22 - Determining the defective products using Probability
Link NOC:Manufacturing Systems Technology - Part II Lecture 23 - Sampling based on Permutations and Combinations
Link NOC:Manufacturing Systems Technology - Part II Lecture 24 - Bionomial distribution
Link NOC:Manufacturing Systems Technology - Part II Lecture 25 - Poisson distribution
Link NOC:Manufacturing Systems Technology - Part II Lecture 26 - Poisson distribution
Link NOC:Manufacturing Systems Technology - Part II Lecture 27 - Normal Distribution
Link NOC:Manufacturing Systems Technology - Part II Lecture 28 - Overview of control charts and different types of distribution
Link NOC:Manufacturing Systems Technology - Part II Lecture 29 - Fundamental of Robotics and its applications in Automated Systems
Link NOC:Manufacturing Systems Technology - Part II Lecture 30 - Joint configuration systems of Robot
Link NOC:Basics of Finite Element Analysis Lecture 1 - Introduction to Finite Element Analysis(FEA)
Link NOC:Basics of Finite Element Analysis Lecture 2 - Introduction of FEA, Nodes, Elements and Shape Functions
Link NOC:Basics of Finite Element Analysis Lecture 3 - Nodes, Elements and Shape Functions
Link NOC:Basics of Finite Element Analysis Lecture 4 - Polynomials as Shape Functions, Weighted Residuals, Elements and Assembly Level Equations
Link NOC:Basics of Finite Element Analysis Lecture 5 - Types of Errors in FEA, Overall FEA Process and Convergence
Link NOC:Basics of Finite Element Analysis Lecture 6 - Strengths of FE Method, Continuity conditions at Interfaces
Link NOC:Basics of Finite Element Analysis Lecture 7 - Key concepts and terminologies
Link NOC:Basics of Finite Element Analysis Lecture 8 - Weighted integral statements
Link NOC:Basics of Finite Element Analysis Lecture 9 - Integration by parts - Review
Link NOC:Basics of Finite Element Analysis Lecture 10 - Gradient and Divergence Theorems-Part - I
Link NOC:Basics of Finite Element Analysis Lecture 11 - Gradient and Divergence Theorems Part - II
Link NOC:Basics of Finite Element Analysis Lecture 12 - Functionals
Link NOC:Basics of Finite Element Analysis Lecture 13 - Variational Operator
Link NOC:Basics of Finite Element Analysis Lecture 14 - Weighted Integral and Weak Formulation
Link NOC:Basics of Finite Element Analysis Lecture 15 - Weak Formulation
Link NOC:Basics of Finite Element Analysis Lecture 16 - Weak Formulation and Weighted Integral : Principle of minimum potential energy
Link NOC:Basics of Finite Element Analysis Lecture 17 - Variational Methods : Rayleigh Ritz Method
Link NOC:Basics of Finite Element Analysis Lecture 18 - Rayleigh Ritz Method
Link NOC:Basics of Finite Element Analysis Lecture 19 - Method of Weighted Residuals
Link NOC:Basics of Finite Element Analysis Lecture 20 - Different types of Weighted Residual Methods - Part I
Link NOC:Basics of Finite Element Analysis Lecture 21 - Different types of Weighted Residual Methods - Part II
Link NOC:Basics of Finite Element Analysis Lecture 22 - FEA formulation for 2nd order BVP - Part I
Link NOC:Basics of Finite Element Analysis Lecture 23 - FEA formulation for 2nd order BVP - Part II
Link NOC:Basics of Finite Element Analysis Lecture 24 - Element Level Equations
Link NOC:Basics of Finite Element Analysis Lecture 25 - 2nd Order Boundary Value Problem
Link NOC:Basics of Finite Element Analysis Lecture 26 - Assembly of element equations
Link NOC:Basics of Finite Element Analysis Lecture 27 - Assembly of element equations and implementation of boundary conditions
Link NOC:Basics of Finite Element Analysis Lecture 28 - Assembly process and the connectivity matrix
Link NOC:Basics of Finite Element Analysis Lecture 29 - Radially Symmetric Problems
Link NOC:Basics of Finite Element Analysis Lecture 30 - One dimensional heat transfer
Link NOC:Basics of Finite Element Analysis Lecture 31 - 1D-Heat conduction with convective effects : examples
Link NOC:Basics of Finite Element Analysis Lecture 32 - Euler-Bernoulli beam
Link NOC:Basics of Finite Element Analysis Lecture 33 - Interpolation functions for Euler-Bernoulli beam
Link NOC:Basics of Finite Element Analysis Lecture 34 - Finite element equations for Euler-Bernoulli beam
Link NOC:Basics of Finite Element Analysis Lecture 35 - Assembly equations for Euler-Bernoulli beam
Link NOC:Basics of Finite Element Analysis Lecture 36 - Boundary conditions for Euler-Bernoulli beam
Link NOC:Basics of Finite Element Analysis Lecture 37 - Shear deformable beams
Link NOC:Basics of Finite Element Analysis Lecture 38 - Finite element formulation for shear deformable beams : Part - I
Link NOC:Basics of Finite Element Analysis Lecture 39 - Finite element formulation for shear deformable beams : Part - II
Link NOC:Basics of Finite Element Analysis Lecture 40 - Equal interpolation but reduced integration element
Link NOC:Basics of Finite Element Analysis Lecture 41 - Eigenvalue problems
Link NOC:Basics of Finite Element Analysis Lecture 42 - Eigenvalue problems : examples
Link NOC:Basics of Finite Element Analysis Lecture 43 - Introduction to time dependent problems
Link NOC:Basics of Finite Element Analysis Lecture 44 - Spatial approximation
Link NOC:Basics of Finite Element Analysis Lecture 45 - Temporal approximation for parabolic problems : Part - I
Link NOC:Basics of Finite Element Analysis Lecture 46 - Temporal approximation for parabolic problems : Part - II
Link NOC:Basics of Finite Element Analysis Lecture 47 - Temporal approximation for hyperbolic problems
Link NOC:Basics of Finite Element Analysis Lecture 48 - Explicit and implicit method, diagonalization of mass matrix, closure
Link NOC:Basics of Noise and Its Measurements Lecture 1 - Introduction
Link NOC:Basics of Noise and Its Measurements Lecture 2 - Vibration versus Waves
Link NOC:Basics of Noise and Its Measurements Lecture 3 - Nature of Sound
Link NOC:Basics of Noise and Its Measurements Lecture 4 - The Decibel Scale
Link NOC:Basics of Noise and Its Measurements Lecture 5 - Some Key Terms
Link NOC:Basics of Noise and Its Measurements Lecture 6 - Adding Decibels
Link NOC:Basics of Noise and Its Measurements Lecture 7 - Modeling Sound Propagation
Link NOC:Basics of Noise and Its Measurements Lecture 8 - The Momentum Equation
Link NOC:Basics of Noise and Its Measurements Lecture 9 - The Continuity Equation and The Gas Law
Link NOC:Basics of Noise and Its Measurements Lecture 10 - 1-D Wave Equation
Link NOC:Basics of Noise and Its Measurements Lecture 11 - General Solution for 1-D Wave Equation
Link NOC:Basics of Noise and Its Measurements Lecture 12 - Complex Time Signal and Transfer Functions
Link NOC:Basics of Noise and Its Measurements Lecture 13 - Transmission line equations
Link NOC:Basics of Noise and Its Measurements Lecture 14 - Planar Waves in Closed Tubes
Link NOC:Basics of Noise and Its Measurements Lecture 15 - Planar Waves in 1-D Open Tubes
Link NOC:Basics of Noise and Its Measurements Lecture 16 - A Semi-Infinite Tube and Overall Summary
Link NOC:Basics of Noise and Its Measurements Lecture 17 - 1-D Tubes with Imperfect Terminations
Link NOC:Basics of Noise and Its Measurements Lecture 18 - Measuring Impedance Through Kundt’s Apparatus
Link NOC:Basics of Noise and Its Measurements Lecture 19 - Classification of Microphones
Link NOC:Basics of Noise and Its Measurements Lecture 20 - Classification of Microphones - Continuation
Link NOC:Basics of Noise and Its Measurements Lecture 21 - Classification of Microphones by Application
Link NOC:Basics of Noise and Its Measurements Lecture 22 - Microphone Sensitivity
Link NOC:Basics of Noise and Its Measurements Lecture 23 - Microphone Sensitivity- Continuation
Link NOC:Basics of Noise and Its Measurements Lecture 24 - Selecting the Right Microphone
Link NOC:Basics of Noise and Its Measurements Lecture 25 - Fourier Series Expansion
Link NOC:Basics of Noise and Its Measurements Lecture 26 - Fourier Series Expansion - Continuation
Link NOC:Basics of Noise and Its Measurements Lecture 27 - Fourier Integral
Link NOC:Basics of Noise and Its Measurements Lecture 28 - Fourier Integral - Continuation
Link NOC:Basics of Noise and Its Measurements Lecture 29 - Fourier Transform
Link NOC:Basics of Noise and Its Measurements Lecture 30 - Fourier Transform - Continuation
Link NOC:Basics of Noise and Its Measurements Lecture 31 - Discrete Fourier Transform (DFT)
Link NOC:Basics of Noise and Its Measurements Lecture 32 - Discrete Fourier Transform (DFT) - Continuation
Link NOC:Basics of Noise and Its Measurements Lecture 33 - DFT - Calculating Frequencies and Padding
Link NOC:Basics of Noise and Its Measurements Lecture 34 - DFT - Influence of Duration and Sampling frequency on resolution
Link NOC:Basics of Noise and Its Measurements Lecture 35 - FFT and Inverse FFT
Link NOC:Basics of Noise and Its Measurements Lecture 36 - Considerations while deciding instrumentation
Link NOC:Basics of Noise and Its Measurements Lecture 37 - Considerations while selecting instruments for noise measurements
Link NOC:Basics of Noise and Its Measurements Lecture 38 - Measuring impedance through two microphone method
Link NOC:Basics of Noise and Its Measurements Lecture 39 - Designing an impedance measurement tube
Link NOC:Basics of Noise and Its Measurements Lecture 40 - Octave band analysis
Link NOC:Basics of Noise and Its Measurements Lecture 41 - Calculating results in octave bands
Link NOC:Basics of Noise and Its Measurements Lecture 42 - Weighting
Link NOC:Basics of Noise and Its Measurements Lecture 43 - Short time Fourier transforms (STFT)
Link NOC:Basics of Noise and Its Measurements Lecture 44 - Spectrograms
Link NOC:Basics of Noise and Its Measurements Lecture 45 - Reverberation time
Link NOC:Basics of Noise and Its Measurements Lecture 46 - Anechoic rooms
Link NOC:Basics of Noise and Its Measurements Lecture 47 - STC, NRC and sound attenuation
Link NOC:Basics of Noise and Its Measurements Lecture 48 - Reverberant rooms
Link NOC:Manufacturing Process Technology - Part I Lecture 1 - Introduction to Manufacturing Process Tecnology
Link NOC:Manufacturing Process Technology - Part I Lecture 2 - Structure of Matter (Bonding of Solids,Crystal Structures)
Link NOC:Manufacturing Process Technology - Part I Lecture 3 - Brief introduction of non-conventional machining processes
Link NOC:Manufacturing Process Technology - Part I Lecture 4 - Structure of matters (bonding of solids, crystal structures)
Link NOC:Manufacturing Process Technology - Part I Lecture 5 - Elastic and Plastic Deformation
Link NOC:Manufacturing Process Technology - Part I Lecture 6 - Crystal imperfaction and dislocation
Link NOC:Manufacturing Process Technology - Part I Lecture 7 - Plastic Deformation
Link NOC:Manufacturing Process Technology - Part I Lecture 8 - Material Properties, Stress Strain Diagram for differnt types of materials
Link NOC:Manufacturing Process Technology - Part I Lecture 9 - Friction and Wear, Solid solutions
Link NOC:Manufacturing Process Technology - Part I Lecture 10 - Equilibrium Phase Diagram
Link NOC:Manufacturing Process Technology - Part I Lecture 11 - Iron-carbon equilibrium phase diagram
Link NOC:Manufacturing Process Technology - Part I Lecture 12 - Control of material properties (Alloying and heat treatment), Mechanical properties and Recrystallization
Link NOC:Manufacturing Process Technology - Part I Lecture 13 - Introduction To Casting Process
Link NOC:Manufacturing Process Technology - Part I Lecture 14 - Pattern and Mold Design
Link NOC:Manufacturing Process Technology - Part I Lecture 15 - Mold Making Procedures
Link NOC:Manufacturing Process Technology - Part I Lecture 16 - Fundamentals of Melting and Furnaces & Pouring and Gating Design
Link NOC:Manufacturing Process Technology - Part I Lecture 17 - Vertical and Bottom Gating Systems Edit Lesson
Link NOC:Manufacturing Process Technology - Part I Lecture 18 - Numerical Estimation To Find Mold Filling Time and Mold Design
Link NOC:Manufacturing Process Technology - Part I Lecture 19 - Effects of friction and velocity distribution in time of filling
Link NOC:Manufacturing Process Technology - Part I Lecture 20 - Numerical design of gating systems using frictional and bending losses
Link NOC:Manufacturing Process Technology - Part I Lecture 21 - Principle of cooling and solidification in single and multiphase systems
Link NOC:Manufacturing Process Technology - Part I Lecture 22 - Estimation of rate of solidification
Link NOC:Manufacturing Process Technology - Part I Lecture 23 - Principles of cooling and solidification of casting
Link NOC:Manufacturing Process Technology - Part I Lecture 24 - Modeling of Solidification Rates of Thin Casting in a Metal Mold
Link NOC:Manufacturing Process Technology - Part I Lecture 25 - Solidification with Predominant Interface Resistance
Link NOC:Manufacturing Process Technology - Part I Lecture 26 - Solidification with Constant Casting Surface Temperature
Link NOC:Manufacturing Process Technology - Part I Lecture 27 - Solidification of Casting with Predominant Resistance in Mold and Solidified Metal
Link NOC:Manufacturing Process Technology - Part I Lecture 28 - Solidification Time for Permanent Mold Casting
Link NOC:Manufacturing Process Technology - Part I Lecture 29 - Solidification with Constant Casting Surface
Link NOC:Manufacturing Process Technology - Part I Lecture 30 - Riser Design and Placement - Part 1
Link NOC:Manufacturing Process Technology - Part I Lecture 31 - Riser Design and Placement - Part 2
Link NOC:Manufacturing Process Technology - Part I Lecture 32 - Riser Design and Placement - Part 3
Link NOC:Manufacturing Process Technology - Part I Lecture 33 - Introduction of Machining Processes
Link NOC:Manufacturing Process Technology - Part I Lecture 34 - Review of Basic Machining Processes and the Mechanics of Chip Formation
Link NOC:Manufacturing Process Technology - Part I Lecture 35 - Estimation of Cutting Ratio and Shear Angle
Link NOC:Manufacturing Process Technology - Part I Lecture 36 - Merchant's Force Analysis
Link NOC:Manufacturing Process Technology - Part I Lecture 37 - Merchant Theory (Cutting Forces Analysis)
Link NOC:Manufacturing Process Technology - Part I Lecture 38 - Merchant Theory (Force analysis) Part-2
Link NOC:Manufacturing Process Technology - Part I Lecture 39 - Lee Shaffer's Solution
Link NOC:Manufacturing Process Technology - Part I Lecture 40 - Specific Energy Model for Cutting
Link NOC:Manufacturing Process Technology - Part I Lecture 41 - Modeling of Heat Generation and Cutting Tool Temperature
Link NOC:Manufacturing Process Technology - Part I Lecture 42 - Temperature in Cutting and Builtup Edge Formation
Link NOC:Manufacturing Process Technology - Part I Lecture 43 - Metal Cutting Operation
Link NOC:Manufacturing Process Technology - Part I Lecture 44 - Tool life and Tool wear
Link NOC:Manufacturing Process Technology - Part I Lecture 45 - Economics of Machining
Link NOC:Manufacturing Process Technology - Part I Lecture 46 - Joining Process
Link NOC:Manufacturing Process Technology - Part I Lecture 47 - Principle of Solid State Welding
Link NOC:Manufacturing Process Technology - Part I Lecture 48 - Numerical Design of Welding Power Sources in Arc Welding
Link Manufacturing Systems Technology - I and II Lecture 1 - Introduction to Manufacturing Process Tecnology
Link Manufacturing Systems Technology - I and II Lecture 2 - Structure of Matter (Bonding of Solids, Crystal Structures)
Link Manufacturing Systems Technology - I and II Lecture 3 - Brief introduction of non-conventional machining processes
Link Manufacturing Systems Technology - I and II Lecture 4 - Structure of matters (bonding of solids, crystal structures)
Link Manufacturing Systems Technology - I and II Lecture 5 - Elastic and Plastic Deformation
Link Manufacturing Systems Technology - I and II Lecture 6 - Crystal imperfaction and dislocation
Link Manufacturing Systems Technology - I and II Lecture 7 - Plastic Deformation
Link Manufacturing Systems Technology - I and II Lecture 8 - Material Properties, Stress Strain Diagram for differnt types of materials
Link Manufacturing Systems Technology - I and II Lecture 9 - Friction and Wear, Solid solutions
Link Manufacturing Systems Technology - I and II Lecture 10 - Equilibrium Phase Diagram
Link Manufacturing Systems Technology - I and II Lecture 11 - Iron-carbon equilibrium phase diagram
Link Manufacturing Systems Technology - I and II Lecture 12 - Control of material properties, Mechanical properties and Recrystallization
Link Manufacturing Systems Technology - I and II Lecture 13 - Introduction To Casting Process
Link Manufacturing Systems Technology - I and II Lecture 14 - Pattern and Mold Design
Link Manufacturing Systems Technology - I and II Lecture 15 - Mold Making Procedures
Link Manufacturing Systems Technology - I and II Lecture 16 - Fundamentals of Melting and Furnaces and Pouring and Gating Design
Link Manufacturing Systems Technology - I and II Lecture 17 - Vertical and Bottom Gating Systems Edit Lesson
Link Manufacturing Systems Technology - I and II Lecture 18 - Numerical Estimation To Find Mold Filling Time and Mold Design
Link Manufacturing Systems Technology - I and II Lecture 19 - Effects of friction and velocity distribution in time of filling
Link Manufacturing Systems Technology - I and II Lecture 20 - Numerical design of gating systems using frictional and bending losses
Link Manufacturing Systems Technology - I and II Lecture 21 - Principle of cooling and solidification in single and multiphase systems
Link Manufacturing Systems Technology - I and II Lecture 22 - Estimation of rate of solidification
Link Manufacturing Systems Technology - I and II Lecture 23 - Principles of cooling and solidification of casting
Link Manufacturing Systems Technology - I and II Lecture 24 - Modeling of Solidification Rates of Thin Casting in a Metal Mold
Link Manufacturing Systems Technology - I and II Lecture 25 - Solidification with Predominant Interface Resistance
Link Manufacturing Systems Technology - I and II Lecture 26 - Solidification with Constant Casting Surface Temperature
Link Manufacturing Systems Technology - I and II Lecture 27 - Solidification of Casting with Predominant Resistance in Mold and Solidified Metal
Link Manufacturing Systems Technology - I and II Lecture 28 - Solidification Time for Permanent Mold Casting
Link Manufacturing Systems Technology - I and II Lecture 29 - Solidification with Constant Casting Surface
Link Manufacturing Systems Technology - I and II Lecture 30 - Riser Design and Placement - Part 1
Link Manufacturing Systems Technology - I and II Lecture 31 - Riser Design and Placement - Part 2
Link Manufacturing Systems Technology - I and II Lecture 32 - Riser Design and Placement - Part 3
Link Manufacturing Systems Technology - I and II Lecture 33 - Introduction of Machining Processes
Link Manufacturing Systems Technology - I and II Lecture 34 - Review of Basic Machining Processes and the Mechanics of Chip Formation
Link Manufacturing Systems Technology - I and II Lecture 35 - Estimation of Cutting Ratio and Shear Angle
Link Manufacturing Systems Technology - I and II Lecture 36 - Merchant's Force Analysis
Link Manufacturing Systems Technology - I and II Lecture 37 - Merchant Theory (Cutting Forces Analysis)
Link Manufacturing Systems Technology - I and II Lecture 38 - Merchant Theory (Force analysis) - Part 2
Link Manufacturing Systems Technology - I and II Lecture 39 - Lee Shaffer's Solution
Link Manufacturing Systems Technology - I and II Lecture 40 - Specific Energy Model for Cutting
Link Manufacturing Systems Technology - I and II Lecture 41 - Modeling of Heat Generation and Cutting Tool Temperature
Link Manufacturing Systems Technology - I and II Lecture 42 - Temperature in Cutting and Builtup Edge Formation
Link Manufacturing Systems Technology - I and II Lecture 43 - Metal Cutting Operation
Link Manufacturing Systems Technology - I and II Lecture 44 - Tool life and Tool wear
Link Manufacturing Systems Technology - I and II Lecture 45 - Economics of Machining
Link Manufacturing Systems Technology - I and II Lecture 46 - Joining Process
Link Manufacturing Systems Technology - I and II Lecture 47 - Principle of Solid State Welding
Link Manufacturing Systems Technology - I and II Lecture 48 - Numerical Design of Welding Power Sources in Arc Welding
Link Manufacturing Systems Technology - I and II Lecture 49 - Modes of metal transfer in arc welding
Link Manufacturing Systems Technology - I and II Lecture 50 - Metal forming Processes Edit Lesson
Link Manufacturing Systems Technology - I and II Lecture 51 - Yield Criterion used in Metal Forming Processes Edit Lesson
Link Manufacturing Systems Technology - I and II Lecture 52 - Concept of Principal stress, strain
Link Manufacturing Systems Technology - I and II Lecture 53 - Trescas' Yield criteria and Rolling Process
Link Manufacturing Systems Technology - I and II Lecture 54 - Rolling Processes - Part 1
Link Manufacturing Systems Technology - I and II Lecture 55 - Rolling Processes - Part 2
Link Manufacturing Systems Technology - I and II Lecture 56 - Introduction to Advanced Machining Processes
Link Manufacturing Systems Technology - I and II Lecture 57 - Classification of Machining Processes
Link Manufacturing Systems Technology - I and II Lecture 58 - Silicon growth and Crystallography
Link Manufacturing Systems Technology - I and II Lecture 59 - Micro Fabrication Technology
Link Manufacturing Systems Technology - I and II Lecture 60 - Photolithography
Link Manufacturing Systems Technology - I and II Lecture 61 - Soft Lithography
Link Manufacturing Systems Technology - I and II Lecture 62 - Introduction to Wet Etching Techniques
Link Manufacturing Systems Technology - I and II Lecture 63 - Introduction to Dry Etching Techniques
Link Manufacturing Systems Technology - I and II Lecture 64 - Introduction to Abrasive Jet Machining Process
Link Manufacturing Systems Technology - I and II Lecture 65 - Ultrasonic Machining Process
Link Manufacturing Systems Technology - I and II Lecture 66 - Determination of MRR of Ultrasonic Machining Process
Link Manufacturing Systems Technology - I and II Lecture 67 - Mechanics of Ultrasonic Machining (USM)
Link Manufacturing Systems Technology - I and II Lecture 68 - Effect of Process parameters of USM
Link Manufacturing Systems Technology - I and II Lecture 69 - Ultrasonic Machining Unit
Link Manufacturing Systems Technology - I and II Lecture 70 - Introductions of Electro-chemical Drilling Process
Link Manufacturing Systems Technology - I and II Lecture 71 - Electric Discharge Machining Process
Link Manufacturing Systems Technology - I and II Lecture 72 - EDM - Part 2
Link Manufacturing Systems Technology - I and II Lecture 73 - Effect of various process parameters on EDM process
Link Manufacturing Systems Technology - I and II Lecture 74 - Analysis of RC circuit for EDM
Link Manufacturing Systems Technology - I and II Lecture 75 - Electrodischarge machining sytem
Link Manufacturing Systems Technology - I and II Lecture 76 - Effect of various parameters on EDM Process
Link Manufacturing Systems Technology - I and II Lecture 77 - Tool Electrodes and Dielectric fluids and Electron Beam Machining
Link Manufacturing Systems Technology - I and II Lecture 78 - Introduction to Finishing Process
Link Manufacturing Systems Technology - I and II Lecture 79 - Electrochemical Machining Processes (ECM)
Link Manufacturing Systems Technology - I and II Lecture 80 - Material Removal Rate of ECM
Link Manufacturing Systems Technology - I and II Lecture 81 - Electrode Double Layer
Link Manufacturing Systems Technology - I and II Lecture 82 - Material removal rate of an alloy in ECM
Link Manufacturing Systems Technology - I and II Lecture 83 - Kinematics and Dynamics of ECM
Link Manufacturing Systems Technology - I and II Lecture 84 - Temperature and Pressure rise during ECM
Link Manufacturing Systems Technology - I and II Lecture 85 - Determination of Electrolyte flow velocity in ECM
Link Manufacturing Systems Technology - I and II Lecture 86 - Theoretical determination of Tool shape
Link Manufacturing Systems Technology - I and II Lecture 87 - Design for Electrolyte flow in ECM
Link Manufacturing Systems Technology - I and II Lecture 88 - Mechanics of Electron Beam Machining Process
Link Manufacturing Systems Technology - I and II Lecture 89 - Functional Characteristics of EBM Process Edit Lesson
Link Manufacturing Systems Technology - I and II Lecture 90 - Introduction of Laser Beam Machining Process
Link Manufacturing Systems Technology - I and II Lecture 91 - Material removal rate of LBM
Link Manufacturing Systems Technology - I and II Lecture 92 - Heat conduction and Temperature rise during LBM
Link Manufacturing Systems Technology - I and II Lecture 93 - Modelling of LBM processes
Link Manufacturing Systems Technology - I and II Lecture 94 - Introduction of Additive Techniques
Link Manufacturing Systems Technology - I and II Lecture 95 - Additive Manufacturing Processes
Link Manufacturing Systems Technology - I and II Lecture 96 - Fused Deposition Modeling Process
Link NOC:Nature and Property of Materials Lecture 1 - History and Evolution of Materials
Link NOC:Nature and Property of Materials Lecture 2 - Classification of Materials
Link NOC:Nature and Property of Materials Lecture 3 - Advanced and Exotic Materials
Link NOC:Nature and Property of Materials Lecture 4 - Mechanical Properties of Materials - I
Link NOC:Nature and Property of Materials Lecture 5 - Mechanical Properties of Materials - II
Link NOC:Nature and Property of Materials Lecture 6 - Mechanical Properties of Materials - III
Link NOC:Nature and Property of Materials Lecture 7 - Bonding between atoms
Link NOC:Nature and Property of Materials Lecture 8 - The Role of Crystal Structure - I
Link NOC:Nature and Property of Materials Lecture 9 - The Role of Crystal Structure - II
Link NOC:Nature and Property of Materials Lecture 10 - The Role of Crystal Structure - III
Link NOC:Nature and Property of Materials Lecture 11 - Metals - I (Ferrous alloys)
Link NOC:Nature and Property of Materials Lecture 12 - Metals - II (Non-Ferrous alloys)
Link NOC:Nature and Property of Materials Lecture 13 - Metals - III (Strengthening and Degradation)
Link NOC:Nature and Property of Materials Lecture 14 - Ceramics - I
Link NOC:Nature and Property of Materials Lecture 15 - Ceramics - II
Link NOC:Nature and Property of Materials Lecture 16 - Polymers : Introduction and Classification
Link NOC:Nature and Property of Materials Lecture 17 - Polymeric Structure
Link NOC:Nature and Property of Materials Lecture 18 - Effects of Glass transition temperature
Link NOC:Nature and Property of Materials Lecture 19 - Polymer Mechanical properties
Link NOC:Nature and Property of Materials Lecture 20 - Composites - I
Link NOC:Nature and Property of Materials Lecture 21 - Composites - II
Link NOC:Nature and Property of Materials Lecture 22 - Composites - III
Link NOC:Nature and Property of Materials Lecture 23 - Smart Materials - I (Introduction)
Link NOC:Nature and Property of Materials Lecture 24 - Smart Materials - II (Piezoelectricity)
Link NOC:Nature and Property of Materials Lecture 25 - Smart Materials - III (Magnetostriction)
Link NOC:Nature and Property of Materials Lecture 26 - Smart Materials - IV (Smart Polymers)
Link NOC:Nature and Property of Materials Lecture 27 - Smart Materials - V (SMA)
Link NOC:Nature and Property of Materials Lecture 28 - Materials Selection in Engineering Design
Link NOC:Nature and Property of Materials Lecture 29 - Numerical: Cantilever beam (High stiffness and light weight)
Link NOC:Nature and Property of Materials Lecture 30 - Numerical: Cantilever beam (High strength and light weight)
Link NOC:Nature and Property of Materials Lecture 31 - Numerical: Connecting rod
Link NOC:Nature and Property of Materials Lecture 32 - Numerical: Probe for scanning probe microscope
Link NOC:Nature and Property of Materials Lecture 33 - Optical Properties
Link NOC:Nature and Property of Materials Lecture 34 - Optical Fiber
Link NOC:Nature and Property of Materials Lecture 35 - Thermal Properties
Link NOC:Nature and Property of Materials Lecture 36 - Numerical: Material selection for Heat exchanger
Link NOC:Nature and Property of Materials Lecture 37 - Electric Properties - I
Link NOC:Nature and Property of Materials Lecture 38 - Electric Properties - II
Link NOC:Nature and Property of Materials Lecture 39 - Magnetic Properties
Link NOC:Nature and Property of Materials Lecture 40 - Laboratory demonstration
Link NOC:Manufacturing Process Technology - Part II Lecture 1 - Introduction to Advanced Machining Processes
Link NOC:Manufacturing Process Technology - Part II Lecture 2 - Classification of Machining Processes
Link NOC:Manufacturing Process Technology - Part II Lecture 3 - Silicon growth and Crystallography
Link NOC:Manufacturing Process Technology - Part II Lecture 4 - Micro Fabrication Technology
Link NOC:Manufacturing Process Technology - Part II Lecture 5 - Photolithography
Link NOC:Manufacturing Process Technology - Part II Lecture 6 - Soft Lithography
Link NOC:Manufacturing Process Technology - Part II Lecture 7 - Introduction to Wet Etching Techniques
Link NOC:Manufacturing Process Technology - Part II Lecture 8 - Introduction to Dry Etching Techniques
Link NOC:Manufacturing Process Technology - Part II Lecture 9 - Introduction of Additive Techniques
Link NOC:Manufacturing Process Technology - Part II Lecture 10 - Introduction to Abrasive Jet Machining Process
Link NOC:Manufacturing Process Technology - Part II Lecture 11 - Ultrasonic Machining Process
Link NOC:Manufacturing Process Technology - Part II Lecture 12 - Determination of MRR of Ultrasonic Machining Process
Link NOC:Manufacturing Process Technology - Part II Lecture 13 - Mechanics of Ultrasonic Machining (USM)
Link NOC:Manufacturing Process Technology - Part II Lecture 14 - Effect of Process parameters of USM
Link NOC:Manufacturing Process Technology - Part II Lecture 15 - Ultrasonic Machining Unit
Link NOC:Manufacturing Process Technology - Part II Lecture 16 - Electrochemical Machining Processes (ECM)
Link NOC:Manufacturing Process Technology - Part II Lecture 17 - Material Removal Rate of ECM
Link NOC:Manufacturing Process Technology - Part II Lecture 18 - Electrode Double Layer
Link NOC:Manufacturing Process Technology - Part II Lecture 19 - Material removal rate of an alloy in ECM
Link NOC:Manufacturing Process Technology - Part II Lecture 20 - Kinematics and Dynamics of ECM
Link NOC:Manufacturing Process Technology - Part II Lecture 21 - Temperature and Pressure rise during ECM
Link NOC:Manufacturing Process Technology - Part II Lecture 22 - Determination of Electrolyte flow velocity in ECM
Link NOC:Manufacturing Process Technology - Part II Lecture 23 - Effect of heat and Hydrogen bubble generation during ECM Process
Link NOC:Manufacturing Process Technology - Part II Lecture 24 - Theoretical determination of Tool shape
Link NOC:Manufacturing Process Technology - Part II Lecture 25 - Design for Electrolyte flow in ECM
Link NOC:Manufacturing Process Technology - Part II Lecture 26 - Introductions of Electro-chemical Drilling Process
Link NOC:Manufacturing Process Technology - Part II Lecture 27 - Introduction to Finishing Process
Link NOC:Manufacturing Process Technology - Part II Lecture 28 - Electric Discharge Machining Process
Link NOC:Manufacturing Process Technology - Part II Lecture 29 - EDM part-2
Link NOC:Manufacturing Process Technology - Part II Lecture 30 - Effect of various process parameters on EDM process
Link NOC:Manufacturing Process Technology - Part II Lecture 31 - Analysis of RC circuit for EDM
Link NOC:Manufacturing Process Technology - Part II Lecture 32 - Electrodischarge machining sytem
Link NOC:Manufacturing Process Technology - Part II Lecture 33 - Effect of various parameters on EDM Process
Link NOC:Manufacturing Process Technology - Part II Lecture 34 - Tool Electrodes and Dielectric fluids and Electron Beam Machining
Link NOC:Manufacturing Process Technology - Part II Lecture 35 - Mechanics of Electron Beam Machining Process
Link NOC:Manufacturing Process Technology - Part II Lecture 36 - Functional Characteristics of EBM Process Edit Lesson
Link NOC:Manufacturing Process Technology - Part II Lecture 37 - Introduction of Laser Beam Machining Process
Link NOC:Manufacturing Process Technology - Part II Lecture 38 - Material removal rate of LBM
Link NOC:Manufacturing Process Technology - Part II Lecture 39 - Heat conduction and Temperature rise during LBM
Link NOC:Manufacturing Process Technology - Part II Lecture 40 - Modelling of LBM processes
Link NOC:Manufacturing Process Technology - Part II Lecture 41 - Metal forming Processes Edit Lesson
Link NOC:Manufacturing Process Technology - Part II Lecture 42 - Yield Criterion used in Metal Forming Processes Edit Lesson
Link NOC:Manufacturing Process Technology - Part II Lecture 43 - Concept of Principal stress, strain
Link NOC:Manufacturing Process Technology - Part II Lecture 44 - Trescas' Yield criteria and Rolling Process
Link NOC:Manufacturing Process Technology - Part II Lecture 45 - Rolling Processes - Part 1
Link NOC:Manufacturing Process Technology - Part II Lecture 46 - Rolling Processes - Part 2
Link NOC:Manufacturing Process Technology - Part II Lecture 47 - Additive Manufacturing Processes
Link NOC:Manufacturing Process Technology - Part II Lecture 48 - Fused Deposition Modeling Process
Link NOC:Basics of Finite Element Analysis - II Lecture 1 - Overview of the Course
Link NOC:Basics of Finite Element Analysis - II Lecture 2 - Fundamental principles
Link NOC:Basics of Finite Element Analysis - II Lecture 3 - Steps followed in FEA
Link NOC:Basics of Finite Element Analysis - II Lecture 4 - Weak Formulation
Link NOC:Basics of Finite Element Analysis - II Lecture 5 - Weak Formulation : Example Problem
Link NOC:Basics of Finite Element Analysis - II Lecture 6 - Assembling element level equations
Link NOC:Basics of Finite Element Analysis - II Lecture 7 - Errors in FEA Solution
Link NOC:Basics of Finite Element Analysis - II Lecture 8 - Measures of Errors in FEA Solution
Link NOC:Basics of Finite Element Analysis - II Lecture 9 - Convergence and Accuracy of Solution - Part I
Link NOC:Basics of Finite Element Analysis - II Lecture 10 - Convergence and Accuracy of Solution - Part II
Link NOC:Basics of Finite Element Analysis - II Lecture 11 - Convergence - Part I
Link NOC:Basics of Finite Element Analysis - II Lecture 12 - Convergence - Part II
Link NOC:Basics of Finite Element Analysis - II Lecture 13 - Numerical Integration Schemes - Part I
Link NOC:Basics of Finite Element Analysis - II Lecture 14 - Numerical Integration Schemes - Part II
Link NOC:Basics of Finite Element Analysis - II Lecture 15 - Approximations - Part I
Link NOC:Basics of Finite Element Analysis - II Lecture 16 - Approximations - Part II
Link NOC:Basics of Finite Element Analysis - II Lecture 17 - Approximations - Part III
Link NOC:Basics of Finite Element Analysis - II Lecture 18 - Gauss Quadrature
Link NOC:Basics of Finite Element Analysis - II Lecture 19 - Gaussian Quadrature review
Link NOC:Basics of Finite Element Analysis - II Lecture 20 - Gaussian Quadrature - Part II
Link NOC:Basics of Finite Element Analysis - II Lecture 21 - Gaussian Quadrature - Part III
Link NOC:Basics of Finite Element Analysis - II Lecture 22 - Newton-Cotes Quadrature
Link NOC:Basics of Finite Element Analysis - II Lecture 23 - Two dimensional FEM problem
Link NOC:Basics of Finite Element Analysis - II Lecture 24 - Two dimensional one variable FEM problem
Link NOC:Basics of Finite Element Analysis - II Lecture 25 - 2D Finite element problems with single variable (Model equation)
Link NOC:Basics of Finite Element Analysis - II Lecture 26 - 2D Finite element problems with single variable (Weak formulation)
Link NOC:Basics of Finite Element Analysis - II Lecture 27 - Elemental level 2D finite element equations
Link NOC:Basics of Finite Element Analysis - II Lecture 28 - Interpolation functions for 2D finite element problems
Link NOC:Basics of Finite Element Analysis - II Lecture 29 - Interpolation functions for linear triangular elements - Part I
Link NOC:Basics of Finite Element Analysis - II Lecture 30 - Interpolation functions for linear triangular elements - Part II
Link NOC:Basics of Finite Element Analysis - II Lecture 31 - Interpolation functions for Triangular and Rectangular elements
Link NOC:Basics of Finite Element Analysis - II Lecture 32 - Evaluation of Stiffness and Force matrices
Link NOC:Basics of Finite Element Analysis - II Lecture 33 - Stiffness and Force matrices for Triangular element
Link NOC:Basics of Finite Element Analysis - II Lecture 34 - Stiffness and Force matrices for Rectangular element
Link NOC:Basics of Finite Element Analysis - II Lecture 35 - Boundary elements for Finite element Equations
Link NOC:Basics of Finite Element Analysis - II Lecture 36 - Boundary integrals for Triangular element
Link NOC:Basics of Finite Element Analysis - II Lecture 37 - Assembly of 2-D finite elements - Part I
Link NOC:Basics of Finite Element Analysis - II Lecture 38 - Assembly of 2-D finite elements - Part II
Link NOC:Basics of Finite Element Analysis - II Lecture 39 - 2-D Heat transfer problems - Part I
Link NOC:Basics of Finite Element Analysis - II Lecture 40 - 2-D Heat transfer problems - Part II
Link NOC:Basics of Finite Element Analysis - II Lecture 41 - Numerical integration schemes for 2-D problems
Link NOC:Basics of Finite Element Analysis - II Lecture 42 - Jacobian and transformation matrix for 2-D problems
Link NOC:Basics of Finite Element Analysis - II Lecture 43 - Numerical Integration Schemes for 2-D Problems : Closure
Link NOC:Basics of Finite Element Analysis - II Lecture 44 - Post-processing
Link NOC:Basics of Finite Element Analysis - II Lecture 45 - Plane Elasticity Problems
Link NOC:Basics of Finite Element Analysis - II Lecture 46 - Plane Elasticity Problems : Development of Weak form
Link NOC:Basics of Finite Element Analysis - II Lecture 47 - Plane Elasticity Problems : Element level equations
Link NOC:Basics of Finite Element Analysis - II Lecture 48 - Plane Elasticity Problems : Closure
Link NOC:Principles of Vibration Control Lecture 1 - Introduction to Vibration control
Link NOC:Principles of Vibration Control Lecture 2 - Strategies and Steps in Vibration Control
Link NOC:Principles of Vibration Control Lecture 3 - Strategies, Active control, Detuning and Decoupling
Link NOC:Principles of Vibration Control Lecture 4 - Viscous damping model
Link NOC:Principles of Vibration Control Lecture 5 - Coulomb and Hysteretic damping model
Link NOC:Principles of Vibration Control Lecture 6 - Energy Dissipation in Structural Materials
Link NOC:Principles of Vibration Control Lecture 7 - Material Selection Criterion against Damping
Link NOC:Principles of Vibration Control Lecture 8 - Design for Enhanced Material Damping
Link NOC:Principles of Vibration Control Lecture 9 - Linear Viscoelastic Materials and Models
Link NOC:Principles of Vibration Control Lecture 10 - Maxwell and 3-Parameter Models
Link NOC:Principles of Vibration Control Lecture 11 - Complex modulus and Applications of VEM
Link NOC:Principles of Vibration Control Lecture 12 - Basics of Dynamic Vibration Absorber
Link NOC:Principles of Vibration Control Lecture 13 - Modelling of Dynamic Vibration Absorber
Link NOC:Principles of Vibration Control Lecture 14 - Proof mass Actuator
Link NOC:Principles of Vibration Control Lecture 15 - Springs for Vibration Isolation
Link NOC:Principles of Vibration Control Lecture 16 - Introduction to Active Vibration Control
Link NOC:Principles of Vibration Control Lecture 17 - Basics of Classical Control System
Link NOC:Principles of Vibration Control Lecture 18 - Basics of State Space Control
Link NOC:Principles of Vibration Control Lecture 19 - Controllability and Observability of System
Link NOC:Principles of Vibration Control Lecture 20 - Full State Feedback Control
Link NOC:Principles of Vibration Control Lecture 21 - SMSS Laboratory Demonstration
Link NOC:Fundamentals of Acoustics Lecture 1 - Lesson 1 - Course Overview
Link NOC:Fundamentals of Acoustics Lecture 2 - Lesson 2 - Introduction
Link NOC:Fundamentals of Acoustics Lecture 3 - Lesson 3 - Nature Of Sound
Link NOC:Fundamentals of Acoustics Lecture 4 - Lesson 4 - The Decibel scale
Link NOC:Fundamentals of Acoustics Lecture 5 - Lesson 5 - Key Terms In Acoustics
Link NOC:Fundamentals of Acoustics Lecture 6 - Lesson 6 - Adding Decibels
Link NOC:Fundamentals of Acoustics Lecture 7 - Lesson 1 - Important Mathematical Concepts-Complex Algebra
Link NOC:Fundamentals of Acoustics Lecture 8 - Lesson 2 - Important Mathematical Concepts-Complex Time Signals
Link NOC:Fundamentals of Acoustics Lecture 9 - Lesson 3 - Important Mathematical Concepts-Transfer Function
Link NOC:Fundamentals of Acoustics Lecture 10 - Lesson 4 - Important Mathematical Concepts-Pole Zero Plot
Link NOC:Fundamentals of Acoustics Lecture 11 - Lesson 5 - Important Mathematical Concepts - Bode Plot For Simple Pole
Link NOC:Fundamentals of Acoustics Lecture 12 - Lesson 6 - Important Mathematical Concepts - Bode Plot For Simple Zero
Link NOC:Fundamentals of Acoustics Lecture 13 - Lesson 1 - Bode Plots (Magnitude) for Complex Transfer Functions
Link NOC:Fundamentals of Acoustics Lecture 14 - Lesson 2 - Momentum Equation for 1-D Sound Propagation
Link NOC:Fundamentals of Acoustics Lecture 15 - Lesson 3 - Continuity Equation for 1-D Sound Propagation
Link NOC:Fundamentals of Acoustics Lecture 16 - Lesson 4 - Gas Law for 1-D Sound Propagation
Link NOC:Fundamentals of Acoustics Lecture 17 - Lesson 5 - 1-D Wave Equation
Link NOC:Fundamentals of Acoustics Lecture 18 - Lesson 6 - Solution for 1-D Wave Equation
Link NOC:Fundamentals of Acoustics Lecture 19 - Lesson 1 - Waveguide
Link NOC:Fundamentals of Acoustics Lecture 20 - Lesson 2 - Transmission Line Equations - Part I
Link NOC:Fundamentals of Acoustics Lecture 21 - Lesson 3 - Transmission Line Equations - Part II
Link NOC:Fundamentals of Acoustics Lecture 22 - Lesson 4 - Transmission Line Equations - Part III
Link NOC:Fundamentals of Acoustics Lecture 23 - Lesson 5 - Transmission Line Equations - Part IV
Link NOC:Fundamentals of Acoustics Lecture 24 - Lesson 6 - Transmission Line Equations - Part V
Link NOC:Fundamentals of Acoustics Lecture 25 - Lesson 1 - Instantaneous Power
Link NOC:Fundamentals of Acoustics Lecture 26 - Lesson 2 - Instantaneous Power in a L-R Circuit
Link NOC:Fundamentals of Acoustics Lecture 27 - Lesson 3 - Power Factor, and Acoustic Power
Link NOC:Fundamentals of Acoustics Lecture 28 - Lesson 4 - Power Flow into an Infinitely Long Tube
Link NOC:Fundamentals of Acoustics Lecture 29 - Lesson 5 - Point Sources of Sound
Link NOC:Fundamentals of Acoustics Lecture 30 - Lesson 6 - Relations for Outward Travelling Spherical Acoustic Wave
Link NOC:Fundamentals of Acoustics Lecture 31 - Lesson 1 - Specific Acoustic Impedance for a Closed Tube
Link NOC:Fundamentals of Acoustics Lecture 32 - Lesson 2 - Specific Acoustic Impedance for an Open Tube and an Infinitely Long Tube
Link NOC:Fundamentals of Acoustics Lecture 33 - Lesson 3 - Specific Acoustic Impedance for a Tube with Imperfect Termination
Link NOC:Fundamentals of Acoustics Lecture 34 - Lesson 4 - Kundt’s Tube
Link NOC:Fundamentals of Acoustics Lecture 35 - Lesson 5 - Volume Velocity
Link NOC:Fundamentals of Acoustics Lecture 36 - Lesson 6 - Comparison of Impedances for a Radially Propagating Wave and a Planar Wave
Link NOC:Fundamentals of Acoustics Lecture 37 - Lesson 1 - Interference of sound sources - Part I
Link NOC:Fundamentals of Acoustics Lecture 38 - Lesson 2 - Interference of sound sources - Part II
Link NOC:Fundamentals of Acoustics Lecture 39 - Lesson 3 - Interference of sound sources - Part III
Link NOC:Fundamentals of Acoustics Lecture 40 - Lesson 4 - Interference of sound sources - Part IV
Link NOC:Fundamentals of Acoustics Lecture 41 - Lesson 5 - Directivity
Link NOC:Fundamentals of Acoustics Lecture 42 - Lesson 6 - Complex power, pressure and velocity for a spherical source
Link NOC:Fundamentals of Acoustics Lecture 43 - Lesson 1 - Noise reduction - Mass Attenuation Method
Link NOC:Fundamentals of Acoustics Lecture 44 - Lesson 2 - Noise Reduction - Pressure Ratio
Link NOC:Fundamentals of Acoustics Lecture 45 - Lesson 3 - Noise Reduction - Velocity of Wall
Link NOC:Fundamentals of Acoustics Lecture 46 - Lesson 4 - 3 Media Problem - Introduction
Link NOC:Fundamentals of Acoustics Lecture 47 - Lesson 5 - 3 Media Problem - Apply Boundary Conditions
Link NOC:Fundamentals of Acoustics Lecture 48 - Lesson 6 - 3 Media Problem - Special cases
Link NOC:Fundamentals of Acoustics Lecture 49 - Lesson 1 - Mufflers
Link NOC:Fundamentals of Acoustics Lecture 50 - Lesson 2 - Designing of Reactive Mufflers
Link NOC:Fundamentals of Acoustics Lecture 51 - Lesson 3 - Designing of Dissipative Mufflers
Link NOC:Fundamentals of Acoustics Lecture 52 - Lesson 4 - Time and Frequency Domain Representation of a Signal
Link NOC:Fundamentals of Acoustics Lecture 53 - Lesson 5 - Fourier Series
Link NOC:Fundamentals of Acoustics Lecture 54 - Lesson 6 - Fourier Series
Link NOC:Fundamentals of Acoustics Lecture 55 - Lesson 1 - Fourier Transform
Link NOC:Fundamentals of Acoustics Lecture 56 - Lesson 2 - Fourier Transform
Link NOC:Fundamentals of Acoustics Lecture 57 - Lesson 3 - Fourier Transform
Link NOC:Fundamentals of Acoustics Lecture 58 - Lesson 4 - Discrete Fourier Transform (DFT)
Link NOC:Fundamentals of Acoustics Lecture 59 - Lesson 5 - Discrete Fourier Transform (DFT)
Link NOC:Fundamentals of Acoustics Lecture 60 - Lesson 6 - Discrete Fourier Transform (DFT)
Link NOC:Fundamentals of Acoustics Lecture 61 - Lesson 1 - Measuring Sound Signals
Link NOC:Fundamentals of Acoustics Lecture 62 - Lesson 2 - Microphones
Link NOC:Fundamentals of Acoustics Lecture 63 - Lesson 3 - Microphones
Link NOC:Fundamentals of Acoustics Lecture 64 - Lesson 4 - Weighting
Link NOC:Fundamentals of Acoustics Lecture 65 - Lesson 5 - Loudness
Link NOC:Fundamentals of Acoustics Lecture 66 - Lesson 6 - Loudness
Link NOC:Fundamentals of Acoustics Lecture 67 - Lesson 1 - Octave Band Analysis - Part I
Link NOC:Fundamentals of Acoustics Lecture 68 - Lesson 2 - Octave Band Analysis – Part II
Link NOC:Fundamentals of Acoustics Lecture 69 - Lesson 3 - Octave Band Analysis – Part III
Link NOC:Fundamentals of Acoustics Lecture 70 - Lesson 4 - Reverberation Time
Link NOC:Fundamentals of Acoustics Lecture 71 - Lesson 5 - Calculation of Reverberation Time and Sound Transmission Class (STC)
Link NOC:Fundamentals of Acoustics Lecture 72 - Lesson 6 - Noise Reduction Coefficient (NRC)
Link NOC:Heat Treatment and Surface Hardening - II Lecture 1 - Recap - I
Link NOC:Heat Treatment and Surface Hardening - II Lecture 2 - Recap - II
Link NOC:Heat Treatment and Surface Hardening - II Lecture 3 - Recap - III
Link NOC:Heat Treatment and Surface Hardening - II Lecture 4 - Determination of Phase Diagram (Experimentally) - I
Link NOC:Heat Treatment and Surface Hardening - II Lecture 5 - Determination of Phase Diagram (Experimentally) - II
Link NOC:Heat Treatment and Surface Hardening - II Lecture 6 - Determination of Phase Diagram (Thermodynamically)
Link NOC:Heat Treatment and Surface Hardening - II Lecture 7 - Effect of pressure on phase transformation temperature and concept of equilibrium between condensed and vapor phase
Link NOC:Heat Treatment and Surface Hardening - II Lecture 8 - Effect of different parameters on heat treatment and concept of saturation vapor pressure with examples
Link NOC:Heat Treatment and Surface Hardening - II Lecture 9 - Title: Formation of ideal solid or liquid solution and (G-X) diagrams for ideal solutions (Part-I)
Link NOC:Heat Treatment and Surface Hardening - II Lecture 10 - G-X diagrams (Part- II) and concept of chemical potential (Micro Sign) from G-X diagrams.
Link NOC:Heat Treatment and Surface Hardening - II Lecture 11 - Concept of common tangent for equilibrium between two phases
Link NOC:Heat Treatment and Surface Hardening - II Lecture 12 - Expressions for equilibrium of two phases - I
Link NOC:Heat Treatment and Surface Hardening - II Lecture 13 - Expressions for equilibrium of two phases - II
Link NOC:Heat Treatment and Surface Hardening - II Lecture 14 - Expressions for equilibrium of two phases - III
Link NOC:Heat Treatment and Surface Hardening - II Lecture 15 - Determining nucleation of phases using G-X plot
Link NOC:Heat Treatment and Surface Hardening - II Lecture 16 - ΔG for nucleation and overall transformation, concepts of solid state transformation including precipitation and Quasi-Chemical Model (QCM)
Link NOC:Heat Treatment and Surface Hardening - II Lecture 17 - Introduction to real solutions and expression of ΔHmix based on the Quasi-Chemical Model (QCM)
Link NOC:Heat Treatment and Surface Hardening - II Lecture 18 - Expression for ΔHmix as a function of interaction energy and mole fraction, based on the QCM - Part I
Link NOC:Heat Treatment and Surface Hardening - II Lecture 19 - Expression for ΔHmix as a function of interaction energy and mole fraction, based on the QCM - Part II
Link NOC:Heat Treatment and Surface Hardening - II Lecture 20 - Graphical representation of ΔGmix, ΔHmix, and -TΔSmix for real solutions and evolution of eutectic phase diagram from the G-X plots
Link NOC:Heat Treatment and Surface Hardening - II Lecture 21 - Effect of ΔHmix on determination of phase diagrams (same crystal structure)
Link NOC:Heat Treatment and Surface Hardening - II Lecture 22 - Effect of ΔHmix on determination of phase diagrams (Continued...)
Link NOC:Heat Treatment and Surface Hardening - II Lecture 23 - Importance of phase diagrams
Link NOC:Heat Treatment and Surface Hardening - II Lecture 24 - Effect of heat treatment on microstructure evolution in steel - I
Link NOC:Heat Treatment and Surface Hardening - II Lecture 25 - Effect of heat treatment on microstructure evolution in steel - II
Link NOC:Heat Treatment and Surface Hardening - II Lecture 26 - Recap of homogeneous and heterogeneous nucleation for solid to solid transformation
Link NOC:Heat Treatment and Surface Hardening - II Lecture 27 - Nucleation rate and its dependence on T (temp. of interest), ΔT, ΔG v and ΔG* and, introduction to growth kinetics
Link NOC:Heat Treatment and Surface Hardening - II Lecture 28 - Growth kinetics (Continued...)
Link NOC:Heat Treatment and Surface Hardening - II Lecture 29 - Growth rate variation with undercooling and kinetics of overall phase transformation
Link NOC:Heat Treatment and Surface Hardening - II Lecture 30 - Implication of Avrami’s equation with example on excel spreadsheet
Link NOC:Heat Treatment and Surface Hardening - II Lecture 31 - Experimental verification of Avrami Equation
Link NOC:Heat Treatment and Surface Hardening - II Lecture 32 - Linear regression (least squares) method to find the value of n and k in Avrami equation
Link NOC:Heat Treatment and Surface Hardening - II Lecture 33 - In this lecture, method to determine the goodness of fit has been explained. Procedure to estimate the values of n and k from experimental data have also been discussed.
Link NOC:Heat Treatment and Surface Hardening - II Lecture 34 - Stereology and quantitative metallography - I
Link NOC:Heat Treatment and Surface Hardening - II Lecture 35 - Stereology and quantitative metallography - II
Link NOC:Heat Treatment and Surface Hardening - II Lecture 36 - Grain size measurements methods
Link NOC:Heat Treatment and Surface Hardening - II Lecture 37 - Statistical tools for analysis and reporting of obtained data with examples
Link NOC:Heat Treatment and Surface Hardening - II Lecture 38 - Evolution of TTT and CCT diagram from f vs. t plots
Link NOC:Heat Treatment and Surface Hardening - II Lecture 39 - TTT, CCT continue and hardenability of steel
Link NOC:Heat Treatment and Surface Hardening - II Lecture 40 - Importance of heat treatment practices in real life (with examples)
Link NOC:Phase Transformation in Materials Lecture 1 - Brief Introduction
Link NOC:Phase Transformation in Materials Lecture 2 - Define Phase, Equilibrium
Link NOC:Phase Transformation in Materials Lecture 3 - Free Energy, Stability of Phases
Link NOC:Phase Transformation in Materials Lecture 4 - Gibbs Free Energy of Binary Solution
Link NOC:Phase Transformation in Materials Lecture 5 - Ideal Solution and Chemical Potential
Link NOC:Phase Transformation in Materials Lecture 6 - Thermodynamics of solid solutions
Link NOC:Phase Transformation in Materials Lecture 7 - G vs X curves
Link NOC:Phase Transformation in Materials Lecture 8 - Solid solutions: Types
Link NOC:Phase Transformation in Materials Lecture 9 - Heterogeneous phase equilibria
Link NOC:Phase Transformation in Materials Lecture 10 - G vs X curves for eutectic system
Link NOC:Phase Transformation in Materials Lecture 11 - G-X plot for peritectic system
Link NOC:Phase Transformation in Materials Lecture 12 - Effect of temperature of solid solubility, Influence of interfaces on Equilibrium
Link NOC:Phase Transformation in Materials Lecture 13 - Introduction of Diffusion
Link NOC:Phase Transformation in Materials Lecture 14 - Mechanism of Diffusion, Fick's I law
Link NOC:Phase Transformation in Materials Lecture 15 - Fick's II law
Link NOC:Phase Transformation in Materials Lecture 16 - Fick's II law (Continued...), Diffusion and Temperature
Link NOC:Phase Transformation in Materials Lecture 17 - Interfacial Free Energy,Solid/Vapor Interface
Link NOC:Phase Transformation in Materials Lecture 18 - Boundaries in single phase solids
Link NOC:Phase Transformation in Materials Lecture 19 - High angle grain boundaries, Equilibrium in poly-crystalline materials, Interphase interfaces in solids
Link NOC:Phase Transformation in Materials Lecture 20 - Interphase interfaces in solids (Continued...)
Link NOC:Phase Transformation in Materials Lecture 21 - CSL Boundaries
Link NOC:Phase Transformation in Materials Lecture 22 - Types of Nucleations
Link NOC:Phase Transformation in Materials Lecture 23 - Homogeneous Nucleation
Link NOC:Phase Transformation in Materials Lecture 24 - Homogeneous Nucleation (Continued...)
Link NOC:Phase Transformation in Materials Lecture 25 - Heterogeneous Nucleation
Link NOC:Phase Transformation in Materials Lecture 26 - Heterogeneous nucleation (Continued...)
Link NOC:Phase Transformation in Materials Lecture 27 - Growth
Link NOC:Phase Transformation in Materials Lecture 28 - Atomic mechanism of growth
Link NOC:Phase Transformation in Materials Lecture 29 - Dendritic Solidification
Link NOC:Phase Transformation in Materials Lecture 30 - Growth rate for dendrite formation
Link NOC:Phase Transformation in Materials Lecture 31 - Alloy solidification
Link NOC:Phase Transformation in Materials Lecture 32 - Alloy solidification (Continued...)
Link NOC:Phase Transformation in Materials Lecture 33 - Eutectic: Solidification
Link NOC:Phase Transformation in Materials Lecture 34 - Eutectic: solidification (Continued...)
Link NOC:Phase Transformation in Materials Lecture 35 - Solidification of casting / ingot
Link NOC:Phase Transformation in Materials Lecture 36 - Precipitation hardenable alloy
Link NOC:Phase Transformation in Materials Lecture 37 - Precipitation age- hardening alloy (Continued...)
Link NOC:Phase Transformation in Materials Lecture 38 - Age hardening alloy
Link NOC:Phase Transformation in Materials Lecture 39 - Eutectoid transformation
Link NOC:Phase Transformation in Materials Lecture 40 - Eutectoid transformation (Continued....)
Link NOC:Phase Transformation in Materials Lecture 41 - Eutectoid transformation in steel (Continued...)
Link NOC:Phase Transformation in Materials Lecture 42 - Martensite
Link NOC:Phase Transformation in Materials Lecture 43 - Martensite (Continued...)
Link NOC:Phase Transformation in Materials Lecture 44 - Martensite (Continued...) and TTT curves
Link NOC:Phase Transformation in Materials Lecture 45 - TTT diagram
Link NOC:Phase Transformation in Materials Lecture 46 - Recovery, Recrystallization and Grain growth
Link NOC:Phase Transformation in Materials Lecture 47 - Recovery
Link NOC:Phase Transformation in Materials Lecture 48 - Recrystallization
Link NOC:Phase Transformation in Materials Lecture 49 - Recrystallization (Continued...)
Link NOC:Phase Transformation in Materials Lecture 50 - Introduction to spinodal decomposition
Link NOC:Manufacturing of Composites Lecture 1 - Introduction to Composites
Link NOC:Manufacturing of Composites Lecture 2 - Matrices
Link NOC:Manufacturing of Composites Lecture 3 - Fiber reinforcements
Link NOC:Manufacturing of Composites Lecture 4 - Fiber reinforcements (Continued...)
Link NOC:Manufacturing of Composites Lecture 5 - Composites properties
Link NOC:Manufacturing of Composites Lecture 6 - Composites testing
Link NOC:Manufacturing of Composites Lecture 7 - Selection of material
Link NOC:Manufacturing of Composites Lecture 8 - Selection of material (Continued...)
Link NOC:Manufacturing of Composites Lecture 9 - Design for Manufacturing
Link NOC:Manufacturing of Composites Lecture 10 - Design for Manufacturing (Continued...)
Link NOC:Manufacturing of Composites Lecture 11 - Composite Manufacturing Processes
Link NOC:Manufacturing of Composites Lecture 12 - Filament winding Processes
Link NOC:Manufacturing of Composites Lecture 13 - Resin transfer moulding
Link NOC:Manufacturing of Composites Lecture 14 - Pultrusion
Link NOC:Manufacturing of Composites Lecture 15 - Compression Moulding Process
Link NOC:Manufacturing of Composites Lecture 16 - Vacuum Impregnation Methods
Link NOC:Manufacturing of Composites Lecture 17 - Stacking of Composites
Link NOC:Manufacturing of Composites Lecture 18 - Thermoplastic Composites Manufacturing Processes - Part 1
Link NOC:Manufacturing of Composites Lecture 19 - Thermoplastic Composites Manufacturing Processes - Part 2 (Continued...)
Link NOC:Manufacturing of Composites Lecture 20 - Non-destructive testing methods for composite materials
Link NOC:Manufacturing of Composites Lecture 21 - Metal Matrix Composites
Link NOC:Manufacturing of Composites Lecture 22 - Metal Matrix Composites applications (Continued...)
Link NOC:Manufacturing of Composites Lecture 23 - Processing of Metal Matrix Composites - Part 1
Link NOC:Manufacturing of Composites Lecture 24 - Processing of Metal Matrix Composites - Part 2
Link NOC:Manufacturing of Composites Lecture 25 - Ceramic Matrix Composites
Link NOC:Manufacturing of Composites Lecture 26 - Fabrication of Ceramic Matrix Composites (CMCs)
Link NOC:Manufacturing of Composites Lecture 27 - Carbon - Carbon Composites
Link NOC:Manufacturing of Composites Lecture 28 - Polymer Matrix and Nano Composites
Link NOC:Manufacturing of Composites Lecture 29 - Machining of Composites
Link NOC:Manufacturing of Composites Lecture 30 - Repair of Composites
Link NOC:Manufacturing of Composites Lecture 31 - Manufacturing Processes: Selection and Considerations
Link NOC:Applied Ergonomics Lecture 1
Link NOC:Applied Ergonomics Lecture 2
Link NOC:Applied Ergonomics Lecture 3
Link NOC:Applied Ergonomics Lecture 4
Link NOC:Applied Ergonomics Lecture 5
Link NOC:Applied Ergonomics Lecture 6
Link NOC:Applied Ergonomics Lecture 7
Link NOC:Applied Ergonomics Lecture 8
Link NOC:Applied Ergonomics Lecture 9
Link NOC:Applied Ergonomics Lecture 10
Link NOC:Applied Ergonomics Lecture 11
Link NOC:Applied Ergonomics Lecture 12
Link NOC:Applied Ergonomics Lecture 13
Link NOC:Applied Ergonomics Lecture 14
Link NOC:Applied Ergonomics Lecture 15
Link NOC:Applied Ergonomics Lecture 16
Link NOC:Applied Ergonomics Lecture 17
Link NOC:Applied Ergonomics Lecture 18
Link NOC:Applied Ergonomics Lecture 19
Link NOC:Applied Ergonomics Lecture 20
Link NOC:Applied Ergonomics Lecture 21
Link NOC:Applied Ergonomics Lecture 22
Link NOC:Applied Ergonomics Lecture 23
Link NOC:Applied Ergonomics Lecture 24
Link NOC:Applied Ergonomics Lecture 25
Link NOC:Applied Ergonomics Lecture 26
Link NOC:Applied Ergonomics Lecture 27
Link NOC:Applied Ergonomics Lecture 28
Link NOC:Applied Ergonomics Lecture 29
Link NOC:Applied Ergonomics Lecture 30 - Work Systems
Link NOC:Applied Ergonomics Lecture 31 - Measures of Productivity
Link NOC:Applied Ergonomics Lecture 32 - Productivity Measurement
Link NOC:Applied Ergonomics Lecture 33 - Work Study
Link NOC:Applied Ergonomics Lecture 34 - Motion and time study
Link NOC:Applied Ergonomics Lecture 35 - Motion Study
Link NOC:Applied Ergonomics Lecture 36 - Flow Diagram
Link NOC:Applied Ergonomics Lecture 37 - Time Study
Link NOC:Applied Ergonomics Lecture 38 - Manual Work System
Link NOC:Applied Ergonomics Lecture 39 - Worker Machine Systems
Link NOC:Applied Ergonomics Lecture 40 - Industrial accidents
Link NOC:Applied Ergonomics Lecture 41 - Human Errors
Link NOC:Applied Ergonomics Lecture 42 - Workers compensation laws
Link NOC:Applied Ergonomics Lecture 43 - Organisation Ergonomics - Part 1
Link NOC:Applied Ergonomics Lecture 44 - Organisation Ergonomics - Part 2
Link NOC:Applied Ergonomics Lecture 45 - Job Satisfaction
Link NOC:Applied Ergonomics Lecture 46 - Worker behavior
Link NOC:Applied Ergonomics Lecture 47 - Job ranking Techniques
Link NOC:Applied Ergonomics Lecture 48 - Waging System
Link NOC:Applied Ergonomics Lecture 49 - Biomechanics - 1
Link NOC:Applied Ergonomics Lecture 50 - Biomechanics - 2
Link NOC:Applied Ergonomics Lecture 51 - Applications of Biomechanics
Link NOC:Applied Ergonomics Lecture 52 - Problem solving - 1
Link NOC:Applied Ergonomics Lecture 53 - Problem solving - 2
Link NOC:Applied Ergonomics Lecture 54 - Problem solving - 3
Link NOC:Sustainability through Green Manufacturing Systems - An Applied Approach Lecture 1 - Basics of Production
Link NOC:Sustainability through Green Manufacturing Systems - An Applied Approach Lecture 2 - Basics of Production (Continued...)
Link NOC:Sustainability through Green Manufacturing Systems - An Applied Approach Lecture 3 - Sustainability and Manufacturing
Link NOC:Sustainability through Green Manufacturing Systems - An Applied Approach Lecture 4 - Introduction to Simulation
Link NOC:Sustainability through Green Manufacturing Systems - An Applied Approach Lecture 5 - Introduction to Simulation (Continued...)
Link NOC:Sustainability through Green Manufacturing Systems - An Applied Approach Lecture 6 - Basic Statistical Concepts for Sustainable Manufacturing Analysis
Link NOC:Sustainability through Green Manufacturing Systems - An Applied Approach Lecture 7 - Basic Statistical Concepts for Sustainable Manufacturing Analysis (Continued...)
Link NOC:Sustainability through Green Manufacturing Systems - An Applied Approach Lecture 8 - Life Cycle Assessment
Link NOC:Sustainability through Green Manufacturing Systems - An Applied Approach Lecture 9 - Life Cycle Assessment Elements
Link NOC:Sustainability through Green Manufacturing Systems - An Applied Approach Lecture 10 - Life Cycle Assessment Procedure
Link NOC:Sustainability through Green Manufacturing Systems - An Applied Approach Lecture 11 - Life Cycle Assessment (Continued...)
Link NOC:Sustainability through Green Manufacturing Systems - An Applied Approach Lecture 12 - Sustainability Framework
Link NOC:Sustainability through Green Manufacturing Systems - An Applied Approach Lecture 13 - Basic Modeling Concepts for Factory Simulation
Link NOC:Sustainability through Green Manufacturing Systems - An Applied Approach Lecture 14 - Basic Modeling Concepts for Factory Simulation (Continued...)
Link NOC:Sustainability through Green Manufacturing Systems - An Applied Approach Lecture 15 - Green Manufacturing Modelling: Metrics for Green Manufacturing
Link NOC:Sustainability through Green Manufacturing Systems - An Applied Approach Lecture 16 - Green Manufacturing Modelling (Continued...) Indices for Green Manufacturing
Link NOC:Sustainability through Green Manufacturing Systems - An Applied Approach Lecture 17 - Green Manufacturing Modelling (Continued...) Developing Green Manufacturing System
Link NOC:Sustainability through Green Manufacturing Systems - An Applied Approach Lecture 18 - Productivity and Sustainability
Link NOC:Sustainability through Green Manufacturing Systems - An Applied Approach Lecture 19 - Productivity and Sustainability (Continued...)
Link NOC:Sustainability through Green Manufacturing Systems - An Applied Approach Lecture 20 - Green Manufacturing Techniques
Link NOC:Sustainability through Green Manufacturing Systems - An Applied Approach Lecture 21 - Green Manufacturing Techniques (Continued...)
Link NOC:Sustainability through Green Manufacturing Systems - An Applied Approach Lecture 22 - Renewable Sources of Energy
Link NOC:Sustainability through Green Manufacturing Systems - An Applied Approach Lecture 23 - Renewable Sources of Energy (Continued...)
Link NOC:Sustainability through Green Manufacturing Systems - An Applied Approach Lecture 24 - Renewable energy in India and Industrial Symbiosis
Link NOC:Sustainability through Green Manufacturing Systems - An Applied Approach Lecture 25 - Demonstration of Various Instruments Used for Green Machining
Link NOC:Sustainability through Green Manufacturing Systems - An Applied Approach Lecture 26 - Laboratory demonstration
Link NOC:Sustainability through Green Manufacturing Systems - An Applied Approach Lecture 27 - Developing a Smart Factory
Link NOC:Sustainability through Green Manufacturing Systems - An Applied Approach Lecture 28 - Demonstration on PLM Software
Link NOC:Sustainability through Green Manufacturing Systems - An Applied Approach Lecture 29 - Developing a Smart Factory (Continued...)
Link NOC:Sustainability through Green Manufacturing Systems - An Applied Approach Lecture 30 - Sustainability and Green Manufacturing System
Link NOC:Noise Management and Control Lecture 1 - Course Overview
Link NOC:Noise Management and Control Lecture 2 - Introduction
Link NOC:Noise Management and Control Lecture 3 - Nature Of Sound
Link NOC:Noise Management and Control Lecture 4 - Beats
Link NOC:Noise Management and Control Lecture 5 - The Decibel Scale
Link NOC:Noise Management and Control Lecture 6 - Key Terms in Acoustics
Link NOC:Noise Management and Control Lecture 7 - Decibel Scale - Part 1
Link NOC:Noise Management and Control Lecture 8 - Decibel Scale - Part 2
Link NOC:Noise Management and Control Lecture 9 - Decibel Scale - Part 3
Link NOC:Noise Management and Control Lecture 10 - Complex Numbers
Link NOC:Noise Management and Control Lecture 11 - Complex Time Function
Link NOC:Noise Management and Control Lecture 12 - Linear Systems
Link NOC:Noise Management and Control Lecture 13 - Transfer Functions
Link NOC:Noise Management and Control Lecture 14 - Introduction to One Dimensional Wave Equation
Link NOC:Noise Management and Control Lecture 15 - The Momentum Equation
Link NOC:Noise Management and Control Lecture 16 - The Continuity Equation and The Gas Law
Link NOC:Noise Management and Control Lecture 17 - One Dimensional Wave Equation
Link NOC:Noise Management and Control Lecture 18 - Solution for One Dimensional Wave Equation
Link NOC:Noise Management and Control Lecture 19 - Transmission Line Equations
Link NOC:Noise Management and Control Lecture 20 - One Dimensional Example Problems
Link NOC:Noise Management and Control Lecture 21 - Impedance
Link NOC:Noise Management and Control Lecture 22 - Pressure Wave Travels in a Closed Tube
Link NOC:Noise Management and Control Lecture 23 - Standing Wave Formation in a Closed Tube With Rigid Termination
Link NOC:Noise Management and Control Lecture 24 - Pressure Wave Travels in an Open Tube
Link NOC:Noise Management and Control Lecture 25 - 1-D sound wave propagation: Kundt’s tube - I
Link NOC:Noise Management and Control Lecture 26 - 1-D sound wave propagation: Kundt’s tube - II
Link NOC:Noise Management and Control Lecture 27 - Radially propagating sound waves in spherical coordinate system - I
Link NOC:Noise Management and Control Lecture 28 - Radially propagating sound waves in spherical coordinate system - II
Link NOC:Noise Management and Control Lecture 29 - Complex impedance for radially propagating sound waves in spherical coordinate system
Link NOC:Noise Management and Control Lecture 30 - Volume velocity - I
Link NOC:Noise Management and Control Lecture 31 - Interference of 1-D spherically propagating sound waves - I
Link NOC:Noise Management and Control Lecture 32 - Interference of 1-D spherically propagating sound waves - II
Link NOC:Noise Management and Control Lecture 33 - Noise sources and introduction to microphones
Link NOC:Noise Management and Control Lecture 34 - Classification of microphones - I
Link NOC:Noise Management and Control Lecture 35 - Classification of microphones - II
Link NOC:Noise Management and Control Lecture 36 - Classification of microphones - III
Link NOC:Noise Management and Control Lecture 37 - Microphone Parameters
Link NOC:Noise Management and Control Lecture 38 - Understanding microphone specifications
Link NOC:Noise Management and Control Lecture 39 - Noise Source: Terminology
Link NOC:Noise Management and Control Lecture 40 - Noise Source: Sound Attenuation
Link NOC:Noise Management and Control Lecture 41 - Noise Source: Sound Pressure Level due to a noise source located outdoors
Link NOC:Noise Management and Control Lecture 42 - Noise Source: Role of reflecting surfaces
Link NOC:Noise Management and Control Lecture 43 - Noise Source: Sound Pressure Level due to a noise source located indoors - Part I
Link NOC:Noise Management and Control Lecture 44 - Noise Source: Sound Pressure Level due to a noise source located indoors - Part II
Link NOC:Noise Management and Control Lecture 45 - Measuring Sound Power Level - Understanding standard octave bands
Link NOC:Noise Management and Control Lecture 46 - Measuring Sound Power Level - Fan noise - Part I
Link NOC:Noise Management and Control Lecture 47 - Measuring Sound Power Level - Fan noise - Part II
Link NOC:Noise Management and Control Lecture 48 - Measuring Sound Power Level - Fan noise - Part III
Link NOC:Noise Management and Control Lecture 49 - Weighting
Link NOC:Noise Management and Control Lecture 50 - Noise coming from Motors
Link NOC:Noise Management and Control Lecture 51 - Noise coming from Motors and Pumps
Link NOC:Noise Management and Control Lecture 52 - Noise coming from Pump and Motor Working Simultaneously
Link NOC:Noise Management and Control Lecture 53 - Noise coming from Compressors
Link NOC:Noise Management and Control Lecture 54 - Example problems regarding Noise coming from Compressor
Link NOC:Noise Management and Control Lecture 55 - Noise Spread Mechanisms
Link NOC:Noise Management and Control Lecture 56 - Reverberation time
Link NOC:Noise Management and Control Lecture 57 - Reverberation time example problem
Link NOC:Noise Management and Control Lecture 58 - Noise from Adjacent Room
Link NOC:Noise Management and Control Lecture 59 - Acoustic Enclosures
Link NOC:Noise Management and Control Lecture 60 - Acoustic Enclosures - Example Problems
Link NOC:Noise Management and Control Lecture 61 - Large acoustical enclosures - I
Link NOC:Noise Management and Control Lecture 62 - Large acoustical enclosures - II
Link NOC:Noise Management and Control Lecture 63 - Acoustic barriers - I
Link NOC:Noise Management and Control Lecture 64 - Acoustic barriers - II
Link NOC:Noise Management and Control Lecture 65 - Acoustic barriers - III
Link NOC:Noise Management and Control Lecture 66 - Helmholtz resonator - I
Link NOC:Noise Management and Control Lecture 67 - Silencers
Link NOC:Noise Management and Control Lecture 68 - Side Branched Mufflers - I
Link NOC:Noise Management and Control Lecture 69 - Side Branched Mufflers - II
Link NOC:Noise Management and Control Lecture 70 - Side Branched Mufflers - III
Link NOC:Noise Management and Control Lecture 71 - Expansion Chamber Muffler
Link NOC:Noise Management and Control Lecture 72 - Single Expansion Chamber Muffler
Link NOC:Design Practice Lecture 1 - Brief introduction of Design systems
Link NOC:Design Practice Lecture 2 - Product Developement
Link NOC:Design Practice Lecture 3 - Basic protocols of industrial design
Link NOC:Design Practice Lecture 4 - Design thinking and innovation
Link NOC:Design Practice Lecture 5 - Brain Storming
Link NOC:Design Practice Lecture 6 - Design prototyping
Link NOC:Design Practice Lecture 7 - Generic Phases of the Design
Link NOC:Design Practice Lecture 8 - Configurational Design Aspects
Link NOC:Design Practice Lecture 9 - Concurrent Engineering
Link NOC:Design Practice Lecture 10 - Concurrent Engineering - 2
Link NOC:Design Practice Lecture 11 - Concurrent Engineering Approaches
Link NOC:Design Practice Lecture 12 - Concurrent Engineering Approaches - 2
Link NOC:Design Practice Lecture 13 - Benefits of concurrent engineering
Link NOC:Design Practice Lecture 14 - Concurrent engineering environment influencing dimensions
Link NOC:Design Practice Lecture 15 - Concurrent engineering environment influencing dimensions - 2
Link NOC:Design Practice Lecture 16 - Program and product Interface dimensions in Concurrent engineering
Link NOC:Design Practice Lecture 17 - Product Developement Methodology
Link NOC:Design Practice Lecture 18 - Elements of concurrent engineering: Optimization in product development
Link NOC:Design Practice Lecture 19 - Business relationships in concurrent engineering
Link NOC:Design Practice Lecture 20 - Organizational elements in concurrent engineering
Link NOC:Design Practice Lecture 21 - Techniques for the Implementation of concurrent engineering environment
Link NOC:Design Practice Lecture 22 - Average quality loss
Link NOC:Design Practice Lecture 23 - Robustness in Design
Link NOC:Design Practice Lecture 24 - Robustness in Design - 2
Link NOC:Design Practice Lecture 25 - Material selection in Engineering design
Link NOC:Design Practice Lecture 26 - Material selection in Engineering Design.
Link NOC:Design Practice Lecture 27 - Basic steps in Material Selection Process
Link NOC:Design Practice Lecture 28 - Design of Work Systems
Link NOC:Design Practice Lecture 29 - Motion Study
Link NOC:Design Practice Lecture 30 - Axiomatic Design
Link NOC:Design Practice Lecture 31 - Introduction to group technology
Link NOC:Design Practice Lecture 32 - Failure Mode Effect Analysis
Link NOC:Introduction to Composites Lecture 1 - Definition of the composite materials
Link NOC:Introduction to Composites Lecture 2 - Composite materials and its applications
Link NOC:Introduction to Composites Lecture 3 - Classification of the composite materials
Link NOC:Introduction to Composites Lecture 4 - What Makes fiber so strong?
Link NOC:Introduction to Composites Lecture 5 - Advantages and limitations of composite materials
Link NOC:Introduction to Composites Lecture 6 - Properties of the composite materials.
Link NOC:Introduction to Composites Lecture 7 - Different Types of Fiber
Link NOC:Introduction to Composites Lecture 8 - Production process and different types of Glass Fiber
Link NOC:Introduction to Composites Lecture 9 - Graphite Fibers
Link NOC:Introduction to Composites Lecture 10 - Aramid and Boron Fibers
Link NOC:Introduction to Composites Lecture 11 - Ceramic Fibers
Link NOC:Introduction to Composites Lecture 12 - Matrix - Properties and classifications
Link NOC:Introduction to Composites Lecture 13 - Polymers as matrix material and its classification
Link NOC:Introduction to Composites Lecture 14 - Thermosets and thermoplastics
Link NOC:Introduction to Composites Lecture 15 - Properties of thermosets and thermoplastics
Link NOC:Introduction to Composites Lecture 16 - Thermoset materials and its production methods
Link NOC:Introduction to Composites Lecture 17 - Thermoplastics and metals as matrix materials
Link NOC:Introduction to Composites Lecture 18 - Ceramic and carbon matrices
Link NOC:Introduction to Composites Lecture 19 - What is a good fabrication process of a composite?
Link NOC:Introduction to Composites Lecture 20 - Fabrication of Thermoset Composites
Link NOC:Introduction to Composites Lecture 21 - Hand Lay-Up Process
Link NOC:Introduction to Composites Lecture 22 - Bag Molding Process
Link NOC:Introduction to Composites Lecture 23 - Resin Transfer Molding Process
Link NOC:Introduction to Composites Lecture 24 - Fabrication of Thermoplastic, Metal and Ceramic Matrix based Composites
Link NOC:Introduction to Composites Lecture 25 - Terminologies and basic concepts
Link NOC:Introduction to Composites Lecture 26 - Orthotropic material
Link NOC:Introduction to Composites Lecture 27 - Modeling of unidirectional composites
Link NOC:Introduction to Composites Lecture 28 - Composite density as a function of mass fraction and volume fraction
Link NOC:Introduction to Composites Lecture 29 - Calculation of longitudinal modulus for unidirectional composites
Link NOC:Introduction to Composites Lecture 30 - Failure modes of unidirectional composite
Link NOC:Introduction to Composites Lecture 31 - Failure of Unidirectional Lamina
Link NOC:Introduction to Composites Lecture 32 - Minimum Volume Fraction and Critical Volume Fraction
Link NOC:Introduction to Composites Lecture 33 - Example based on Failure of Composite Material
Link NOC:Introduction to Composites Lecture 34 - Example based on Minimum and Critical Volume Fraction
Link NOC:Introduction to Composites Lecture 35 - Transverse Modulus of Unidirectional Composite
Link NOC:Introduction to Composites Lecture 36 - Halpin-Tsai Relation for Transverse Modulus
Link NOC:Introduction to Composites Lecture 37 - Transverse modulus of unidirectional composites
Link NOC:Introduction to Composites Lecture 38 - Transverse strength of unidirectional composites
Link NOC:Introduction to Composites Lecture 39 - Poisson’s ratio of unidirectional composites
Link NOC:Introduction to Composites Lecture 40 - Failure modes of composite materials
Link NOC:Introduction to Composites Lecture 41 - Failure modes of composite materials
Link NOC:Introduction to Composites Lecture 42 - Other properties
Link NOC:Introduction to Composites Lecture 43 - Concept of Tensor
Link NOC:Introduction to Composites Lecture 44 - Stress Transformation (Two Dimensional)
Link NOC:Introduction to Composites Lecture 45 - Analysis of Specially Orthotropic Lamina
Link NOC:Introduction to Composites Lecture 46 - Analysis of Generally Orthotropic Lamina
Link NOC:Introduction to Composites Lecture 47 - Transformation of Engineering Constants - Part I
Link NOC:Introduction to Composites Lecture 48 - Transformation of Engineering Constants - Part II
Link NOC:Introduction to Composites Lecture 49 - Variation of elastic constants with respect to fiber orientation for generally orthotropic lamina
Link NOC:Introduction to Composites Lecture 50 - Generally orthotropic lamina
Link NOC:Introduction to Composites Lecture 51 - Generalized Hooke’s law for anisotropic materials
Link NOC:Introduction to Composites Lecture 52 - Generalized Hooke’s law for anisotropic materials
Link NOC:Introduction to Composites Lecture 53 - Elastic constants for Specially orthotropic materials
Link NOC:Introduction to Composites Lecture 54 - Elastic constants for Specially orthotropic materials in plane stress
Link NOC:Introduction to Composites Lecture 55 - Relation Betweeen Engineering Constants and Elements of Stiffness and Compliance Matrices - Part I
Link NOC:Introduction to Composites Lecture 56 - Relation Betweeen Engineering Constants and Elements of Stiffness and Compliance Matrices - Part II
Link NOC:Introduction to Composites Lecture 57 - Stress Strain Relations for A Lamina With Arbitrary Orientation - Part I
Link NOC:Introduction to Composites Lecture 58 - Stress- Strain Relation for A Lamina With Arbitrary Orientation - Part II
Link NOC:Introduction to Composites Lecture 59 - Strength of An Orthotropic Lamina
Link NOC:Introduction to Composites Lecture 60 - Importance of Sign of Shear Stress in context of Strength of A Unidirectional Lamina
Link NOC:Introduction to Composites Lecture 61 - Strain displacement relations for a laminate
Link NOC:Introduction to Composites Lecture 62 - Stress-strain relations for individual layers of a laminate
Link NOC:Introduction to Composites Lecture 63 - Resultant forces and moments
Link NOC:Introduction to Composites Lecture 64 - Relations between force and moment resultants and mid-plane strains and curvatures
Link NOC:Introduction to Composites Lecture 65 - Physical significance of extensional stiffness matrix [A], coupling matrix [B] and bending stiffness matrix [D] matrices
Link NOC:Introduction to Composites Lecture 66 - Lamination sequence (standard laminate code)
Link NOC:Introduction to Composites Lecture 67 - Calculation of A, B and D Matrices.
Link NOC:Introduction to Composites Lecture 68 - Simplification of Stiffness Matrices - Part I
Link NOC:Introduction to Composites Lecture 69 - Simplification of Stiffness Matrices - Part II
Link NOC:Introduction to Composites Lecture 70 - Quasi-Isotropic Laminates - Part I
Link NOC:Introduction to Composites Lecture 71 - Quasi-Isotropic Laminates - Part II
Link NOC:Introduction to Composites Lecture 72 - Failure of Composite Laminates
Link NOC:Product Design and Manufacturing Lecture 1 - Introduction to product design and Manufacturing
Link NOC:Product Design and Manufacturing Lecture 2 - Introduction to product design and Manufacturing (Continued...)
Link NOC:Product Design and Manufacturing Lecture 3 - Fundamentals of Manufacturing towards Product Development
Link NOC:Product Design and Manufacturing Lecture 4 - Fundamentals of Manufacturing towards Product Development (Continued...)
Link NOC:Product Design and Manufacturing Lecture 5 - Engineering Design Process
Link NOC:Product Design and Manufacturing Lecture 6 - Product design morphology
Link NOC:Product Design and Manufacturing Lecture 7 - Product characteristics
Link NOC:Product Design and Manufacturing Lecture 8 - Elements of Visual Design - Part 1
Link NOC:Product Design and Manufacturing Lecture 9 - Elements of Visual Design - Part 2
Link NOC:Product Design and Manufacturing Lecture 10 - Elements of Visual Design - Part 3
Link NOC:Product Design and Manufacturing Lecture 11 - Translating Customer Needs
Link NOC:Product Design and Manufacturing Lecture 12 - Translating Customer Needs
Link NOC:Product Design and Manufacturing Lecture 13 - Value Engineering, an introduction
Link NOC:Product Design and Manufacturing Lecture 14 - Value Engineering Methodology - Part 1
Link NOC:Product Design and Manufacturing Lecture 15 - Value Engineering Methodology - Part 2, FAST diagramming
Link NOC:Product Design and Manufacturing Lecture 16 - Value Engineering Methodology - Part 3
Link NOC:Product Design and Manufacturing Lecture 17 - Value Engineering, case study
Link NOC:Product Design and Manufacturing Lecture 18 - Materials Selection - Part 1
Link NOC:Product Design and Manufacturing Lecture 19 - Materials Selection - Part 2
Link NOC:Product Design and Manufacturing Lecture 20 - Manufacturing Process Selection - Part 1
Link NOC:Product Design and Manufacturing Lecture 21 - Manufacturing Process Selection - Part 2
Link NOC:Product Design and Manufacturing Lecture 22 - Product Costing
Link NOC:Product Design and Manufacturing Lecture 23 - Design for Manufacturing
Link NOC:Product Design and Manufacturing Lecture 24 - Design for Assembly
Link NOC:Product Design and Manufacturing Lecture 25 - Design for Maintenance
Link NOC:Product Design and Manufacturing Lecture 26 - Design for Environment - Part 1
Link NOC:Product Design and Manufacturing Lecture 27 - Design for Environment - Part 2
Link NOC:Product Design and Manufacturing Lecture 28 - Quality Control
Link NOC:Product Design and Manufacturing Lecture 29 - Quality Assurance
Link NOC:Product Design and Manufacturing Lecture 30 - Patent - Part 1
Link NOC:Product Design and Manufacturing Lecture 31 - Patent - Part 2
Link NOC:Product Design and Manufacturing Lecture 32 - Creativity techniques - Part 1
Link NOC:Product Design and Manufacturing Lecture 33 - Creativity techniques - Part 2
Link NOC:Product Design and Manufacturing Lecture 34 - Frugal Innovation
Link NOC:Product Design and Manufacturing Lecture 35 - Rapid Prototyping, an introduction
Link NOC:Product Design and Manufacturing Lecture 36 - Rapid Prototyping Modelling
Link NOC:Product Design and Manufacturing Lecture 37 - Rapid Prototyping Processes - Part 1
Link NOC:Product Design and Manufacturing Lecture 38 - Rapid Prototyping Processes - Part 2
Link NOC:Product Design and Manufacturing Lecture 39 - Laboratory demonstration; 3D printing - Part 1
Link NOC:Product Design and Manufacturing Lecture 40 - Laboratory demonstration; 3D printing - Part 2
Link NOC:Product Design and Manufacturing Lecture 41 - Laboratory demonstration; 3D printing - Part 3
Link NOC:Product Design and Manufacturing Lecture 42 - Plant Layout Planning - Part 1
Link NOC:Product Design and Manufacturing Lecture 43 - Plant Layout Planning - Part 2
Link NOC:Product Design and Manufacturing Lecture 44 - Laboratory demonstration; Plant Simulation - Part 1
Link NOC:Product Design and Manufacturing Lecture 45 - Laboratory demonstration; Plant Simulation - Part 2
Link NOC:Product Design and Manufacturing Lecture 46 - Laboratory demonstration; Plant Simulation - Part 3
Link NOC:Product Design and Manufacturing Lecture 47 - Computer Integrated Manufacturing - Part 1
Link NOC:Product Design and Manufacturing Lecture 48 - Computer Integrated Manufacturing - Part 2
Link NOC:Product Design and Manufacturing Lecture 49 - Reverse Engineering
Link NOC:Product Design and Manufacturing Lecture 50 - Managing Competitiveness
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 1 - Basic Thermodynamics: System, phase and components
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 2 - Basic Thermodynamics: Gibbs Free Energy
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 3 - Phase Stability in Materials
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 4 - Effects of Temperature and Pressure on Single Components System
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 5 - Clausisus-Clapeyron Equation and Binary Solution
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 6 - Calculation of Configurational Entropy
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 7 - Chemical Potential
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 8 - Phase Stability in Binary Solution
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 9 - Activity and Thermodynamics of Regular Solution
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 10 - Thermodynamic of Real Solution
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 11 - Free Energy Curves and Various Systems
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 12 - Solubility Limits 2-phase Co-existence
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 13 - Phase Diagram Formation: Binary Solution
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 14 - Phase Diagram Construction: Partial Soluble Phases
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 15 - Phase Diagram Construction: Eutectic Phase
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 16 - Intermetallics and Phase Diagrams
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 17 - Phase Rule
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 18 - Gibb's Phase Rule: Unary and Binary System
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 19 - Gibb's Phase Rule: Eutectic Point and Lever Rule
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 20 - Phase Fraction Calculation in a Phase Diagram
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 21 - Microstructure evolution in Cu-Ni binary system
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 22 - Microstructure evolution (Continued...)
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 23 - Phase evolution in hypoeutectic region
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 24 - Phase evolution at Eutectic point
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 25 - Phase Diagrams of Cu-Ni and Al-Si
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 26 - Phase Diagrams of Pb-Sn and Fe-C
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 27 - Phase Diagram of Fe-C (Continued...)
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 28 - Fe-C Phase Diagram (Continued...)
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 29 - Fe-C Phase Diagram (Continued...)
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 30 - Phase Diagrams for non-Ferrous Alloys
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 31 - Method of measuring Phase diagram
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 32 - Methods of measuring phase diagram (Continued...)
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 33 - Methods of measuring phase diagram: PbMg2
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 34 - Ternary Phase Diagram
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 35 - Ternay Phase Diagram (Continued...)
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 36 - Ternary system with two phases
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 37 - Ternary system with three phases
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 38 - Ternary phase diagram with 4 phases
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 39 - Application of Phases diagrams
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 40 - Summary of Course
Link NOC:Advanced Composites Lecture 1 - Basics of composite materials
Link NOC:Advanced Composites Lecture 2 - Different type of Fibers
Link NOC:Advanced Composites Lecture 3 - Properties of single layer continuous fiber composites
Link NOC:Advanced Composites Lecture 4 - Properties of single layer continuous fiber composites
Link NOC:Advanced Composites Lecture 5 - Strength of single layer continuous fiber composites
Link NOC:Advanced Composites Lecture 6 - Strength of single layer continuous fiber composites
Link NOC:Advanced Composites Lecture 7 - Concept of Tensor
Link NOC:Advanced Composites Lecture 8 - General Anisotropic Material
Link NOC:Advanced Composites Lecture 9 - Specially Orthotropic Material
Link NOC:Advanced Composites Lecture 10 - Specially Orthotropic Material Under Plane Stress
Link NOC:Advanced Composites Lecture 11 - Stress and Strain Transformation
Link NOC:Advanced Composites Lecture 12 - Transformation of Stiffness and Compliance Matrices
Link NOC:Advanced Composites Lecture 13 - Strain - Displacement relations
Link NOC:Advanced Composites Lecture 14 - Relations for stress and strain along thickness of laminate
Link NOC:Advanced Composites Lecture 15 - Stress - Strain variation along Laminate thickness
Link NOC:Advanced Composites Lecture 16 - Force and Moment resultant - Part 1
Link NOC:Advanced Composites Lecture 17 - Force and Moment resultant - Part 2
Link NOC:Advanced Composites Lecture 18 - Important observation related to [A], [B] and [D] matrices
Link NOC:Advanced Composites Lecture 19 - Quasi-Isotropic Laminates
Link NOC:Advanced Composites Lecture 20 - Maximum Stress Theory
Link NOC:Advanced Composites Lecture 21 - Maximum Strain Theory
Link NOC:Advanced Composites Lecture 22 - Importance of Sign of Shear Stress.
Link NOC:Advanced Composites Lecture 23 - Failure Initiation in Composite Laminate.
Link NOC:Advanced Composites Lecture 24 - Progressive Failure of Laminae in A Laminate
Link NOC:Advanced Composites Lecture 25 - Governing equations for composite plates
Link NOC:Advanced Composites Lecture 26 - Force equilibrium in Z-direction
Link NOC:Advanced Composites Lecture 27 - Moment equilibrium equations
Link NOC:Advanced Composites Lecture 28 - Equilibrium equations for composite plates
Link NOC:Advanced Composites Lecture 29 - Boundary conditions associated with different edges of composite plate - Part 1
Link NOC:Advanced Composites Lecture 30 - Boundary conditions associated with different edges of composite plate - Part 2
Link NOC:Advanced Composites Lecture 31 - Generalized Solution for Semi-Infinite Plate - Part I
Link NOC:Advanced Composites Lecture 32 - Generalized Solution for Semi-Infinite Plate - Part II
Link NOC:Advanced Composites Lecture 33 - Particular Solution for Semi-Infinite Plate: Case A
Link NOC:Advanced Composites Lecture 34 - Particular Solution for Semi-Infinite Plate: Case B
Link NOC:Advanced Composites Lecture 35 - Particular Solution for Semi-Infinite Plate: Case C
Link NOC:Advanced Composites Lecture 36 - Particular Solution for Semi-Infinite Plate: Case D
Link NOC:Advanced Composites Lecture 37 - Solution for governing equation related to semi-infinite composite plate
Link NOC:Advanced Composites Lecture 38 - Nature of displacement u0(x) and how it gets influence by important parameters of lamination sequence
Link NOC:Advanced Composites Lecture 39 - Semi-infinite plate loaded in the x-direction - Part 1
Link NOC:Advanced Composites Lecture 40 - Semi-infinite plate loaded in the x-direction - Part 2
Link NOC:Advanced Composites Lecture 41 - Thermal effects in composite laminates - Part 1
Link NOC:Advanced Composites Lecture 42 - Thermal effects in composite laminates - Part 2
Link NOC:Advanced Composites Lecture 43 - Thermal effects in composite laminates - Part 3
Link NOC:Advanced Composites Lecture 44 - Finite Rectangular Plate
Link NOC:Advanced Composites Lecture 45 - Different Boundary Conditions in Finite Rectangular Plate
Link NOC:Advanced Composites Lecture 46 - Example Based On a Finite Rectangular Plate: Part-I
Link NOC:Advanced Composites Lecture 47 - Example Based On a Finite Rectangular Plate: Part-II
Link NOC:Advanced Composites Lecture 48 - Example Based On a Finite Rectangular Plate: Part-III
Link NOC:Advanced Composites Lecture 49 - Anticlastic curvature
Link NOC:Advanced Composites Lecture 50 - Principle of virtual work
Link NOC:Advanced Composites Lecture 51 - Virtual work method: apply to beam problem
Link NOC:Advanced Composites Lecture 52 - Virtual work method: apply to simply supported plate
Link NOC:Advanced Composites Lecture 53 - Virtual work method: apply to simply supported plate
Link NOC:Advanced Composites Lecture 54 - 3rd Interpretation of special Galerkin method
Link NOC:Advanced Composites Lecture 55 - Role of D16 and D26 Terms On Laminated Plate Response: Part-I
Link NOC:Advanced Composites Lecture 56 - Role of D16 and D26 Terms On Laminated Plate Response: Part-II
Link NOC:Advanced Composites Lecture 57 - Role of D16 and D26 Terms On Laminated Plate Response: Part-III
Link NOC:Advanced Composites Lecture 58 - Role of D16 and D26 Terms On Laminated Plate Response: Part-IV
Link NOC:Advanced Composites Lecture 59 - Free Vibration in Composite Plate: Part-I
Link NOC:Advanced Composites Lecture 60 - Free Vibration in Composite Plate: Part-II
Link NOC:Advanced Composites Lecture 61 - Buckling of composite plates
Link NOC:Advanced Composites Lecture 62 - Force equilibrium in z-direction for buckling of composite plates
Link NOC:Advanced Composites Lecture 63 - Moment equilibrium around x, y and z-directions for buckling of composite plates
Link NOC:Advanced Composites Lecture 64 - Buckling of an infinitely long composite plate
Link NOC:Advanced Composites Lecture 65 - Buckling of a simply supported finite plate
Link NOC:Advanced Composites Lecture 66 - Composite plate under bidirectional compression
Link NOC:Advanced Composites Lecture 67 - Shear Bucking in Rectangular Composite Plate: Part-I
Link NOC:Advanced Composites Lecture 68 - Shear Bucking in Rectangular Composite Plate: Part-II
Link NOC:Advanced Composites Lecture 69 - Introduction to Short-Fiber Composites
Link NOC:Advanced Composites Lecture 70 - Theories of Stress Transfer: Part-I
Link NOC:Advanced Composites Lecture 71 - Theories of Stress Transfer: Part-II
Link NOC:Advanced Composites Lecture 72 - Modulus of Short-Fiber Composites and Closure
Link NOC:Engineering Metrology Lecture 1 - Introduction to measurements and metrology
Link NOC:Engineering Metrology Lecture 2 - Instruments in measurement systems
Link NOC:Engineering Metrology Lecture 3 - Instruments in measurement systems
Link NOC:Engineering Metrology Lecture 4 - General concepts and definitions in metrology
Link NOC:Engineering Metrology Lecture 5 - Standards of measurement
Link NOC:Engineering Metrology Lecture 6 - Limits, Fits, and Tolerances - Part 1
Link NOC:Engineering Metrology Lecture 7 - Limits, Fits, and Tolerances - Part 2
Link NOC:Engineering Metrology Lecture 8 - Limits, Fits, and Tolerances - Part 3
Link NOC:Engineering Metrology Lecture 9 - Limits, Fits, and Tolerances - Part 4
Link NOC:Engineering Metrology Lecture 10 - Linear Measurements - Part 1
Link NOC:Engineering Metrology Lecture 11 - Linear Measurements - Part 2
Link NOC:Engineering Metrology Lecture 12 - Laboratory demonstration, Vernier Caliper
Link NOC:Engineering Metrology Lecture 13 - Laboratory demonstration, Dial gauge and vernier, micrometer, surface plate, feeler gauge
Link NOC:Engineering Metrology Lecture 14 - Angular Measurements - Part 1
Link NOC:Engineering Metrology Lecture 15 - Angular Measurements - Part 2
Link NOC:Engineering Metrology Lecture 16 - Laboratory demonstration, Vernier height gauge
Link NOC:Engineering Metrology Lecture 17 - Laboratory demonstration, Thread gauge, spirit level
Link NOC:Engineering Metrology Lecture 18 - Laboratory demonstration, Combination set, slip gauges, sine bar
Link NOC:Engineering Metrology Lecture 19 - Comparators - Part 1
Link NOC:Engineering Metrology Lecture 20 - Comparators - Part 2
Link NOC:Engineering Metrology Lecture 21 - Transducers - Part 1
Link NOC:Engineering Metrology Lecture 22 - Transducers - Part 2
Link NOC:Engineering Metrology Lecture 23 - Screw thread metrology
Link NOC:Engineering Metrology Lecture 24 - Gears metrology - Part 1
Link NOC:Engineering Metrology Lecture 25 - Gears metrology - Part 2
Link NOC:Engineering Metrology Lecture 26 - Laboratory demonstration, Gear Vernier
Link NOC:Engineering Metrology Lecture 27 - Surface metrology
Link NOC:Engineering Metrology Lecture 28 - Temperature measurements
Link NOC:Engineering Metrology Lecture 29 - Pressure measurements - Part 1
Link NOC:Engineering Metrology Lecture 30 - Pressure measurements - Part 2
Link NOC:Engineering Metrology Lecture 31 - Strain measurements - Part 1
Link NOC:Engineering Metrology Lecture 32 - Strain measurements - Part 2
Link NOC:Engineering Metrology Lecture 33 - Optical measurements and Nanometrology - Part 1
Link NOC:Engineering Metrology Lecture 34 - Optical measurements and Nanometrology - Part 2
Link NOC:Engineering Metrology Lecture 35 - Optical measurements and Nanometrology - Part 3
Link NOC:Engineering Metrology Lecture 36 - Statistics in Metrology, an intoduction - Part 1
Link NOC:Engineering Metrology Lecture 37 - Statistics in Metrology, an intoduction - Part 2
Link NOC:Engineering Metrology Lecture 38 - Data and scales in measurements
Link NOC:Engineering Metrology Lecture 39 - Discrete and continuous data
Link NOC:Engineering Metrology Lecture 40 - Statistics for metrology, fundamental concepts - Part 1
Link NOC:Engineering Metrology Lecture 41 - Statistics for metrology, fundamental concepts - Part 2
Link NOC:Engineering Metrology Lecture 42 - Statistics for metrology, fundamental concepts - Part 3
Link NOC:Engineering Metrology Lecture 43 - Probability distributions for estimating measurement
Link NOC:Engineering Metrology Lecture 44 - Normal distribution
Link NOC:Engineering Metrology Lecture 45 - Statistics for proportions
Link NOC:Engineering Metrology Lecture 46 - Chi square distribution, and Data outlier detection
Link NOC:Engineering Metrology Lecture 47 - Quality Control, introduction
Link NOC:Engineering Metrology Lecture 48 - Quality Control, control charts for variables
Link NOC:Engineering Metrology Lecture 49 - Quality Control, control charts for attributes
Link NOC:Engineering Metrology Lecture 50 - Quality Control, critical aspects
Link NOC:Engineering Metrology Lecture 51 - 3D measurements, Coordinate Measuring Machine (CMM)
Link NOC:Engineering Metrology Lecture 52 - Laboratory demonstration, Coordinate Measuring Machine (CMM))
Link NOC:Smart Materials and Intelligent System Design Lecture 1 - Introduction to Smart Materials
Link NOC:Smart Materials and Intelligent System Design Lecture 2 - Piezoelectric Material
Link NOC:Smart Materials and Intelligent System Design Lecture 3 - Magnetostrictive Material
Link NOC:Smart Materials and Intelligent System Design Lecture 4 - Active Smart Polymer
Link NOC:Smart Materials and Intelligent System Design Lecture 5 - Shape Memory Alloys
Link NOC:Smart Materials and Intelligent System Design Lecture 6 - Introduction to composites
Link NOC:Smart Materials and Intelligent System Design Lecture 7 - Classification of Composites
Link NOC:Smart Materials and Intelligent System Design Lecture 8 - Micromechanics and Macromechanics of Composites
Link NOC:Smart Materials and Intelligent System Design Lecture 9 - Classical Laminated Plate Theory
Link NOC:Smart Materials and Intelligent System Design Lecture 10 - ABD Matrices
Link NOC:Smart Materials and Intelligent System Design Lecture 11 - Modelling of piezoelectric material 1
Link NOC:Smart Materials and Intelligent System Design Lecture 12 - Modelling of piezoelectric material 2
Link NOC:Smart Materials and Intelligent System Design Lecture 13 - Modelling of Magnetostrictive material
Link NOC:Smart Materials and Intelligent System Design Lecture 14 - Modelling of Shape memory Alloys
Link NOC:Smart Materials and Intelligent System Design Lecture 15 - Smart Actuators
Link NOC:Smart Materials and Intelligent System Design Lecture 16 - Smart Materials based MEMS
Link NOC:Smart Materials and Intelligent System Design Lecture 17 - Smart MEMS Applications
Link NOC:Smart Materials and Intelligent System Design Lecture 18 - Energy Harvesting
Link NOC:Smart Materials and Intelligent System Design Lecture 19 - Concept of Self Healing
Link NOC:Design Practice-II Lecture 1 - Design concepts
Link NOC:Design Practice-II Lecture 2 - Computer Aided Design (CAD)
Link NOC:Design Practice-II Lecture 3 - Geometrical transformation
Link NOC:Design Practice-II Lecture 4 - Composition of geometrical transformation
Link NOC:Design Practice-II Lecture 5 - Geometric modeling
Link NOC:Design Practice-II Lecture 6 - Representation of curves
Link NOC:Design Practice-II Lecture 7 - Parametric representation of synthetic curves
Link NOC:Design Practice-II Lecture 8 - Curve fitting problem (Hermite case)
Link NOC:Design Practice-II Lecture 9 - Problem solving (based on Bezier curve)
Link NOC:Design Practice-II Lecture 10 - Representation of Surfaces
Link NOC:Design Practice-II Lecture 11 - Introduction to Micro-Elctro mechanical Systems (MEMS)
Link NOC:Design Practice-II Lecture 12 - Lab-on-Chip
Link NOC:Design Practice-II Lecture 13 - Introduction to Sensors
Link NOC:Design Practice-II Lecture 14 - Introduction to Transducers
Link NOC:Design Practice-II Lecture 15 - Introduction to device fabrications
Link NOC:Design Practice-II Lecture 16 - Introduction to Silicon as a MEMS material
Link NOC:Design Practice-II Lecture 17 - Etching processes
Link NOC:Design Practice-II Lecture 18 - Types of Photolithography
Link NOC:Design Practice-II Lecture 19 - Introduction to actuators
Link NOC:Design Practice-II Lecture 20 - Designing of the Micro-Valve
Link NOC:Design Practice-II Lecture 21 - Electrochemical valves
Link NOC:Design Practice-II Lecture 22 - Micropumps
Link NOC:Design Practice-II Lecture 23 - Designing of peristaltic pumps
Link NOC:Design Practice-II Lecture 24 - Different types of pumps and sensors
Link NOC:Design Practice-II Lecture 25 - Gas Sensors
Link NOC:Design Practice-II Lecture 26 - Computer Numerical Control
Link NOC:Design Practice-II Lecture 27 - Numerical Control Programming
Link NOC:Design Practice-II Lecture 28 - NC Part Programming
Link NOC:Design Practice-II Lecture 29 - Canned Cycles
Link NOC:Design Practice-II Lecture 30 - Introduction to Rapid Prototyping
Link NOC:Design Practice-II Lecture 31 - Different Types of Rapid Prototyping Technologies
Link NOC:Design Practice-II Lecture 32 - LAB Demonstration of FDM Process
Link NOC:Design Practice-II Lecture 33 & 34
Link NOC:Design Practice-II Lecture 35
Link NOC:Design Practice-II Lecture 36
Link NOC:Design Practice-II Lecture 37, 38 & 39
Link NOC:Design Practice-II Lecture 40
Link NOC:Rapid Manufacturing Lecture 1 - Introduction to Rapid Manufacturing - Part 1
Link NOC:Rapid Manufacturing Lecture 2 - Introduction to Rapid Manufacturing - Part 2
Link NOC:Rapid Manufacturing Lecture 3 - Introduction to Rapid Manufacturing - Part 3
Link NOC:Rapid Manufacturing Lecture 4 - Product Development Process - Part 1
Link NOC:Rapid Manufacturing Lecture 5 - Product Development Process - Part 2
Link NOC:Rapid Manufacturing Lecture 6 - Product Development Process - Part 3
Link NOC:Rapid Manufacturing Lecture 7 - Design for Modularity (Manufacturing)
Link NOC:Rapid Manufacturing Lecture 8 - Design for Modularity (Assembly; Part 1)
Link NOC:Rapid Manufacturing Lecture 9 - Design for Modularity (Assembly; Part 2)
Link NOC:Rapid Manufacturing Lecture 10 - Design for Modularity
Link NOC:Rapid Manufacturing Lecture 11 - Subtractive versus Rapid Manufacturing
Link NOC:Rapid Manufacturing Lecture 12 - Reverse Engineering - Part 1
Link NOC:Rapid Manufacturing Lecture 13 - Reverse Engineering - Part 2
Link NOC:Rapid Manufacturing Lecture 14 - Laboratory Demonstration, Co-ordinate Measuring Machine - Part 1
Link NOC:Rapid Manufacturing Lecture 15 - Laboratory Demonstration, Co-ordinate Measuring Machine - Part 2
Link NOC:Rapid Manufacturing Lecture 16 - Laboratory Demonstration, 3D scanners - Part 1
Link NOC:Rapid Manufacturing Lecture 17 - Laboratory Demonstration, 3D scanners - Part 2
Link NOC:Rapid Manufacturing Lecture 18 - Polymerization Processes - Part 1
Link NOC:Rapid Manufacturing Lecture 19 - Polymerization Processes - Part 2
Link NOC:Rapid Manufacturing Lecture 20 - Powder based processes - Part 1
Link NOC:Rapid Manufacturing Lecture 21 - Powder based processes - Part 2
Link NOC:Rapid Manufacturing Lecture 22 - Powder based processes - Part 3
Link NOC:Rapid Manufacturing Lecture 23 - Extrusion based processes - Part 1
Link NOC:Rapid Manufacturing Lecture 24 - Extrusion based processes - Part 2
Link NOC:Rapid Manufacturing Lecture 25 - Sheet Stacking processes
Link NOC:Rapid Manufacturing Lecture 26 - 3D printing processes
Link NOC:Rapid Manufacturing Lecture 27 - Laboratory Demonstration, 3D printing - Part 1
Link NOC:Rapid Manufacturing Lecture 28 - Laboratory Demonstration, 3D printing - Part 2
Link NOC:Rapid Manufacturing Lecture 29 - Laboratory Demonstration, 3D printing - Part 3
Link NOC:Rapid Manufacturing Lecture 30 - Beam Deposition processes
Link NOC:Rapid Manufacturing Lecture 31 - Materials in Rapid Manufacturing - Part 1
Link NOC:Rapid Manufacturing Lecture 32 - Materials in Rapid Manufacturing - Part 2
Link NOC:Rapid Manufacturing Lecture 33 - Post-processing concerns - Part 1
Link NOC:Rapid Manufacturing Lecture 34 - Post-processing concerns - Part 2
Link NOC:Rapid Manufacturing Lecture 35 - Product costing for Rapid Manufacturing - Part 1
Link NOC:Rapid Manufacturing Lecture 36 - Product costing for Rapid Manufacturing - Part 2
Link NOC:Rapid Manufacturing Lecture 37 - Rapid Product Development, CAD/CAM - Part 1
Link NOC:Rapid Manufacturing Lecture 38 - Rapid Product Development, CAD/CAM - Part 2
Link NOC:Rapid Manufacturing Lecture 39 - Rapid Product Development, CAD/CAM - Part 3
Link NOC:Rapid Manufacturing Lecture 40 - Rapid Product Development, CAE and CIM
Link NOC:Rapid Manufacturing Lecture 41 - Rapid Product Development, Technomatix, Plant Simulation 10 - Part 1
Link NOC:Rapid Manufacturing Lecture 42 - Rapid Product Development, Technomatix, Plant Simulation 10 - Part 2
Link NOC:Rapid Manufacturing Lecture 43 - Rapid Product Development, Technomatix, Plant Simulation 10 - Part 3
Link NOC:Rapid Manufacturing Lecture 44 - Rapid Manufactiuring, case studies
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 1 - Introduction to Combustion
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 2 - Introduction to Combustion (Continued...)
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 3 - Introduction to Combustion (Continued...)
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 4 - Introduction to Combustion (Continued...) + Combustion and Thermochemistry
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 5 - Combustion and Thermochemistry
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 6 - Combustion and Thermochemistry (Continued...)
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 7 - Combustion and Thermochemistry (Continued...) + Chemical Kinetics
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 8 - Chemical Kinetics (Continued...)
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 9 - Chemical Kinetics (Continued...)
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 10 - Chemical Kinetics (Continued...) + Combustion Chemistry
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 11 - Combustion Chemistry (Continued...)
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 12 - Heat and Mass Transfer
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 13 - Heat and Mass Transfer + Coupling of Chemical Kinetics and Thermodynamics
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 14 - Coupling of Chemical Kinetics and Thermodynamics (Continued...)
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 15 - Coupling of Chemical Kinetics and Thermodynamics + Laminar Premixed Flames
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 16 - Laminar Premixed Flames (Continued...)
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 17 - Laminar Premixed Flames (Continued...)
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 18 - Laminar Premixed Flames (Continued...) + Laminar Non-Premixed Flames
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 19 - Laminar Non-Premixed Flames (Continued...)
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 20 - Laminar Non-Premixed Flames (Continued...)
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 21 - Laminar Non-Premixed Flames
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 22 - Laminar Non-Premixed Flames (Continued...)
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 23 - Laminar Non-Premixed Flames (Continued...)
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 24 - Laminar Non-Premixed Flames (Continued...)
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 25 - Laminar Non-Premixed Flames (Continued...)
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 26 - Laminar Non-Premixed Flames + Turbulence
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 27 - Turbulence : Introduction
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 28 - Turbulence : Introduction (Continued...)
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 29 - Turbulence : Flow Stability analysis
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 30 - Turbulence : Flow Stability analysis (Continued...)
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 31 - Turbulence : Stability and Burger's Equation
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 32 - Turbulence : Energy cascade, length scales and Statistical description
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 33 - Turbulence : Statistical analysis and free shear flows
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 34 - Turbulence : Free shear and wall bounded shear flows
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 35 - Turbulence : Turbulent boundary layer
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 36 - Turbulence
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 37 - Turbulence : Temperature effects and Modelling
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 38 - Turbulence : Modelling and statistics
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 39 - Turbulence : Modelling (Continued...)
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 40 - Turbulence : Modelling (Continued...)
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 41 - Turbulence : Chemistry Interaction
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 42 - Turbulence : Chemistry Interaction (Continued...)
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 43 - Turbulence : Chemistry Interaction (Continued...)
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 44 - Turbulence : Chemistry Interaction (Continued...)
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 45 - Turbulence : Chemistry Interaction (Continued...)
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 46 - Turbulent Combustion : Stochastic method of solution
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 47 - Turbulent Combustion : Transported scalar PDF model
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 48 - Turbulent Combustion : Transported joint velocity - scalar PDF model
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 49 - Turbulent Combustion : Modelling Turbulent Premixed Combustion
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 50 - Turbulent Combustion : Modelling Turbulent Premixed Combustion (Continued...)
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 51 - Turbulent Combustion : Modelling Turbulent Premixed Combustion (Continued...)
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 52 - Turbulent Combustion : Modelling Turbulent Premixed Combustion (Continued...)
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 53 - Turbulent Combustion : Modelling Turbulent Non-Premixed Combustion
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 54 - Turbulent Combustion : Modelling Turbulent Non-Premixed Combustion (Continued...)
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 55 - Turbulent Combustion : Modelling Turbulent Non-Premixed Combustion (Continued...)
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 56 - Turbulent Combustion : Modelling Turbulent Non-Premixed Combustion
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 57 - Turbulent Combustion : Modelling Turbulent Non-Premixed Combustion (Continued...)
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 58 - Multiphase Combustion : Introduction + Droplet Evaporation
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 59 - Multiphase Combustion : Droplet Combustion
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 60 - Multiphase Combustion : Spray Combustion
Link NOC:Manufacturing Automation Lecture 1 - Introduction to Manufacturing Automation
Link NOC:Manufacturing Automation Lecture 2 - Various Aspects of Manufacturing Automation
Link NOC:Manufacturing Automation Lecture 3 - Part Transfer Mechanisms
Link NOC:Manufacturing Automation Lecture 4 - Automated Flow Lines
Link NOC:Manufacturing Automation Lecture 5 - Analysis of Automated Flow Lines
Link NOC:Manufacturing Automation Lecture 6 - Vibratory Bowl Feeder
Link NOC:Manufacturing Automation Lecture 7 - Analysis of Vibratory Bowl Feeder
Link NOC:Manufacturing Automation Lecture 8 - Reciprocating Tube Hopper Feeder
Link NOC:Manufacturing Automation Lecture 9 - Centreboard Hopper Feeder and its analysis
Link NOC:Manufacturing Automation Lecture 10 - Reciprocating fork and External Gate Hopper Feeders
Link NOC:Manufacturing Automation Lecture 11 - Rotary Disc Feeder and Centrifugal Hopper Feeder
Link NOC:Manufacturing Automation Lecture 12 - Bladed Wheel and Tumbling Barrel Hopper Feeders
Link NOC:Manufacturing Automation Lecture 13 - Rotary Centreboard and Magnetic Feeders
Link NOC:Manufacturing Automation Lecture 14 - Part Orienting Devices
Link NOC:Manufacturing Automation Lecture 15 - Feed Tracks and their analysis
Link NOC:Manufacturing Automation Lecture 16 - Powered Feed Track and Escapements
Link NOC:Manufacturing Automation Lecture 17 - Various Escapements and Part Placing Mechanisms
Link NOC:Manufacturing Automation Lecture 18 - Design for Automatic Assembly
Link NOC:Manufacturing Automation Lecture 19 - Performance and Economics of Assembly Systems
Link NOC:Manufacturing Automation Lecture 20 - Performance of Indexing and Free Transfer Machines
Link NOC:Computer Integrated Manufacturing Lecture 1 - Introduction to CIM - Part 1
Link NOC:Computer Integrated Manufacturing Lecture 2 - Introduction to CIM - Part 2
Link NOC:Computer Integrated Manufacturing Lecture 3 - Computers and Manufacturing Systems - Part 1
Link NOC:Computer Integrated Manufacturing Lecture 4 - Computers and Manufacturing Systems - Part 2
Link NOC:Computer Integrated Manufacturing Lecture 5 - Computers and Manufacturing Systems - Part 3
Link NOC:Computer Integrated Manufacturing Lecture 6 - Computer Graphics - Part 1
Link NOC:Computer Integrated Manufacturing Lecture 7 - Computer Graphics - Part 2
Link NOC:Computer Integrated Manufacturing Lecture 8 - Computer Graphics - Part 3
Link NOC:Computer Integrated Manufacturing Lecture 9 - Computer Graphics - Part 4
Link NOC:Computer Integrated Manufacturing Lecture 10 - Geometric Modelling - Part 1
Link NOC:Computer Integrated Manufacturing Lecture 11 - Geometric Modelling - Part 2
Link NOC:Computer Integrated Manufacturing Lecture 12 - Computer Numerical Control - Part 1
Link NOC:Computer Integrated Manufacturing Lecture 13 - Computer Numerical Control - Part 2
Link NOC:Computer Integrated Manufacturing Lecture 14 - Computer Numerical Control - Part 3
Link NOC:Computer Integrated Manufacturing Lecture 15 - Computer Numerical Control - Part 4
Link NOC:Computer Integrated Manufacturing Lecture 16 - CNC Machining - Part 1
Link NOC:Computer Integrated Manufacturing Lecture 17 - CNC Machining - Part 2
Link NOC:Computer Integrated Manufacturing Lecture 18 - CNC Tooling
Link NOC:Computer Integrated Manufacturing Lecture 19 - CNC Part Programming - Part 1
Link NOC:Computer Integrated Manufacturing Lecture 20 - CNC Part Programming - Part 2
Link NOC:Computer Integrated Manufacturing Lecture 21 - CNC Part Programming - Part 3
Link NOC:Computer Integrated Manufacturing Lecture 22 - CNC Part Programming - Part 4
Link NOC:Computer Integrated Manufacturing Lecture 23 - Laboratory Demonstration, Computer Aided Design - Part 1
Link NOC:Computer Integrated Manufacturing Lecture 24 - Laboratory Demonstration, Computer Aided Design - Part 2
Link NOC:Computer Integrated Manufacturing Lecture 25 - CAM softwares
Link NOC:Computer Integrated Manufacturing Lecture 26 - Laboratory Demonstration, Computer Aided Manufacturing - Part 1
Link NOC:Computer Integrated Manufacturing Lecture 27 - Laboratory Demonstration, Computer Aided Manufacturing - Part 2
Link NOC:Computer Integrated Manufacturing Lecture 28 - Group Technology
Link NOC:Computer Integrated Manufacturing Lecture 29 - Computer Aided Process Planning - Part 1
Link NOC:Computer Integrated Manufacturing Lecture 30 - Computer Aided Process Planning - Part 2
Link NOC:Computer Integrated Manufacturing Lecture 31 - Flexible Manufacturing System
Link NOC:Computer Integrated Manufacturing Lecture 32 - Robotics
Link NOC:Computer Integrated Manufacturing Lecture 33 - Programmable Logic Controller
Link NOC:Computer Integrated Manufacturing Lecture 34 - Automatic Identification and Data Capture
Link NOC:Computer Integrated Manufacturing Lecture 35 - Computer Aided Quality Control - Part 1
Link NOC:Computer Integrated Manufacturing Lecture 36 - Computer Aided Quality Control - Part 2
Link NOC:Computer Integrated Manufacturing Lecture 37 - Laboratory Demonstration, Coordinate Measuring Machine
Link NOC:Computer Integrated Manufacturing Lecture 38 - Rapid Manufacturing - Part 1
Link NOC:Computer Integrated Manufacturing Lecture 39 - Rapid Manufacturing - Part 2
Link NOC:Computer Integrated Manufacturing Lecture 40 - Laboratory demonstration, Rapid Manufacturing - Part 1
Link NOC:Computer Integrated Manufacturing Lecture 41 - Laboratory demonstration, Rapid Manufacturing - Part 2
Link NOC:Computer Integrated Manufacturing Lecture 42 - Laboratory Demonstration, CAD using Fusion 360, an introduction
Link NOC:Computer Integrated Manufacturing Lecture 43 - Laboratory Demonstration, CAD using Fusion 360, Rendering and 3D printing
Link NOC:Computer Integrated Manufacturing Lecture 44 - Material Handling
Link NOC:Computer Integrated Manufacturing Lecture 45 - Laboratory Demonstration, Plant Simulation software - Part 1
Link NOC:Computer Integrated Manufacturing Lecture 46 - Laboratory Demonstration, Plant Simulation software - Part 2
Link NOC:Computer Integrated Manufacturing Lecture 47 - Laboratory Demonstration, Plant Simulation software - Part 3
Link NOC:Computer Integrated Manufacturing Lecture 48 - Computers in Manufacturing Industry, current scenario - Part 1
Link NOC:Computer Integrated Manufacturing Lecture 49 - Computers in Manufacturing Industry, current scenario - Part 2
Link NOC:Computer Integrated Manufacturing Lecture 50 - Computers in Manufacturing Industry, current scenario - Part 3
Link NOC:Machining Science Lecture 1 - Introduction to Machining
Link NOC:Machining Science Lecture 2 - Mechanism of plastic deformation
Link NOC:Machining Science Lecture 3 - Basic machining parameters, Cutting Tools and Types of Machining
Link NOC:Machining Science Lecture 4 - Types of Chips, Tool nomenclature and tool angles
Link NOC:Machining Science Lecture 5 - Tool Nomenclature in Normal Rake System and conversion of angles
Link NOC:Machining Science Lecture 6 - Selection of Tool angles
Link NOC:Machining Science Lecture 7 - Forces in machining, Merchant’s Circle Diagram
Link NOC:Machining Science Lecture 8 - Stress, Strain and Strain Rate and Shear Plane Angle
Link NOC:Machining Science Lecture 9 - Numerical Examples; Lee and Shaffer’s model
Link NOC:Machining Science Lecture 10 - Friction in metal cutting: Zorev’s Friction Model
Link NOC:Machining Science Lecture 11 - Practical Machining Operations
Link NOC:Machining Science Lecture 12 - Slab Milling; Measurement of Cutting Forces
Link NOC:Machining Science Lecture 13 - Dynamometers; Tool Wear and Tool Life
Link NOC:Machining Science Lecture 14 - Factors affecting tool life; Abrasive Machining Processes
Link NOC:Machining Science Lecture 15 - Mechanics of Grinding Process
Link NOC:Machining Science Lecture 16 - Chip length and specific energy in Grinding
Link NOC:Machining Science Lecture 17 - Grinding wheel wear; Oblique Cutting
Link NOC:Machining Science Lecture 18 - Rake angles in oblique cutting; Economics of Machining
Link NOC:Machining Science Lecture 19 - Economics of Machining (Continued...); Thermal aspects of machining
Link NOC:Machining Science Lecture 20 - Surface finish
Link NOC:Foundations of Cognitive Robotics Lecture 1 - Introduction to Cognitive Robotics (Private)
Link NOC:Foundations of Cognitive Robotics Lecture 2 - Smart Materials - I (Private)
Link NOC:Foundations of Cognitive Robotics Lecture 3 - Smart Materials - II (Private)
Link NOC:Foundations of Cognitive Robotics Lecture 4 - Smart Materials - III (Private)
Link NOC:Foundations of Cognitive Robotics Lecture 5 - Architecture of the Brain
Link NOC:Foundations of Cognitive Robotics Lecture 6 - Architecture of the Brain (Continued...)
Link NOC:Foundations of Cognitive Robotics Lecture 7 - Nerve Cells
Link NOC:Foundations of Cognitive Robotics Lecture 8 - Introduction to Synchronisation Models
Link NOC:Foundations of Cognitive Robotics Lecture 9 - Synchronisation models (Continued...)
Link NOC:Foundations of Cognitive Robotics Lecture 10 - Introduction to EEG
Link NOC:Foundations of Cognitive Robotics Lecture 11 - Theories of Intelligence - I
Link NOC:Foundations of Cognitive Robotics Lecture 12 - Theories of Intelligence - II
Link NOC:Foundations of Cognitive Robotics Lecture 13 - Kuramoto Model
Link NOC:Foundations of Cognitive Robotics Lecture 14 - Child Robot Interaction
Link NOC:Introduction to Robotics Lecture 1 - Introduction to Robotics
Link NOC:Introduction to Robotics Lecture 2 - Robot Joints and Work Volume
Link NOC:Introduction to Robotics Lecture 3 - Spatial transformations
Link NOC:Introduction to Robotics Lecture 4 - Homogenous Transformtions
Link NOC:Introduction to Robotics Lecture 5 - Practice Problems with MATLAB in Rotation matrices
Link NOC:Introduction to Robotics Lecture 6 - Kinematics: Derivation of Link Transformations
Link NOC:Introduction to Robotics Lecture 7 - Problem Solving DH Parameters
Link NOC:Introduction to Robotics Lecture 8 - Forward Kinematics
Link NOC:Introduction to Robotics Lecture 9 - Inverse Kinematics
Link NOC:Introduction to Robotics Lecture 10 - Problems in Kinematics
Link NOC:Introduction to Robotics Lecture 11 - Inverse Kinematics of PUMA Robot
Link NOC:Introduction to Robotics Lecture 12 - Jacobian and Singularity
Link NOC:Introduction to Robotics Lecture 13 - Velocity and Static Forces
Link NOC:Introduction to Robotics Lecture 14 - Dynamics - Lagrangian Euler
Link NOC:Introduction to Robotics Lecture 15 - Newton Euler Dynamics
Link NOC:Introduction to Robotics Lecture 16 - Trajectory Planning
Link NOC:Introduction to Robotics Lecture 17 - Inverse Dynamics using MATLAB
Link NOC:Introduction to Robotics Lecture 18 - Sensors
Link NOC:Introduction to Robotics Lecture 19 - Actuators and Basic Control System
Link NOC:Introduction to Robotics Lecture 20 - Block Diagram Reduction and Position Regulator
Link NOC:Introduction to Robotics Lecture 21 - Control of a single joint
Link NOC:Introduction to Robotics Lecture 22 - Non Linear Control of Manipulators
Link NOC:Introduction to Robotics Lecture 23 - Force Control
Link NOC:Introduction to Robotics Lecture 24 - Manipulator Mechanism Design
Link NOC:Introduction to Robotics Lecture 25 - Industrial Robots and Applications
Link NOC:Introduction to Robotics Lecture 26 - Specifications and Programming
Link NOC:Introduction to Robotics Lecture 27 - VAL programming
Link NOC:Introduction to Robotics Lecture 28 - Experiment With PUMA Robot Using VAL- II
Link NOC:Muffler Acoustics - Application to Automotive Exhaust Noise Control Lecture 1 - Introduction to Acoustic Wave Propagation
Link NOC:Muffler Acoustics - Application to Automotive Exhaust Noise Control Lecture 2 - D'Alemberts's solution and 1-D Continuity equation
Link NOC:Muffler Acoustics - Application to Automotive Exhaust Noise Control Lecture 3 - Muffler Acoustics-Application to Automotive Exhaust Noise Control
Link NOC:Muffler Acoustics - Application to Automotive Exhaust Noise Control Lecture 4 - Linearization of governing equations, and Development of 1-D Acoustic wave and Helmholtz equation
Link NOC:Muffler Acoustics - Application to Automotive Exhaust Noise Control Lecture 5 - Solution of 1-D Helmholtz equation: Propagation in 1-D ducts/pipes
Link NOC:Muffler Acoustics - Application to Automotive Exhaust Noise Control Lecture 6 - 1-D Acoustic Wave Equation in Ducts Carrying Uniform Mean Flow: Derivation
Link NOC:Muffler Acoustics - Application to Automotive Exhaust Noise Control Lecture 7 - 1-D Acoustic Wave Equation in Ducts Carrying Uniform Mean Flow: Solution
Link NOC:Muffler Acoustics - Application to Automotive Exhaust Noise Control Lecture 8 - 3-D Acoustic Wave Equation in Rectangular and Circular Waveguides: Derivation, Modal Solution and Concept of Cut-on Frequency
Link NOC:Muffler Acoustics - Application to Automotive Exhaust Noise Control Lecture 9 - Sound Pressure Level, Intensity Level and Sound Power Level
Link NOC:Muffler Acoustics - Application to Automotive Exhaust Noise Control Lecture 10 - Acoustic Impedance and Reflection Coefficient
Link NOC:Muffler Acoustics - Application to Automotive Exhaust Noise Control Lecture 11 - Lumped System Analysis: Inertance and Compliance
Link NOC:Muffler Acoustics - Application to Automotive Exhaust Noise Control Lecture 12 - Lumped Analysis of a Uniform Pipe Closed/Open at an End, Concept of End Correction
Link NOC:Muffler Acoustics - Application to Automotive Exhaust Noise Control Lecture 13 - Helmholtz Resonator, Electro-Acoustic Analogy and Layout of a typical engine exhaust system
Link NOC:Muffler Acoustics - Application to Automotive Exhaust Noise Control Lecture 14 - Muffler Performance Measures: Insertion Loss
Link NOC:Muffler Acoustics - Application to Automotive Exhaust Noise Control Lecture 15 - Muffler Performance Measures: Transmission Loss and Level Difference
Link NOC:Muffler Acoustics - Application to Automotive Exhaust Noise Control Lecture 16 - Lumpted Analysis of a Tube, Simple Area Discontinuity and Transfer Matrices
Link NOC:Muffler Acoustics - Application to Automotive Exhaust Noise Control Lecture 17 - Sudden area Discontinuity (Continued...)
Link NOC:Muffler Acoustics - Application to Automotive Exhaust Noise Control Lecture 18 - Simple Expansion Chamber Analysis Using Transfer Matrix Method
Link NOC:Muffler Acoustics - Application to Automotive Exhaust Noise Control Lecture 19 - Transmission Loss (TL) Graph for a Simple Expansion Muffler (MATLAB)
Link NOC:Muffler Acoustics - Application to Automotive Exhaust Noise Control Lecture 20 - Extended-Inlet and Extended-Outlet Muffler Analysis
Link NOC:Muffler Acoustics - Application to Automotive Exhaust Noise Control Lecture 21 - Extended-Inlet and Extended-Outlet Muffler Analysis (Continued...)
Link NOC:Muffler Acoustics - Application to Automotive Exhaust Noise Control Lecture 22 - TL Analysis of Extended-Inlet and Extended-Outlet Muffler (MATLAB)
Link NOC:Muffler Acoustics - Application to Automotive Exhaust Noise Control Lecture 23 - TL Analysis of Side-Inlet and Side-Outlet Muffler Using Transfer Matrix Method
Link NOC:Muffler Acoustics - Application to Automotive Exhaust Noise Control Lecture 24 - Wave Propagation in Gradually Varying Area Ducts: Webster’s Horn Equation
Link NOC:Muffler Acoustics - Application to Automotive Exhaust Noise Control Lecture 25 - Webster’s Horn Equation (Continued...) and Exponential Ducts
Link NOC:Muffler Acoustics - Application to Automotive Exhaust Noise Control Lecture 26 - Solution of Webster’s Horn Equation for Conical Ducts
Link NOC:Muffler Acoustics - Application to Automotive Exhaust Noise Control Lecture 27 - TL analysis for Conical Muffler Configurations (MATLAB)
Link NOC:Muffler Acoustics - Application to Automotive Exhaust Noise Control Lecture 28 - Segmentation Approach for Analysing Gradually Varying Area Ducts (MATLAB)
Link NOC:Muffler Acoustics - Application to Automotive Exhaust Noise Control Lecture 29 - Acoustic Intensity (Energy Flux) in a Pipe with Mean Flow, and Transmission Loss Expression
Link NOC:Muffler Acoustics - Application to Automotive Exhaust Noise Control Lecture 30 - Aeroacoustic State Variables Transfer Matrix for a Tubular Element (Uniform Pipe)
Link NOC:Muffler Acoustics - Application to Automotive Exhaust Noise Control Lecture 31 - Transfer Matrix for Extended-Inlet and Outlet Element and Use of Perforated Elements in Commercial Mufflers
Link NOC:Muffler Acoustics - Application to Automotive Exhaust Noise Control Lecture 32 - Two-interacting Duct Configurations: Development of Equations and Concentric Tube Resonators
Link NOC:Muffler Acoustics - Application to Automotive Exhaust Noise Control Lecture 33 - Concentric Tube Resonator: Partially Perforated Pipe or Airway (MATLAB)
Link NOC:Muffler Acoustics - Application to Automotive Exhaust Noise Control Lecture 34 - Review of Perforate Impedance Expressions
Link NOC:Muffler Acoustics - Application to Automotive Exhaust Noise Control Lecture 35 - MATLAB Demonstration for Fully and Partially Perforated CTR
Link NOC:Muffler Acoustics - Application to Automotive Exhaust Noise Control Lecture 36 - Cross-Flow elements: Setting-up the Equations
Link NOC:Muffler Acoustics - Application to Automotive Exhaust Noise Control Lecture 37 - Cross-Flow elements: MATLAB Demonstration for Simple Configurations
Link NOC:Muffler Acoustics - Application to Automotive Exhaust Noise Control Lecture 38 - Plug Mufflers, Three-pass Perforated Element Muffler (Commercial Configurations) - MATLAB
Link NOC:Muffler Acoustics - Application to Automotive Exhaust Noise Control Lecture 39 - Multiply-Connected Mufflers: HQ Tubes
Link NOC:Muffler Acoustics - Application to Automotive Exhaust Noise Control Lecture 40 - TL Analysis of HQ Tubes (MATLAB): Network Analysis and Analytical Formula
Link NOC:Muffler Acoustics - Application to Automotive Exhaust Noise Control Lecture 41 - Transmission Loss in terms of Scattering and Impedance Matrix Parameters
Link NOC:Muffler Acoustics - Application to Automotive Exhaust Noise Control Lecture 42 - Rectangular Chamber Muffler: Characterization and TL Analysis using 3-D Piston-driven Model
Link NOC:Muffler Acoustics - Application to Automotive Exhaust Noise Control Lecture 43 - Circular Chambers: Characterization and TL Analysis Using 3-D Piston-driven Model
Link NOC:Muffler Acoustics - Application to Automotive Exhaust Noise Control Lecture 44 - Analytical Mode-Matching for Extended-Inlet and Outlet Muffler: Setting-up of the Equations
Link NOC:Muffler Acoustics - Application to Automotive Exhaust Noise Control Lecture 45 - MATLAB Demonstration for Transmission Loss Calculations
Link NOC:Muffler Acoustics - Application to Automotive Exhaust Noise Control Lecture 46 - Dissipative Mufflers (Lined Circular duct) - A Brief Discussion
Link NOC:Muffler Acoustics - Application to Automotive Exhaust Noise Control Lecture 47 - Summary of the Topics Covered in This Course, Topics to be Covered in a Future Course
Link NOC:Elements of Solar Energy Conversion Lecture 1
Link NOC:Elements of Solar Energy Conversion Lecture 2
Link NOC:Elements of Solar Energy Conversion Lecture 3
Link NOC:Elements of Solar Energy Conversion Lecture 4
Link NOC:Elements of Solar Energy Conversion Lecture 5
Link NOC:Elements of Solar Energy Conversion Lecture 6
Link NOC:Elements of Solar Energy Conversion Lecture 7
Link NOC:Elements of Solar Energy Conversion Lecture 8
Link NOC:Elements of Solar Energy Conversion Lecture 9
Link NOC:Elements of Solar Energy Conversion Lecture 10
Link NOC:Elements of Solar Energy Conversion Lecture 11
Link NOC:Elements of Solar Energy Conversion Lecture 12
Link NOC:Elements of Solar Energy Conversion Lecture 13
Link NOC:Elements of Solar Energy Conversion Lecture 14
Link NOC:Elements of Solar Energy Conversion Lecture 15
Link NOC:Elements of Solar Energy Conversion Lecture 16
Link NOC:Elements of Solar Energy Conversion Lecture 17
Link NOC:Elements of Solar Energy Conversion Lecture 18
Link NOC:Elements of Solar Energy Conversion Lecture 19
Link NOC:Elements of Solar Energy Conversion Lecture 20
Link NOC:Elements of Solar Energy Conversion Lecture 21
Link NOC:Elements of Solar Energy Conversion Lecture 22
Link NOC:Elements of Solar Energy Conversion Lecture 23
Link NOC:Elements of Solar Energy Conversion Lecture 24
Link NOC:Elements of Solar Energy Conversion Lecture 25
Link NOC:Elements of Solar Energy Conversion Lecture 26
Link NOC:Elements of Solar Energy Conversion Lecture 27
Link NOC:Elements of Solar Energy Conversion Lecture 28
Link NOC:Elements of Solar Energy Conversion Lecture 29
Link NOC:Elements of Solar Energy Conversion Lecture 30
Link NOC:Elements of Solar Energy Conversion Lecture 31
Link NOC:Elements of Solar Energy Conversion Lecture 32
Link NOC:Elements of Solar Energy Conversion Lecture 33
Link NOC:Elements of Solar Energy Conversion Lecture 34
Link NOC:Elements of Solar Energy Conversion Lecture 35
Link NOC:Manufacturing Processes - Casting and Joining Lecture 1 - Casting: Introduction to Casting
Link NOC:Manufacturing Processes - Casting and Joining Lecture 2 - Various aspects of Casting
Link NOC:Manufacturing Processes - Casting and Joining Lecture 3 - Patterns and Moulds
Link NOC:Manufacturing Processes - Casting and Joining Lecture 4 - Sand Mould and Gating System
Link NOC:Manufacturing Processes - Casting and Joining Lecture 5 - Gating System Design
Link NOC:Manufacturing Processes - Casting and Joining Lecture 6 - Aspiration Effects and Riser Design
Link NOC:Manufacturing Processes - Casting and Joining Lecture 7 - Solidification of Metals and Alloys
Link NOC:Manufacturing Processes - Casting and Joining Lecture 8 - Stress, Strain and Strain Rate and Shear Plane Angle
Link NOC:Manufacturing Processes - Casting and Joining Lecture 9 - Steps in Sand Casting Processes
Link NOC:Manufacturing Processes - Casting and Joining Lecture 10 - Expendable Mould Casting Processes
Link NOC:Manufacturing Processes - Casting and Joining Lecture 11 - Permanent Mould Casting
Link NOC:Manufacturing Processes - Casting and Joining Lecture 12 - Various Casting Processes and Cost Analysis
Link NOC:Manufacturing Processes - Casting and Joining Lecture 13 - Cost analysis, Casting Defects and Product Design
Link NOC:Manufacturing Processes - Casting and Joining Lecture 14 - Introduction to Joining Processes
Link NOC:Manufacturing Processes - Casting and Joining Lecture 15 - Characteristic Features of Welding Processes
Link NOC:Manufacturing Processes - Casting and Joining Lecture 16 - Various Welding Processes
Link NOC:Manufacturing Processes - Casting and Joining Lecture 17 - Advanced Welding Processes
Link NOC:Manufacturing Processes - Casting and Joining Lecture 18 - Characteristic Features of Arc Welding
Link NOC:Manufacturing Processes - Casting and Joining Lecture 19 - Shielded metal arc welding, MIG and TIG Welding
Link NOC:Manufacturing Processes - Casting and Joining Lecture 20 - Gas Welding, Brazing and Soldering, Welding Defects
Link NOC:Computational Fluid Dynamics and Heat Transfer Lecture 1 - Historical Perspectives and Introduction to the Course
Link NOC:Computational Fluid Dynamics and Heat Transfer Lecture 2 - Finite Difference Method - Basic Idea of Discretization
Link NOC:Computational Fluid Dynamics and Heat Transfer Lecture 3 - Explicit and Implicit Formulations, Stability Analysis - Part 1
Link NOC:Computational Fluid Dynamics and Heat Transfer Lecture 4 - Stability Analysis - Part 2
Link NOC:Computational Fluid Dynamics and Heat Transfer Lecture 5 - Important Aspects of Flow Modelling - Part 1
Link NOC:Computational Fluid Dynamics and Heat Transfer Lecture 6 - Important Aspects of Flow Modelling - Part 2
Link NOC:Computational Fluid Dynamics and Heat Transfer Lecture 7 - Important Aspects of Flow Modelling - Part 3
Link NOC:Computational Fluid Dynamics and Heat Transfer Lecture 8 - Applications of Our Knowledge to a Problem of Practical Interest and Setting up an Algorithm
Link NOC:Computational Fluid Dynamics and Heat Transfer Lecture 9 - Finite Volume Method - Part 1
Link NOC:Computational Fluid Dynamics and Heat Transfer Lecture 10 - Finite Volume Method - Part 2
Link NOC:Computational Fluid Dynamics and Heat Transfer Lecture 11 - Finite Volume Method - Part 3
Link NOC:Computational Fluid Dynamics and Heat Transfer Lecture 12 - Introduction to Finite Element Method (Preliminary Concepts)
Link NOC:Computational Fluid Dynamics and Heat Transfer Lecture 13 - Introduction to Finite Elelment Method (Galerkin Weighted Residual Method)
Link NOC:Computational Fluid Dynamics and Heat Transfer Lecture 14 - Introduction to Finite element Method (Elemental contributions and formation of Global Matrix)
Link NOC:Computational Fluid Dynamics and Heat Transfer Lecture 15 - Vorticity Stream Function Approach (Formulation and Algorithm)
Link NOC:Computational Fluid Dynamics and Heat Transfer Lecture 16 - Vorticity-Stream Function Approach For Solving Navier-Stokes Equations
Link NOC:Computational Fluid Dynamics and Heat Transfer Lecture 17 - Solving Navier-Stokes Equations For Incompressible Flows using SIMPLE Algorithm - Part 1
Link NOC:Computational Fluid Dynamics and Heat Transfer Lecture 18 - Solving Navier-Stokes Equations For Incompressible Flows using SIMPLE Algorithm - Part 2
Link NOC:Computational Fluid Dynamics and Heat Transfer Lecture 19 - Solving Navier-Stokes Equations For Incompressible Flows using MAC Algorithm - Part 2
Link NOC:Computational Fluid Dynamics and Heat Transfer Lecture 20 - MAC Algorithm (Pressure - Velocity Iteration and the Solution)
Link NOC:Computational Fluid Dynamics and Heat Transfer Lecture 21 - MAC Algorithm (Solution of Energy Equation)
Link NOC:Computational Fluid Dynamics and Heat Transfer Lecture 22 - A Finite Volume Method to solve NS Equations in 3D Complex Geometry - Part 1
Link NOC:Computational Fluid Dynamics and Heat Transfer Lecture 23 - A Finite Volume Method to solve NS Equations in 3D Complex Geometry - Part 2
Link NOC:Computational Fluid Dynamics and Heat Transfer Lecture 24 - A Finite Volume Method to solve NS Equations in 3D Complex Geometry - Part 3
Link NOC:Computational Fluid Dynamics and Heat Transfer Lecture 25 - Mathematical Approaches to Turbulent Flows (Preliminaries and Modeling Framework)
Link NOC:Computational Fluid Dynamics and Heat Transfer Lecture 26 - Mathematical Approaches to Turbulent Flows (Modeling on the basis of RANS)
Link NOC:Production Technology: Theory and Practice Lecture 1 - Engineering Materials and Their Properties - 1
Link NOC:Production Technology: Theory and Practice Lecture 2 - Engineering Materials and Their Properties - 2
Link NOC:Production Technology: Theory and Practice Lecture 3 - Engineering Materials and Their Properties - 3
Link NOC:Production Technology: Theory and Practice Lecture 4 - Metal Machining-1: Introduction to Machining
Link NOC:Production Technology: Theory and Practice Lecture 5 - Metal Machining-2: Mechanism of plastic deformation
Link NOC:Production Technology: Theory and Practice Lecture 6 - Metal Machining-3: Types of Chips, Tool nomenclature and tool angles
Link NOC:Production Technology: Theory and Practice Lecture 7 - Metal Machining-4: Selection of Tool angles, Forces in machining
Link NOC:Production Technology: Theory and Practice Lecture 8 - Metal Machining-5: Merchant’s Circle Diagram
Link NOC:Production Technology: Theory and Practice Lecture 9 - Metal Machining-6: Friction in Metal Cutting
Link NOC:Production Technology: Theory and Practice Lecture 10 - Metal Machining-7: Practical Machining Operations; Force Measurement
Link NOC:Production Technology: Theory and Practice Lecture 11 - Metal Machining-8: Force Measurement
Link NOC:Production Technology: Theory and Practice Lecture 12 - Metal Machining-9: Tool Wear and Tool Life
Link NOC:Production Technology: Theory and Practice Lecture 13 - Metal Machining-10: Factors affecting Tool Life
Link NOC:Production Technology: Theory and Practice Lecture 14 - Metal Machining-11: Abrasive Machining Processes
Link NOC:Production Technology: Theory and Practice Lecture 15 - Metal Machining-12: Abrasive Machining Processes
Link NOC:Production Technology: Theory and Practice Lecture 16 - Metal Machining-13: Grinding; Economics of Machining
Link NOC:Production Technology: Theory and Practice Lecture 17 - Machining-14: Economics of Machining
Link NOC:Production Technology: Theory and Practice Lecture 18 - Non-Traditional Machining-1: Introduction; Classification
Link NOC:Production Technology: Theory and Practice Lecture 19 - Non-Traditional Machining-2: Various Non-Traditional Machining Processes
Link NOC:Production Technology: Theory and Practice Lecture 20 - Non-Traditional Machining-3, Computer Numerical Control (CNC) -1
Link NOC:Production Technology: Theory and Practice Lecture 21 - Computer Numerical Control (CNC) - 2
Link NOC:Production Technology: Theory and Practice Lecture 22 - Computer Numerical Control (CNC) - 3
Link NOC:Production Technology: Theory and Practice Lecture 23 - Engineering Metrology
Link NOC:Production Technology: Theory and Practice Lecture 24 - Laboratory Demonstration/Hands-On Practice - 1
Link NOC:Production Technology: Theory and Practice Lecture 25 - Laboratory Demonstration/Hands-On Practice - 2
Link NOC:Production Technology: Theory and Practice Lecture 26 - Laboratory Demonstration/Hands-On Practice - 3
Link NOC:Production Technology: Theory and Practice Lecture 27 - Laboratory Demonstration/Hands-On Practice - 4
Link NOC:Production Technology: Theory and Practice Lecture 28 - Laboratory Demonstration/Hands-On Practice - 5
Link NOC:Production Technology: Theory and Practice Lecture 29 - Laboratory Demonstration/Hands-On Practice - 6
Link NOC:Production Technology: Theory and Practice Lecture 30 - Laboratory Demonstration/Hands-On Practice - 7
Link NOC:Production Technology: Theory and Practice Lecture 31 - Laboratory Demonstration/Hands-On Practice - 8
Link NOC:Production Technology: Theory and Practice Lecture 32 - Laboratory Demonstration/Hands-On Practice - 9
Link NOC:Production Technology: Theory and Practice Lecture 33 - Laboratory Demonstration/Hands-On Practice - 10
Link NOC:Introduction to Turbomachinery Lecture 1 - Introduction and Classification
Link NOC:Introduction to Turbomachinery Lecture 2 - Introduction and Classification (Continued...)
Link NOC:Introduction to Turbomachinery Lecture 3 - Review of the Fundamental Laws
Link NOC:Introduction to Turbomachinery Lecture 4 - Equation of Motion in Rotating Frame
Link NOC:Introduction to Turbomachinery Lecture 5 - Euler Equation for Turbomachinery
Link NOC:Introduction to Turbomachinery Lecture 6 - Euler Equation for Turbomachinery: Illustration
Link NOC:Introduction to Turbomachinery Lecture 7 - Problem Session - Chapter-1: Applications of Euler Equation
Link NOC:Introduction to Turbomachinery Lecture 8 - Similarity Analysis - I
Link NOC:Introduction to Turbomachinery Lecture 9 - Similarity Analysis - II
Link NOC:Introduction to Turbomachinery Lecture 10 - Similarity Analysis - III
Link NOC:Introduction to Turbomachinery Lecture 11 - Problem Session - II
Link NOC:Introduction to Turbomachinery Lecture 12 - Cassade Analysis - I
Link NOC:Introduction to Turbomachinery Lecture 13 - Cassade Analysis - II
Link NOC:Introduction to Turbomachinery Lecture 14 - Cassade Analysis - III
Link NOC:Introduction to Turbomachinery Lecture 15 - Cassade Analysis - IV
Link NOC:Introduction to Turbomachinery Lecture 16 - Cassade Analysis (Problem Session)
Link NOC:Introduction to Turbomachinery Lecture 17 - Gas Turbine Cycle Analysis - I
Link NOC:Introduction to Turbomachinery Lecture 18 - Gas Turbine Cycle Analysis - II
Link NOC:Introduction to Turbomachinery Lecture 19 - Gas Turbine Cycle Analysis - III
Link NOC:Introduction to Turbomachinery Lecture 20 - Gas Turbine Cycle Analysis - IV
Link NOC:Introduction to Turbomachinery Lecture 21 - Gas Turbine Cycle Analysis - V
Link NOC:Introduction to Turbomachinery Lecture 22 - Illustrative Examples Gas Turbine Cycle
Link NOC:Introduction to Turbomachinery Lecture 23 - Illustrative Examples Jet Propulsion
Link NOC:Introduction to Turbomachinery Lecture 24 - Axial Flow Compressor - I
Link NOC:Introduction to Turbomachinery Lecture 25 - Axial Flow Compressor - II
Link NOC:Introduction to Turbomachinery Lecture 26 - Axial Flow Compressor - III
Link NOC:Introduction to Turbomachinery Lecture 27 - Axial Flow Compressor - IV
Link NOC:Introduction to Turbomachinery Lecture 28 - Illustrative Examples Axial Flow Compressor
Link NOC:Introduction to Turbomachinery Lecture 29 - Centrifugal Compressor - I
Link NOC:Introduction to Turbomachinery Lecture 30 - Centrifugal Compressor - II
Link NOC:Introduction to Turbomachinery Lecture 31 - Centrifugal Compressor - III
Link NOC:Introduction to Turbomachinery Lecture 32 - Axial Flow Turbine - I
Link NOC:Introduction to Turbomachinery Lecture 33 - Axial Flow Turbine - II
Link NOC:Introduction to Turbomachinery Lecture 34 - Axial Flow Turbine - III
Link NOC:Introduction to Turbomachinery Lecture 35 - Axial Flow Turbine - IV
Link NOC:Introduction to Turbomachinery Lecture 36 - Axial Flow Turbine - V
Link NOC:Introduction to Turbomachinery Lecture 37 - Axial Flow Steam Turbine - I
Link NOC:Introduction to Turbomachinery Lecture 38 - Axial Flow Steam Turbine - II
Link NOC:Introduction to Turbomachinery Lecture 39 - Axial Flow Steam Turbine - III
Link NOC:Introduction to Turbomachinery Lecture 40 - Axial Flow Steam Turbine - IV
Link NOC:Introduction to Turbomachinery Lecture 41 - Axial Flow Steam Turbine - V
Link NOC:Introduction to Turbomachinery Lecture 42 - Axial Flow Steam Turbine - VI
Link NOC:Introduction to Turbomachinery Lecture 43 - Hydraulic Turbines - I (Pelton Wheel)
Link NOC:Introduction to Turbomachinery Lecture 44 - Hydraulic Turbines - II (Illustrations on Pelton Wheel)
Link NOC:Introduction to Turbomachinery Lecture 45 - Hydraulic Turbines - III (Reaction Turbine)
Link NOC:Introduction to Turbomachinery Lecture 46 - Hydraulic Turbines - IV (Cavitation)
Link NOC:Introduction to Turbomachinery Lecture 47 - Hydraulic Turbines - V (Illustrations on Reaction Turbine)
Link NOC:Introduction to Turbomachinery Lecture 48 - CFD and Turbomachinery - I
Link NOC:Introduction to Turbomachinery Lecture 49 - CFD and Turbomachinery - II
Link NOC:Introduction to Turbomachinery Lecture 50 - CFD and Turbomachinery - III
Link NOC:Robot Motion Planning Lecture 1 - Introduction
Link NOC:Robot Motion Planning Lecture 2 - Joints and Degrees of Freedom
Link NOC:Robot Motion Planning Lecture 3 - Work Volume and Rotation Transformation
Link NOC:Robot Motion Planning Lecture 4 - Transformations
Link NOC:Robot Motion Planning Lecture 5 - Kinematics
Link NOC:Robot Motion Planning Lecture 6 - Bug Algorithms
Link NOC:Robot Motion Planning Lecture 7 - Configuration Space
Link NOC:Robot Motion Planning Lecture 8 - C Obstacle
Link NOC:Robot Motion Planning Lecture 9 - Topology of C Space
Link NOC:Robot Motion Planning Lecture 10 - Road Map Methods
Link NOC:Robot Motion Planning Lecture 11 - Cell Decomposition Methods
Link NOC:Robot Motion Planning Lecture 12 - Sampling Based Planning
Link NOC:Robot Motion Planning Lecture 13 - Potential Field Methods - I
Link NOC:Robot Motion Planning Lecture 14 - Navigation Function and Potential Field in 3D
Link NOC:Robot Motion Planning Lecture 15 - Basic Search Algorithms
Link NOC:Robot Motion Planning Lecture 16 - Motion Planning with Kinematic Constraints
Link NOC:Robot Motion Planning Lecture 17 - Controllability
Link NOC:Robot Motion Planning Lecture 18 - Kinematic Constraints and Multifinger Robot
Link NOC:Robot Motion Planning Lecture 19 - Multifinger Robot Hands
Link NOC:Robot Motion Planning Lecture 20 - Optimization in Motion Planning
Link NOC:Metal Additive Manufacturing Lecture 1 - Introduction to Metal Additive Manufacturing
Link NOC:Metal Additive Manufacturing Lecture 2 - Additive Manufacturing Processes: Classification and Challenges
Link NOC:Metal Additive Manufacturing Lecture 3 - Additive Manufacturing Processes: Applications and Challenges
Link NOC:Metal Additive Manufacturing Lecture 4 - Metal Additive Manufacturing, Glossary - Part 1
Link NOC:Metal Additive Manufacturing Lecture 5 - Metal Additive Manufacturing, Glossary - Part 2
Link NOC:Metal Additive Manufacturing Lecture 6 - CAD for Additive Manufacturing
Link NOC:Metal Additive Manufacturing Lecture 7 - Basic Processes - Part 1
Link NOC:Metal Additive Manufacturing Lecture 8 - Basic Processes - Part 2
Link NOC:Metal Additive Manufacturing Lecture 9 - Laser Based Processes - Part 1
Link NOC:Metal Additive Manufacturing Lecture 10 - Laser Based Processes - Part 2
Link NOC:Metal Additive Manufacturing Lecture 11 - Electron Beam Process
Link NOC:Metal Additive Manufacturing Lecture 12 - Powder/Wire Fed Systems
Link NOC:Metal Additive Manufacturing Lecture 13 - Solidification of Parts - Part 1
Link NOC:Metal Additive Manufacturing Lecture 14 - Solidification of Parts - Part 2
Link NOC:Metal Additive Manufacturing Lecture 15 - Solidification of Parts - Part 3
Link NOC:Metal Additive Manufacturing Lecture 16 - Process Parameters
Link NOC:Metal Additive Manufacturing Lecture 17 - MAM Printed Parts: Mechanical Properties, Hardness
Link NOC:Metal Additive Manufacturing Lecture 18 - MAM Printed Parts: Mechanical Properties, Strength
Link NOC:Metal Additive Manufacturing Lecture 19 - Common Defects and Post Processing
Link NOC:Metal Additive Manufacturing Lecture 20 - Design for Additive Manufacturing (DFAM) - Part 1
Link NOC:Metal Additive Manufacturing Lecture 21 - Design for Additive Manufacturing (DFAM) - Part 2
Link NOC:Metal Additive Manufacturing Lecture 22 - Topology Optimization Techniques
Link NOC:Metal Additive Manufacturing Lecture 23 - On-Machine Sensing in MAM - Part 1
Link NOC:Metal Additive Manufacturing Lecture 24 - On-Machine Sensing in MAM - Part 2
Link NOC:Metal Additive Manufacturing Lecture 25 - In-situ Control Systems
Link NOC:Metal Additive Manufacturing Lecture 26 - Additive Manufacturing of Metal Matrix Composites - Part 1
Link NOC:Metal Additive Manufacturing Lecture 27 - Additive Manufacturing of Metal Matrix Composites - Part 2
Link NOC:Metal Additive Manufacturing Lecture 28 - Additive Manufacturing of Metal Matrix Composites - Part 3
Link NOC:Metal Additive Manufacturing Lecture 29 - Additive Manufacturing of Metal Matrix Composites - Part 4
Link NOC:Metal Additive Manufacturing Lecture 30 - Reverse Engineering in MAM - Part 1
Link NOC:Metal Additive Manufacturing Lecture 31 - Reverse Engineering in MAM - Part 2
Link NOC:Metal Additive Manufacturing Lecture 32 - Reverse Engineering in MAM - Laboratory Demonstration - I
Link NOC:Metal Additive Manufacturing Lecture 33 - Reverse Engineering in MAM - Laboratory Demonstration - II
Link NOC:Metal Additive Manufacturing Lecture 34 - CAD and Topology Optimization Laboratory Demonstration - I
Link NOC:Metal Additive Manufacturing Lecture 35 - CAD and Topology Optimization Laboratory Demonstration - II
Link NOC:Metal Additive Manufacturing Lecture 36 - Non-Destructive Testing - Part 1
Link NOC:Metal Additive Manufacturing Lecture 37 - Non-Destructive Testing - Part 2
Link NOC:Metal Additive Manufacturing Lecture 38 - Sustainability in MAM - Part 1
Link NOC:Metal Additive Manufacturing Lecture 39 - Sustainability in MAM - Part 2
Link NOC:Metal Additive Manufacturing Lecture 40 - Sustainability in MAM - Part 3
Link NOC:Metal Additive Manufacturing Lecture 41 - Metal 3D Printing Laboratory Demonstration - I
Link NOC:Metal Additive Manufacturing Lecture 42 - Metal 3D Printing Laboratory Demonstration - II
Link NOC:Metal Additive Manufacturing Lecture 43 - Safety in MAM
Link NOC:Metal Additive Manufacturing Lecture 44 - Costing in MAM - Part 1
Link NOC:Metal Additive Manufacturing Lecture 45 - Costing in MAM - Part 2
Link NOC:Metal Additive Manufacturing Lecture 46 - Costing in MAM - Part 3
Link NOC:Metal Additive Manufacturing Lecture 47 - Industry 4.0 and MAM
Link NOC:Conduction and Convection: Fundamentals and Applications Lecture 1
Link NOC:Conduction and Convection: Fundamentals and Applications Lecture 2
Link NOC:Conduction and Convection: Fundamentals and Applications Lecture 3
Link NOC:Conduction and Convection: Fundamentals and Applications Lecture 4
Link NOC:Conduction and Convection: Fundamentals and Applications Lecture 5
Link NOC:Conduction and Convection: Fundamentals and Applications Lecture 6
Link NOC:Conduction and Convection: Fundamentals and Applications Lecture 7
Link NOC:Conduction and Convection: Fundamentals and Applications Lecture 8
Link NOC:Conduction and Convection: Fundamentals and Applications Lecture 9
Link NOC:Conduction and Convection: Fundamentals and Applications Lecture 10
Link NOC:Conduction and Convection: Fundamentals and Applications Lecture 11
Link NOC:Conduction and Convection: Fundamentals and Applications Lecture 12
Link NOC:Conduction and Convection: Fundamentals and Applications Lecture 13
Link NOC:Conduction and Convection: Fundamentals and Applications Lecture 14
Link NOC:Conduction and Convection: Fundamentals and Applications Lecture 15
Link NOC:Conduction and Convection: Fundamentals and Applications Lecture 16
Link NOC:Conduction and Convection: Fundamentals and Applications Lecture 17
Link NOC:Conduction and Convection: Fundamentals and Applications Lecture 18
Link NOC:Conduction and Convection: Fundamentals and Applications Lecture 19
Link NOC:Conduction and Convection: Fundamentals and Applications Lecture 20
Link NOC:Conduction and Convection: Fundamentals and Applications Lecture 21
Link NOC:Conduction and Convection: Fundamentals and Applications Lecture 22
Link NOC:Conduction and Convection: Fundamentals and Applications Lecture 23
Link NOC:Conduction and Convection: Fundamentals and Applications Lecture 24
Link NOC:Conduction and Convection: Fundamentals and Applications Lecture 25
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Link NOC:Conduction and Convection: Fundamentals and Applications Lecture 27
Link NOC:Conduction and Convection: Fundamentals and Applications Lecture 28
Link NOC:Conduction and Convection: Fundamentals and Applications Lecture 29
Link NOC:Conduction and Convection: Fundamentals and Applications Lecture 30
Link NOC:Conduction and Convection: Fundamentals and Applications Lecture 31
Link NOC:Conduction and Convection: Fundamentals and Applications Lecture 32
Link NOC:Conduction and Convection: Fundamentals and Applications Lecture 33
Link NOC:Conduction and Convection: Fundamentals and Applications Lecture 34
Link NOC:Conduction and Convection: Fundamentals and Applications Lecture 35
Link NOC:Conduction and Convection: Fundamentals and Applications Lecture 36
Link NOC:Conduction and Convection: Fundamentals and Applications Lecture 37
Link NOC:Conduction and Convection: Fundamentals and Applications Lecture 38
Link NOC:Conduction and Convection: Fundamentals and Applications Lecture 39
Link NOC:Advanced Robotics Lecture 1
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Link NOC:Applied Numerical Methods Lecture 1
Link NOC:Applied Numerical Methods Lecture 2
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Link NOC:Social Innovation in Industry 4.0 Lecture 1
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Link NOC:Engineering Thermodynamics in Hindi Lecture 1
Link NOC:Engineering Thermodynamics in Hindi Lecture 2
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Link NOC:Advanced Machining Processes (2024) Lecture 1 - Introduction to Advanced Manufacturing Processes
Link NOC:Advanced Machining Processes (2024) Lecture 2 - Ultrasonic Machining
Link NOC:Advanced Machining Processes (2024) Lecture 3
Link NOC:Advanced Machining Processes (2024) Lecture 4
Link NOC:Advanced Machining Processes (2024) Lecture 5 - Abrasive Jet Machining
Link NOC:Advanced Machining Processes (2024) Lecture 6 - Adrasive Jet Micro-Machining and Mask Materials for AJMM
Link NOC:Advanced Machining Processes (2024) Lecture 7 - Electro-Chemical Machining
Link NOC:Advanced Machining Processes (2024) Lecture 8 - Electrochemical Machining - I
Link NOC:Advanced Machining Processes (2024) Lecture 9 - Electrochemical Machining - II
Link NOC:Advanced Machining Processes (2024) Lecture 10 - Electrochemical Machining - III
Link NOC:Advanced Machining Processes (2024) Lecture 11 - Electrochemical Machining - IV
Link NOC:Advanced Machining Processes (2024) Lecture 12 - Electrochemical Machining - V
Link NOC:Advanced Machining Processes (2024) Lecture 13 - Electrochemical Machining - VI
Link NOC:Advanced Machining Processes (2024) Lecture 14 - Electrochemical Machining - VII
Link NOC:Advanced Machining Processes (2024) Lecture 15 - Electrochemical Machining - VIII
Link NOC:Advanced Machining Processes (2024) Lecture 16 - Machining Applications
Link NOC:Advanced Machining Processes (2024) Lecture 17 - Electric Discharge Machining - I
Link NOC:Advanced Machining Processes (2024) Lecture 18 - Electric Discharge Machining - II
Link NOC:Advanced Machining Processes (2024) Lecture 19 - Electric Discharge Machining - III
Link NOC:Advanced Machining Processes (2024) Lecture 20 - Electric Discharge Machining - IV
Link NOC:Advanced Machining Processes (2024) Lecture 21 - Electric Discharge Machining - IV and Electron Beam Machining - I
Link NOC:Advanced Machining Processes (2024) Lecture 22 - Electron Beam Machining - II
Link NOC:Advanced Machining Processes (2024) Lecture 23 - Laser Beam Machining - I
Link NOC:Advanced Machining Processes (2024) Lecture 24 - Laser Beam Machining - II
Link NOC:Advanced Machining Processes (2024) Lecture 25 - Silicon and Processing of Silicon - I
Link NOC:Advanced Machining Processes (2024) Lecture 26 - Silicon and Processing of Silicon - II
Link NOC:Advanced Machining Processes (2024) Lecture 27 - Polymer Processing
Link NOC:Advanced Machining Processes (2024) Lecture 28 - Advanced Finishing Processes
Link NOC:Advanced Machining Processes (2024) Lecture 29 - Lab Session-I: Water Abrasive Jet Machining Process
Link NOC:Advanced Machining Processes (2024) Lecture 30 - Lab Session-II: Electro-discharge Machining Process - I
Link NOC:Advanced Machining Processes (2024) Lecture 31 - Lab Session-III: Electro-discharge Machining Process - II
Link NOC:Advanced Machining Processes (2024) Lecture 32 - Lab Session-IV: Laser Beam Machining
Link NOC:Advanced Machining Processes (2024) Lecture 33 - Lab Session-V: Photolithiography
Link NOC:Basics of Mechanical Engineering - 1 Lecture 1 - Units, Dimensions, and Dimensional Analysis - Part 1
Link NOC:Basics of Mechanical Engineering - 1 Lecture 2 - Units, Dimensions, and Dimensional Analysis - Part 2
Link NOC:Basics of Mechanical Engineering - 1 Lecture 3 - Laws of Motion, Inertia and Momentum
Link NOC:Basics of Mechanical Engineering - 1 Lecture 4 - Scalars and Vectors, Vector Algebra
Link NOC:Basics of Mechanical Engineering - 1 Lecture 5 - Statics, Kinetics and Kinematics
Link NOC:Basics of Mechanical Engineering - 1 Lecture 6 - Friction and Lubrication
Link NOC:Basics of Mechanical Engineering - 1 Lecture 7 - Moment of Inertia and Gravity
Link NOC:Basics of Mechanical Engineering - 1 Lecture 8 - Mechanical Properties - Stress Strain and Residual Stress
Link NOC:Basics of Mechanical Engineering - 1 Lecture 9 - Stress Strain Curve, Elasticity and Poission's Ratio
Link NOC:Basics of Mechanical Engineering - 1 Lecture 10 - Principal Stress and Castigliano's Theorem
Link NOC:Basics of Mechanical Engineering - 1 Lecture 11 - Hardness, Toughness, Impact and Creep
Link NOC:Basics of Mechanical Engineering - 1 Lecture 12 - Homogeneous Materials, Isotropic and Anisotropic Materials
Link NOC:Basics of Mechanical Engineering - 1 Lecture 13 - Static and Fatigue Loading, Critical Loads - Part 1
Link NOC:Basics of Mechanical Engineering - 1 Lecture 14 - Static and Fatigue Loading, Critical Loads - Part 2
Link NOC:Basics of Mechanical Engineering - 1 Lecture 15 - Tutorial-1 - Part 1
Link NOC:Basics of Mechanical Engineering - 1 Lecture 16 - Tutorial-1 - Part 2
Link NOC:Basics of Mechanical Engineering - 1 Lecture 17 - Tutorial-2 - Part 1
Link NOC:Basics of Mechanical Engineering - 1 Lecture 18 - Tutorial-2 - Part 2
Link NOC:Basics of Mechanical Engineering - 1 Lecture 19 - Stress in Cylinders and Spheres - Part 1
Link NOC:Basics of Mechanical Engineering - 1 Lecture 20 - Stress in Cylinders and Spheres - Part 2
Link NOC:Basics of Mechanical Engineering - 1 Lecture 21 - Buckling of columns
Link NOC:Basics of Mechanical Engineering - 1 Lecture 22 - Materials, Metals and Composites - Part 1
Link NOC:Basics of Mechanical Engineering - 1 Lecture 23 - Materials, Metals and Composites - Part 2
Link NOC:Basics of Mechanical Engineering - 1 Lecture 24 - Mohr's circle
Link NOC:Basics of Mechanical Engineering - 1 Lecture 25 - Shear Force and Bending Moment Diagram - Part 1
Link NOC:Basics of Mechanical Engineering - 1 Lecture 26 - Shear Force and Bending Moment Diagram - Part 2
Link NOC:Basics of Mechanical Engineering - 1 Lecture 27 - Shear Force and Bending Moment Diagram - Part 3
Link NOC:Basics of Mechanical Engineering - 1 Lecture 28 - Factor of Safety, Degree of Freedom, Endurance Limit
Link NOC:Basics of Mechanical Engineering - 1 Lecture 29 - Tutorial-3 - Part 1
Link NOC:Basics of Mechanical Engineering - 1 Lecture 30 - Tutorial-3 - Part 2
Link NOC:Basics of Mechanical Engineering - 1 Lecture 31 - Linkages and Mechanisms
Link NOC:Basics of Mechanical Engineering - 1 Lecture 32 - Stress Concentration and Notch Sensitivity - Part 1
Link NOC:Basics of Mechanical Engineering - 1 Lecture 33 - Stress Concentration and Notch Sensitivity - Part 2
Link NOC:Basics of Mechanical Engineering - 1 Lecture 34 - Brittleness and ductility
Link NOC:Basics of Mechanical Engineering - 1 Lecture 35 - Testing for Tension
Link NOC:Basics of Mechanical Engineering - 1 Lecture 36 - Testing for Compression
Link NOC:Basics of Mechanical Engineering - 1 Lecture 37 - Testing for bending
Link NOC:Basics of Mechanical Engineering - 1 Lecture 38 - Testing for impact loads
Link NOC:Basics of Mechanical Engineering - 1 Lecture 39 - Testing for hardness, and fracture
Link NOC:Basics of Mechanical Engineering - 1 Lecture 40 - Spring-Mass Systems - Part 1
Link NOC:Basics of Mechanical Engineering - 1 Lecture 41 - Spring-Mass Systems - Part 2
Link NOC:Basics of Mechanical Engineering - 1 Lecture 42 - Gears: Basic Concepts
Link NOC:Basics of Mechanical Engineering - 1 Lecture 43 - Cam and Follower Design
Link NOC:Basics of Mechanical Engineering - 1 Lecture 44 - Couplings and Shafts
Link NOC:Basics of Mechanical Engineering - 1 Lecture 45 - Keys, Nuts, Bolts, Screws and Fasteners
Link NOC:Basics of Mechanical Engineering - 1 Lecture 46 - Chains, Pulleys, and Belts
Link NOC:Basics of Mechanical Engineering - 1 Lecture 47 - Clutches, Brakes and Flywheels
Link NOC:Basics of Mechanical Engineering - 1 Lecture 48 - Permanent Joints
Link NOC:Basics of Mechanical Engineering - 1 Lecture 49 - Vibration and Acoustics
Link NOC:Basics of Mechanical Engineering - 1 Lecture 50 - Introduction to Engineering Statistics
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 1 - Introduction to Computational Fluid Dynamics and Principles of Conservation
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 2 - Conservation of Mass and Momentum: Continuity and Navier Stokes Equation
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 3 - Navier Stokes Equation (Continued.)
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 4 - Energy Equation and General Structure of Conservation Equations
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 5 - Classification of Partial Differential Equations and Physical Behaviour
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 6 - Classification of Partial Differential Equations and Physical Behaviour (Continued.)
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 7 - Approximate Solutions of Differential Equations: Error Minimization Principles
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 8 - Approximate Solutions of Differential Equations: Variational Principles and Weighted Residual Approach
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 9 - Weighted Residual Approach and Introduction to Discretization
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 10 - Fundamentals of Discretization: Finite Element Method
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 11 - Fundamentals of Discretization: Finite Difference and Finite Volume Method
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 12 - Fundamentals of Discretization: Finite Volume Method (Continued.)
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 13 - Finite Volume Method: Some Conceptual Basics and Illustrations through 1-D Steady State Diffusion Problems
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 14 - Finite Volume Method: Boundary Condition Implementation and Discretization of Unsteady State Problems
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 15 - Finite Volume Method: Discretization of Unsteady State Problems
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 16 - Important Consequences of Discretization of Unsteady State Problems
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 17 - Important Consequences of Discretization of Time Dependent Diffusion Type Problems (Continued.) and Stability Analysis
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 18 - Discretization of Hyperbolic Equations: Stability Analysis
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 19 - PART 1 : Stability of Second Order Hyperbolic Equations PART 2 : Mid-Semester Assessment Review (Questions and Answers)
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 20 - PART 1: Mid-Semester Assessment Review (Questions and Answers) (Continued.) PART 2: Finite Volume Discretization of 2-D Unsteady State Diffusion Type
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 21 - Solution of Systems of Linear Algebraic Equations
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 22 - Solution of Systems of Linear Algebraic Equations: Elimination Methods
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 23 - Solution of Systems of Linear Algebraic Equations: Elimination Methods (Continued.)
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 24 - Elimination Methods: Error Analysis
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 25 - Iterative Methods for Numerical Solution of Systems of Linear Algebraic Equations
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 26 - Iterative Methods for Numerical Solution of Systems of Linear Algebraic Equations (Continued.)
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 27 - Iterative Methods: Further Examples
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 28 - PART 1: Combination of Iteration & Elimination Techniques PART 2: Introduction to Gradient Search Methods
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 29 - Gradient Search Methods (Continued.)
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 30 - Discretization of Convection-Diffusion Equations: A Finite Volume Approach
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 31 - Discretization of Convection-Diffusion Equations: A Finite Volume Approach (Continued.)
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 32 - Discretization of Convection- Diffusion Equations: A Finite Volume Approach (Continued.)
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 33 - Discretization of Convection -Diffusion Equations: A Finite Volume Approach (Continued.)
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 34 - Discretization of Convection-Diffusion Equations: A Finite Volume Approach ( Continued.)
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 35 - Discretization of Navier Stokes Equations
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 36 - Discretization of Navier Stokes Equations ( Continued.)
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 37 - Discretization of Navier Stokes Equations ( Continued. )
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 38 - PART 1 : Discretization of Navier Stokes Equations (Continued.) PART 2 : Fundamentals of Unstructured Grid Formulation
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 39 - Unstructured Grid Formulation (Continued.)
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 40 - What is there in implementing a CFD Code
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 41 - Introduction to Turbulence Modeling
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 42 - Introduction to Turbulence Modeling (Continued.)
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 43 - End Semester Questions Review
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 1 - What is Hydraulic and Pneumatic System
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 2 - Basic Components, Symbols and Circuits
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 3 - Incompressible Fluids - Some Fundamental Properties
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 4 - Incompressible Fluid Flow related to Fluid Drive
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 5 - Capillary Fluid (incompressible) Flow and Hydrodynamic Lubrication
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 6 - Basis for Calculating Hydraulic Systems
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 7 - Different types of Valves - Features and Operations - I
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 8 - Hydraulic Valves (General) Different types of Valves - Features and Operations - II
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 9 - Hydraulic Circuits and Valves
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 10 - Hydraulic Servomechanism and Servo and Proportional Control Valves
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 11 - Basic Spool Valve Design Analysis
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 12 - General Control Valve Analysis
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 13 - Critical Centre Spool Valve Analysis
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 14 - Critical Centre Spool Valve Analysis - Stroking Forces
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 15 - Proportional Solenoid Pilot Operated Two Stage Pressure Relief Valve
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 16 - Proportional Solenoid Pilot Operated Two Stage Pressure Relief Valve (Continued...)
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 17 - Introduction to Positive Displacement Hydrostatic Units (Hydraulic Pumps and Motors)
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 18 - Basic features of some Hydraulic Pumps and Motors
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 19 - Analysis of an axial - Piston Swash Plate type Hydrostatic Pump (Discharge Flow Characteristics)
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 20 - Analysis of an axial - Piston Swash Plate type Hydrostatic Pump (Estimation of Torque on Drive Shaft and Swash Plate)
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 21 - Analysis of an Axial - Piston Swash Plate type Hydrostatic unit (Pressure Ripple and Swash Plate Torque)
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 22 - Design Analysis of Gear Pumps - I
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 23 - Design Analysis of Gear Pumps - II
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 24 - Basic Concept of Hydrostatic Transmission (HST) System
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 25 - Selection of HST units and components
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 26 - Regenerative Circuits
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 27 - Introduction to Fluid Logic
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 28 - Basic Devices, Symbols and Circuits
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 29 - Logic Circuits
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 30 - Design Analysis of ORBIT Motor - I : Basic Design and Feature
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 31 - Design Analysis of ORBIT Motor - II : Geometric Volume Displacement
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 32 - Design Analysis of ORBIT Motor - III : Output torque and stress, Deformation, Gap at Contacts
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 33 - Application and Selection of Accumulators - Part I
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 34 - Application and Selection of Accumulators - Part II
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 35 - Hydraulic Circuits in Industrial Applications
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 36 - Air preparation - Compressor and Accessories
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 37 - Pneumatic Circuits
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 38 - Analysis of Three - Way (Spool and Flapper Nozzle Valve)
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 39 - Analysis of Flapper Nozzle Valves
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 40 - Flow Force Compensation and Spool Design (Electro - hydraulic valves)
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 41 - Premier and Guide to Oil - hydraulic fluids ; and Introduction to Fluid Power Symbols
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 42 - Symbols in Oil Hydraulics
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 43 - Appendices Tutorial on Basic Calculation on HST System and Hydraulic Fluids
Link Machinery fault diagnosis and signal processing Lecture 1 - Introduction
Link Machinery fault diagnosis and signal processing Lecture 2 - Principles of Maintenance
Link Machinery fault diagnosis and signal processing Lecture 3 - Failure Modes Effects and Criticality Analysis
Link Machinery fault diagnosis and signal processing Lecture 4 - Fault Diagnostics and Prognostics
Link Machinery fault diagnosis and signal processing Lecture 5 - Basics of Machinery Vibration
Link Machinery fault diagnosis and signal processing Lecture 6 - Engineering Applications of Vibration
Link Machinery fault diagnosis and signal processing Lecture 7 - Rotordynamics
Link Machinery fault diagnosis and signal processing Lecture 8 - Time Domain Signal Analysis
Link Machinery fault diagnosis and signal processing Lecture 9 - Frequency Domain Signal Analysis
Link Machinery fault diagnosis and signal processing Lecture 10 - Computer Aided Data Acquisition
Link Machinery fault diagnosis and signal processing Lecture 11 - FFT Analysis
Link Machinery fault diagnosis and signal processing Lecture 12 - Modulation and Sidebands
Link Machinery fault diagnosis and signal processing Lecture 13 - Envelope Analysis
Link Machinery fault diagnosis and signal processing Lecture 14 - Cepstrum Analysis
Link Machinery fault diagnosis and signal processing Lecture 15 - Order Analysis
Link Machinery fault diagnosis and signal processing Lecture 16 - Basics of Instrumentation
Link Machinery fault diagnosis and signal processing Lecture 17 - Sensors and Transducers
Link Machinery fault diagnosis and signal processing Lecture 18 - Data Recording and Transmission
Link Machinery fault diagnosis and signal processing Lecture 19 - Vibration Transducers
Link Machinery fault diagnosis and signal processing Lecture 20 - Vibration Monitoring
Link Machinery fault diagnosis and signal processing Lecture 21 - Basics of Noise and Noise Monitoring
Link Machinery fault diagnosis and signal processing Lecture 22 - Numericals in Noise Vibration and Data Acquisition
Link Machinery fault diagnosis and signal processing Lecture 23 - Unbalance Detection
Link Machinery fault diagnosis and signal processing Lecture 24 - Field Balancing
Link Machinery fault diagnosis and signal processing Lecture 25 - Misalignment Detection
Link Machinery fault diagnosis and signal processing Lecture 26 - Cracked Shaft Detection
Link Machinery fault diagnosis and signal processing Lecture 27 - Looseness and Rub Detection
Link Machinery fault diagnosis and signal processing Lecture 28 - Ball and Journal Bearings
Link Machinery fault diagnosis and signal processing Lecture 29 - Gear Fault Detection
Link Machinery fault diagnosis and signal processing Lecture 30 - Fans, Blowers and Compressors
Link Machinery fault diagnosis and signal processing Lecture 31 - Pumps and Turbines
Link Machinery fault diagnosis and signal processing Lecture 32 - Contaminant Analysis
Link Machinery fault diagnosis and signal processing Lecture 33 - Oil Analysis
Link Machinery fault diagnosis and signal processing Lecture 34 - Fault Detection in Motors and Transformers
Link Machinery fault diagnosis and signal processing Lecture 35 - Motor Current Signature Analysis
Link Machinery fault diagnosis and signal processing Lecture 36 - Thermography
Link Machinery fault diagnosis and signal processing Lecture 37 - Ultrasonics
Link Machinery fault diagnosis and signal processing Lecture 38 - Acoustic Emission and Eddy Current Testing
Link Machinery fault diagnosis and signal processing Lecture 39 - Radiography,Dye Penetrant Test and Visual Inspection
Link Machinery fault diagnosis and signal processing Lecture 40 - Case Studies
Link Solar Energy Technology Lecture 1 - Energy and Dependence on External Sources and Sun, Physical Descriptions and Reactions
Link Solar Energy Technology Lecture 2 - Sun - Earth Geometry
Link Solar Energy Technology Lecture 3 - Terminology Extra - Terrestrial Radiation Terrestria Radiation
Link Solar Energy Technology Lecture 4 - Measuring Instruments
Link Solar Energy Technology Lecture 5 - Estimation of Solar Radiation or Details
Link Solar Energy Technology Lecture 6 - Radiation Processing - Long Term
Link Solar Energy Technology Lecture 7 - Evaluation of the Apparent Sunrise and Sunset Angles
Link Solar Energy Technology Lecture 8 - Estimation of Daily/Monthly Average daily Tilt Factor Under Terrestrial Conditions
Link Solar Energy Technology Lecture 9 - Solar Colector Basics
Link Solar Energy Technology Lecture 10 - Transmission - Absorptance Product
Link Solar Energy Technology Lecture 11 - Daily (Or Monthly Average Daily) Transmittance - Absorptance Product Analytical Evaluation
Link Solar Energy Technology Lecture 12 - Theory of Flat Plate Collectors - Liquid Based (A)
Link Solar Energy Technology Lecture 13 - Theory of Flat Plate Collectors - Liquid Based (B)
Link Solar Energy Technology Lecture 14 - Theory of Flat Plate Collectors - Liquid Based (C)
Link Solar Energy Technology Lecture 15 - Mean temperature and Heat Capacity Effects
Link Solar Energy Technology Lecture 16 - Theory of Air Based Solar Flat Plate Collectors
Link Solar Energy Technology Lecture 17 - Theory of Air Based Solar Flat Plate Collectors (Continued.)
Link Solar Energy Technology Lecture 18 - Other Collector Geometries
Link Solar Energy Technology Lecture 19 - Concentrating Collectors
Link Solar Energy Technology Lecture 20 - Concentrating Collectors (Continued.)
Link Solar Energy Technology Lecture 21 - Concentrating Collectors (Continued.)
Link Solar Energy Technology Lecture 22 - Compound Parabolic Collectors
Link Solar Energy Technology Lecture 23 - Exercise - I
Link Solar Energy Technology Lecture 24 - Exercise - I (Continued.)
Link Solar Energy Technology Lecture 25 - Device and System Performance
Link Solar Energy Technology Lecture 26 - Long Term Solar Energy System Performance
Link Solar Energy Technology Lecture 27 - Exercise - I (Continued.)
Link Solar Energy Technology Lecture 28 - Long Term Solar Energy System Performance Simplified Design Methods
Link Solar Energy Technology Lecture 29 - Long Term Solar Energy System Performance Simplified Design Methods (Continued.)
Link Solar Energy Technology Lecture 30 - Monthly Average Daily Utilizability
Link Solar Energy Technology Lecture 31 - The phi(bar) - f chart method (Continued.)
Link Solar Energy Technology Lecture 32 - The phi(bar) - f chart method Tank Losses and Finite Heat Exchanger
Link Solar Energy Technology Lecture 33 - Exercise - 2
Link Solar Energy Technology Lecture 34 - Exercise - 2 (Continued.)
Link Solar Energy Technology Lecture 35 - Exercise - 2 (Continued.)
Link Solar Energy Technology Lecture 36 - Economic Analysis
Link Solar Energy Technology Lecture 37 - Life Cycle Savings : The P1 and P2 Method
Link Solar Energy Technology Lecture 38 - Passive Devices
Link Solar Energy Technology Lecture 39 - Passive Architecture, Overhangs and Wing Walls
Link Solar Energy Technology Lecture 40 - Passive Architecture, Overhangs and Wing Walls (Continued.)
Link Solar Energy Technology Lecture 41 - Summary
Link Solar Energy Technology Lecture 42 - Summary (Continued.)
Link Solar Energy Technology Lecture 43 - Summary (Continued.)
Link Technology of Surface Coating Lecture 1 - Introduction
Link Technology of Surface Coating Lecture 2 - CVD Reaction
Link Technology of Surface Coating Lecture 3 - Adhesion of Surface Coating
Link Technology of Surface Coating Lecture 4 - CVD System
Link Technology of Surface Coating Lecture 5 - CDV of Tic
Link Technology of Surface Coating Lecture 6 - Chemical Vapour Deposition of Nitride Coating
Link Technology of Surface Coating Lecture 7 - Chemical Vapour Deposition of Carbo-Nitride Coating
Link Technology of Surface Coating Lecture 8 - Chemical Vapour Deposition of Cromium
Link Technology of Surface Coating Lecture 9 - Chemical Vapour Deposition of Aluminium Oxide
Link Technology of Surface Coating Lecture 10 - Chemical Vapour Deposition of Diamond
Link Technology of Surface Coating Lecture 11 - Vacuum Evaporation Deposition
Link Technology of Surface Coating Lecture 12 - Reactive Evaporation Deposition
Link Technology of Surface Coating Lecture 13 - Cathodic Arc Evaporation Deposition
Link Technology of Surface Coating Lecture 14 - Sputtering
Link Technology of Surface Coating Lecture 15 - Magnetron Sputtering
Link Technology of Surface Coating Lecture 16 - Unbalanced Magnetron Sputtering
Link Technology of Surface Coating Lecture 17 - Radio frequency and pulsed DC sputtering
Link Technology of Surface Coating Lecture 18 - Sputter Deposition of Nitride Coating
Link Technology of Surface Coating Lecture 19 - Sputter Deposition of Molybdenum Di Sulphide Coating
Link Technology of Surface Coating Lecture 20 - Influence of Architecture of Sputter Deposited Molybdenum Di Sulphide Coating
Link Technology of Surface Coating Lecture 21 - Electro Plating,Anodizing and Electro-Less Plating
Link Technology of Surface Coating Lecture 22 - Coating of Monolayer Abrasive Grain by Electro Plating
Link Technology of Surface Coating Lecture 23 - Mechansim of Wetting
Link Technology of Surface Coating Lecture 24 - Coating on Ceramics by Wetting
Link Technology of Surface Coating Lecture 25 - Coating of Monolayer Abrasive Grain by Wetting
Link Technology of Surface Coating Lecture 26 - Coating on Abrasive Grain
Link Technology of Surface Coating Lecture 27 - Combustion Spray Process
Link Technology of Surface Coating Lecture 28 - Plasma Spray Process
Link Technology of Surface Coating Lecture 29 - Mechanical, Chemical and Ion-Assisted Method
Link Technology of Surface Coating Lecture 30 - Combustion Spray Process
Link Technology of Surface Coating Lecture 31 - Production of Low Vacuum
Link Technology of Surface Coating Lecture 32 - Production of High Vacuum
Link Technology of Surface Coating Lecture 33 - Measurement of Low Pressure and Gas Flow in Coating Deposition System
Link Technology of Surface Coating Lecture 34 - Physical Characterization
Link Technology of Surface Coating Lecture 35 - Assessment of Coating Hardness
Link Technology of Surface Coating Lecture 36 - Assessment of Friction and Wear of Coating
Link Technology of Surface Coating Lecture 37 - Assessment of Surface Roughness and Thickness of Coating
Link Technology of Surface Coating Lecture 38 - Assessment of Adhesion of Coating
Link Technology of Surface Coating Lecture 39 - Performance Evaluation of TiN Coated Tool
Link Technology of Surface Coating Lecture 40 - Performance Evaluation of HFCVD Diamond Coated Tool
Link Vibration of Structures Lecture 1 - Transverse Vibrations of Strings - I
Link Vibration of Structures Lecture 2 - Transverse Vibrations of Strings - II
Link Vibration of Structures Lecture 3 - Axial and Torsional Vibrations of Bars
Link Vibration of Structures Lecture 4 - Variational Formulation - I
Link Vibration of Structures Lecture 5 - Variational Formulation - II
Link Vibration of Structures Lecture 6 - Modal Analysis - I
Link Vibration of Structures Lecture 7 - Modal Analysis - II
Link Vibration of Structures Lecture 8 - Properties of the Eigenvalue Problem
Link Vibration of Structures Lecture 9 - Modal Analysis: Approximate Methods - I
Link Vibration of Structures Lecture 10 - Modal Analysis: Approximate Methods - II
Link Vibration of Structures Lecture 11 - The Initial Value Problem
Link Vibration of Structures Lecture 12 - Forced Vibration Analysis - I
Link Vibration of Structures Lecture 13 - Forced Vibration Analysis - II
Link Vibration of Structures Lecture 14 - Forced Vibration Analysis - III
Link Vibration of Structures Lecture 15 - Damping in Structures
Link Vibration of Structures Lecture 16 - Axially Translating Strings
Link Vibration of Structures Lecture 17 - d' Alembert's Solution - I
Link Vibration of Structures Lecture 18 - d' Alembert's Solution - II
Link Vibration of Structures Lecture 19 - Harmonic Waves and Energetics of Wave Motion
Link Vibration of Structures Lecture 20 - Scattering of Waves
Link Vibration of Structures Lecture 21 - Applications of Wave Solution - I
Link Vibration of Structures Lecture 22 - Applications of Wave Solution - II
Link Vibration of Structures Lecture 23 - Beam Models - I
Link Vibration of Structures Lecture 24 - Beam Models - II
Link Vibration of Structures Lecture 25 - Modal Analysis of Beams
Link Vibration of Structures Lecture 26 - Applications of Modal Solution
Link Vibration of Structures Lecture 27 - Approximate Methods
Link Vibration of Structures Lecture 28 - Topic in Beam Vibration - I
Link Vibration of Structures Lecture 29 - Topic in Beam Vibration - II
Link Vibration of Structures Lecture 30 - Wave Propagation in Beams
Link Vibration of Structures Lecture 31 - Dynamics of Curved Beams
Link Vibration of Structures Lecture 32 - Vibrations of Rings and Arches
Link Vibration of Structures Lecture 33 - Dynamics of Membranes
Link Vibration of Structures Lecture 34 - Vibrations of Rectangular Membrane
Link Vibration of Structures Lecture 35 - Vibrations of Circular Membrane
Link Vibration of Structures Lecture 36 - Special Problems in Membrane Vibrations
Link Vibration of Structures Lecture 37 - Dynamics of Plates
Link Vibration of Structures Lecture 38 - Vibrations of Rectangular Plates
Link Vibration of Structures Lecture 39 - Vibrations of Circular Plates
Link Vibration of Structures Lecture 40 - Special Problems in Plate Vibrations
Link Basic Thermodynamics Lecture 1 - Introduction and Fundamental Concepts
Link Basic Thermodynamics Lecture 2 - Zeroth Law and Fundamental Concepts
Link Basic Thermodynamics Lecture 3 - Different Kind of Energy and First Low - I
Link Basic Thermodynamics Lecture 4 - First Low - II
Link Basic Thermodynamics Lecture 5 - First Low - III
Link Basic Thermodynamics Lecture 6 - Second Law and Its Corollaries - I
Link Basic Thermodynamics Lecture 7 - Second Law and Its Corollaries - II
Link Basic Thermodynamics Lecture 8 - Second Law and Its Corollaries - III
Link Basic Thermodynamics Lecture 9 - Second Law and Its Corollaries - IV
Link Basic Thermodynamics Lecture 10 - Second Law and Available Energy - I
Link Basic Thermodynamics Lecture 11 - Second Law and Available Energy - II
Link Basic Thermodynamics Lecture 12 - Second Law and Available Energy - III
Link Basic Thermodynamics Lecture 13 - Thermodynamic Property Relations - I
Link Basic Thermodynamics Lecture 14 - Thermodynamic Property Relations - II
Link Basic Thermodynamics Lecture 15 - Joule-Kelvin Expansion: Properties of Pure Substances
Link Basic Thermodynamics Lecture 16 - Properties of Pure Substances - I
Link Basic Thermodynamics Lecture 17 - Properties of Pure Substances - II
Link Basic Thermodynamics Lecture 18 - Properties of Pure Substances: Ideal Gases
Link Basic Thermodynamics Lecture 19 - Properties of Ideal Gases
Link Basic Thermodynamics Lecture 20 - Vapors Power Cycle - I
Link Basic Thermodynamics Lecture 21 - Vapor Power Cycle - II
Link Basic Thermodynamics Lecture 22 - Vapor Power Cycle - III
Link Basic Thermodynamics Lecture 23 - Vapor Power Cycle - IV
Link Basic Thermodynamics Lecture 24 - Gas Power Cycle - I
Link Basic Thermodynamics Lecture 25 - Gas Power Cycle - II
Link Basic Thermodynamics Lecture 26 - Gas Power Cycle - III
Link Basic Thermodynamics Lecture 27 - Thermodynamics of Reacting System - I
Link Basic Thermodynamics Lecture 28 - Thermodynamics of Reacting System - II
Link Basic Thermodynamics Lecture 29 - Thermodynamics of Reacting System - III
Link Basic Thermodynamics Lecture 30 - Thermodynamics of Multi Component System - I
Link Basic Thermodynamics Lecture 31 - Thermodynamics of Multi Component System - II
Link Basic Thermodynamics Lecture 32 - Thermodynamics of Multi Component System - III
Link Design of Machine Elements I Lecture 1 - Design Philosophy
Link Design of Machine Elements I Lecture 2 - Design And Manufacturing
Link Design of Machine Elements I Lecture 3 - Engineering Materials
Link Design of Machine Elements I Lecture 4 - Engineering Materials
Link Design of Machine Elements I Lecture 5 - Simple Stresses In Machine Elements
Link Design of Machine Elements I Lecture 6 - Simple Stresses In Machine Elements
Link Design of Machine Elements I Lecture 7 - Compound Stresses In Machine Elements
Link Design of Machine Elements I Lecture 8 - Design For Strength
Link Design of Machine Elements I Lecture 9 - Design for Strength
Link Design of Machine Elements I Lecture 10 - Design For Strength
Link Design of Machine Elements I Lecture 11 - Design for Strength
Link Design of Machine Elements I Lecture 12 - Design for Strength
Link Design of Machine Elements I Lecture 13 - Design of Fasteners - I
Link Design of Machine Elements I Lecture 14 - Design of Fasteners - II
Link Design of Machine Elements I Lecture 15 - Design Of Keys and Splines
Link Design of Machine Elements I Lecture 16 - Threaded Fasteners
Link Design of Machine Elements I Lecture 17 - Design Of Threaded Fasteners
Link Design of Machine Elements I Lecture 18 - Power Screws
Link Design of Machine Elements I Lecture 19 - Design Of Power Screws
Link Design of Machine Elements I Lecture 20 - Shaft Coupling - I
Link Design of Machine Elements I Lecture 21 - Shaft Coupling - II
Link Design of Machine Elements I Lecture 22 - Rivet Joints
Link Design of Machine Elements I Lecture 23 - Design of Welded Joints - I
Link Design of Machine Elements I Lecture 24 - Design of Welded Joints - II
Link Design of Machine Elements I Lecture 25 - Design of Joints With Eccentric Loading
Link Design of Machine Elements I Lecture 26 - Design of Joints With Variable Loading
Link Design of Machine Elements I Lecture 27 - Design of Springs
Link Design of Machine Elements I Lecture 28 - Design Of Springs
Link Design of Machine Elements I Lecture 29 - Design Of Springs
Link Design of Machine Elements I Lecture 30 - Belt Drives
Link Design of Machine Elements I Lecture 31 - Belt Drives
Link Design of Machine Elements I Lecture 32 - Belt Drives
Link Design of Machine Elements I Lecture 33 - Design for Strength
Link Design of Machine Elements I Lecture 34 - Design of Shafts
Link Design of Machine Elements I Lecture 35 - Design of Machine Elements - I (V & W)
Link Design of Machine Elements I Lecture 36 - Design of Machine Elements - II (V & W)
Link Design of Machine Elements I Lecture 37 - Design of Cylinders & Pressure Vessels - II
Link Design of Machine Elements I Lecture 38 - Design of Cylinders & Pressure Vessels - III
Link Design of Machine Elements I Lecture 39 - Design of Brakes - I
Link Design of Machine Elements I Lecture 40 - Design of Brakes - II
Link Manufacturing Processes II Lecture 1 - Instructional Objectives - I (Manufacturing Process II)
Link Manufacturing Processes II Lecture 2 - Instructional Objectives - II
Link Manufacturing Processes II Lecture 3 - On Tool Geometry
Link Manufacturing Processes II Lecture 4 - Interrelations Among The Tool Angles
Link Manufacturing Processes II Lecture 5 - Mechanism of Chip Formation
Link Manufacturing Processes II Lecture 6 - Orthogonal and Oblique Cutting
Link Manufacturing Processes II Lecture 7 - Use of Chip Breaker in Machining
Link Manufacturing Processes II Lecture 8 - Machining Forces
Link Manufacturing Processes II Lecture 9 - Analytical and Experimental
Link Manufacturing Processes II Lecture 10 - Dynamometers for Measuring Cutting Forces
Link Manufacturing Processes II Lecture 11 - CTCEAC
Link Manufacturing Processes II Lecture 12 - CCTCFA
Link Manufacturing Processes II Lecture 13 - Concept of Machinability and its Improvement
Link Manufacturing Processes II Lecture 14 - Tool Life
Link Manufacturing Processes II Lecture 15 - Conventional Cutting Tool Maths
Link Manufacturing Processes II Lecture 16 - Advanced Tool Materials
Link Manufacturing Processes II Lecture 17 - Kinematics System of Centre Lathe
Link Manufacturing Processes II Lecture 18 - General Purpose Machine Tool Drills
Link Manufacturing Processes II Lecture 19 - Kinematic Systems and Operations
Link Manufacturing Processes II Lecture 20 - Configuration and Kinematic System
Link Manufacturing Processes II Lecture 21 - Mounting of jobs and Cutting Tools in Machine
Link Manufacturing Processes II Lecture 22 - Mounting of jobs and Cutting Tools in Machine
Link Manufacturing Processes II Lecture 23 - Construction, Operation and Tool Layout
Link Manufacturing Processes II Lecture 24 - Use of Attachments In Machine Tools
Link Manufacturing Processes II Lecture 25 - Forces Developing and Acting In Machine Tools
Link Manufacturing Processes II Lecture 26 - Estimation of Machining Time
Link Manufacturing Processes II Lecture 27 - Broaching - Principle Systems and Applications
Link Manufacturing Processes II Lecture 28 - Grinding Principle and Application
Link Manufacturing Processes II Lecture 29 - Abrasive Processes
Link Manufacturing Processes II Lecture 30 - Abrasive Processes (Grinding)
Link Manufacturing Processes II Lecture 31 - Super finishing Processes
Link Manufacturing Processes II Lecture 32 - Production of Screw Threads
Link Manufacturing Processes II Lecture 33 - Gear Manufacturing
Link Manufacturing Processes II Lecture 34 - Jigs and Fixtures For Machine Shops
Link Manufacturing Processes II Lecture 35 - Design and Applications of Jigs and Fixtures
Link Manufacturing Processes II Lecture 36 - Non Traditional Manufacturing
Link Manufacturing Processes II Lecture 37 - Ultrasonic Machining
Link Manufacturing Processes II Lecture 38 - Water Jet Machining and Abrasive Water Jet
Link Manufacturing Processes II Lecture 39 - Electro - Chemical Machining
Link Manufacturing Processes II Lecture 40 - Electro - Discharge Machining
Link Manufacturing Processes II Lecture 41 - EBM and LBM
Link Refrigeration and Air Conditioning Lecture 1 - History of Refrigeration
Link Refrigeration and Air Conditioning Lecture 2 - Refrigerant Compressors & Development
Link Refrigeration and Air Conditioning Lecture 3 - Applications of RTAC
Link Refrigeration and Air Conditioning Lecture 4 - Review of Fundamentals Thermodynamics - I
Link Refrigeration and Air Conditioning Lecture 5 - Review of Fundamentals
Link Refrigeration and Air Conditioning Lecture 6 - Fundamentals of Fluid Flow
Link Refrigeration and Air Conditioning Lecture 7 - Fundamentals of Heat Transfer
Link Refrigeration and Air Conditioning Lecture 8 - Methods of Producing low Temperatures
Link Refrigeration and Air Conditioning Lecture 9 - Air Cycle Refrigeration Systems
Link Refrigeration and Air Conditioning Lecture 10 - Vapour Compression Refrigeration Systems
Link Refrigeration and Air Conditioning Lecture 11 - Vapour Compression Refrigeration Systems (Continued...)
Link Refrigeration and Air Conditioning Lecture 12 - Vapour Compression Refrigeration Systems (Continued...)
Link Refrigeration and Air Conditioning Lecture 13 - Vapour Compression Refrigeration Systems (Continued...)
Link Refrigeration and Air Conditioning Lecture 14 - Vapour Absorption Refrigeration Systems
Link Refrigeration and Air Conditioning Lecture 15 - Vapour Absorption Refrigeration System
Link Refrigeration and Air Conditioning Lecture 16 - Vapour Absorption Refrigeration Systems (Continued...)
Link Refrigeration and Air Conditioning Lecture 17 - Vapour Absorption Refrigeration Systems (Continued...)
Link Refrigeration and Air Conditioning Lecture 18 - Worked Out Examples - I
Link Refrigeration and Air Conditioning Lecture 19 - Worked Out Examples - II
Link Refrigeration and Air Conditioning Lecture 20 - Refrigeration System Components : Compressor
Link Refrigeration and Air Conditioning Lecture 21 - Refrigeration System Components : Compressor (Continued...)
Link Refrigeration and Air Conditioning Lecture 22 - Refrigeration System Components : Compressor (Continued...)
Link Refrigeration and Air Conditioning Lecture 23 - Refrigeration System Components : Compressor (Continued...)
Link Refrigeration and Air Conditioning Lecture 24 - Refrigeration System Components : Compressor (Continued...)
Link Refrigeration and Air Conditioning Lecture 25 - Refrigeration System Components : Compressor (Continued...)
Link Refrigeration and Air Conditioning Lecture 26 - Refrigeration System Components : Condensers
Link Refrigeration and Air Conditioning Lecture 27 - Refrigeration System Components : Condensers (Continued...)
Link Refrigeration and Air Conditioning Lecture 28 - Refrigeration System Components : Evaporators
Link Refrigeration and Air Conditioning Lecture 29 - Refrigeration System Components : Evaporators
Link Refrigeration and Air Conditioning Lecture 30 - Refrigeration System Components : Expansion Devices
Link Refrigeration and Air Conditioning Lecture 31 - Refrigeration System Components : Expansion Devices
Link Refrigeration and Air Conditioning Lecture 32 - Analysis of Complete Vapour Compression System
Link Refrigeration and Air Conditioning Lecture 33 - Refrigerants
Link Refrigeration and Air Conditioning Lecture 34 - Psychrometry
Link Refrigeration and Air Conditioning Lecture 35 - Psychrometric Processes
Link Refrigeration and Air Conditioning Lecture 36 - Inside Design Condition Thermal Comfort
Link Refrigeration and Air Conditioning Lecture 37 - Psychrometry of Air Conditioning Systems
Link Refrigeration and Air Conditioning Lecture 38 - Air Conditioning Systems
Link Refrigeration and Air Conditioning Lecture 39 - Cooling and Heating Load Calculation : Solar Radiation
Link Refrigeration and Air Conditioning Lecture 40 - Cooling and Heating Load Calculations
Link Refrigeration and Air Conditioning Lecture 41 - Cooling and Heating Load Calculations (Continued...)
Link Refrigeration and Air Conditioning Lecture 42 - Cooling and Heating Load Calculations (Continued...)
Link Refrigeration and Air Conditioning Lecture 43 - Selection of Air Conditioning Systems
Link Refrigeration and Air Conditioning Lecture 44 - Transmission and Distribution of Air
Link Refrigeration and Air Conditioning Lecture 45 - Transmission and Distribution of Air (Continued..)
Link Refrigeration and Air Conditioning Lecture 46 - Space Air Distribution
Link Fluid Mechanics Lecture 1 - Introduction and Fundamental Concepts - Part I
Link Fluid Mechanics Lecture 2 - Introduction and Fundamental Concepts - Part II
Link Fluid Mechanics Lecture 3 - Introduction and Fundamental Concepts - Part III
Link Fluid Mechanics Lecture 4 - Fluid Statics - Part I
Link Fluid Mechanics Lecture 5 - Fluid Statics - Part II
Link Fluid Mechanics Lecture 6 - Fluid Statics - Part III
Link Fluid Mechanics Lecture 7 - Fluid Statics - Part IV
Link Fluid Mechanics Lecture 8 - Fluid Statics - Part V
Link Fluid Mechanics Lecture 9 - Fluid Statics - Part VI
Link Fluid Mechanics Lecture 10 - Kinematics of Fluid - Part I
Link Fluid Mechanics Lecture 11 - Kinematics of Fluid - Part II
Link Fluid Mechanics Lecture 12 - Kinematics of Fluid - Part III
Link Fluid Mechanics Lecture 13 - Conservation Equations in Fluid Flow - Part I
Link Fluid Mechanics Lecture 14 - Conservation Equations in Fluid Flow - Part II
Link Fluid Mechanics Lecture 15 - Conservation Equations in Fluid Flow - Part III
Link Fluid Mechanics Lecture 16 - Conservation Equations in Fluid Flow - Part IV
Link Fluid Mechanics Lecture 17 - Conservation Equations in Fluid Flow - Part V
Link Fluid Mechanics Lecture 18 - Conservation Equations in Fluid Flow - Part VI
Link Fluid Mechanics Lecture 19 - Conservation Equations in Fluid Flow - Part VII
Link Fluid Mechanics Lecture 20 - Conservation Equations in Fluid Flow - Part VIII
Link Fluid Mechanics Lecture 21 - Conservation Equations in Fluid Flow - Part IX
Link Fluid Mechanics Lecture 22 - Fluid Flow Applications - Part I
Link Fluid Mechanics Lecture 23 - Fluid Flow Applications - Part II
Link Fluid Mechanics Lecture 24 - Fluid Flow Applications - Part III
Link Fluid Mechanics Lecture 25 - Fluid Flow Applications - Part IV
Link Fluid Mechanics Lecture 26 - Fluid Flow Applications - Part V
Link Fluid Mechanics Lecture 27 - Fluid Flow Applications - Part VI
Link Fluid Mechanics Lecture 28 - Fluid Flow Applications - Part VII
Link Fluid Mechanics Lecture 29 - Incompressible Viscous Flows - Part I
Link Fluid Mechanics Lecture 30 - Incompressible Viscous Flows - Part II
Link Fluid Mechanics Lecture 31 - Incompressible Viscous Flows - Part III
Link Fluid Mechanics Lecture 32 - Incompressible Viscous Flows - Part IV
Link Fluid Mechanics Lecture 33 - Application of ViscousFlow Through Pipes - Part I
Link Fluid Mechanics Lecture 34 - Application of ViscousFlow Through Pipes - Part II
Link Fluid Mechanics Lecture 35 - Application of ViscousFlow Through Pipes - Part III
Link Fluid Mechanics Lecture 36 - Principles of Similarity - Part I
Link Fluid Mechanics Lecture 37 - Principles of Similarity - Part II
Link Fluid Mechanics Lecture 38 - Principles of Similarity - Part III
Link Fluid Mechanics Lecture 39 - Flow of Ideal Fluids - Part I
Link Fluid Mechanics Lecture 40 - Flow of Ideal Fluids - Part II
Link Fluid Mechanics Lecture 41 - Flows with a Free Surface - Part I
Link Fluid Mechanics Lecture 42 - Flows with a Free Surface - Part II
Link Fluid Mechanics Lecture 43 - Flows with a Free Surface - Part III
Link Fluid Mechanics Lecture 44 - A Few Unsteady Flow Phenomena in Practice - Part I
Link Fluid Mechanics Lecture 45 - A Few Unsteady Flow Phenomena in Practice - Part II
Link Fluid Mechanics Lecture 46 - Introduction to Laminar Boundary Layer - Part I
Link Fluid Mechanics Lecture 47 - Introduction to Laminar Boundary Layer - Part II
Link Fluid Mechanics Lecture 48 - Introduction to Turbulent Flow - Part I
Link Fluid Mechanics Lecture 49 - Introduction to Turbulent Flow - Part II
Link Introduction to Fluid Machines and Compressible Flow Lecture 1 - Introduction to Fluid Machines 1
Link Introduction to Fluid Machines and Compressible Flow Lecture 2 - Energy Transfer in Fluid Machines Part - I
Link Introduction to Fluid Machines and Compressible Flow Lecture 3 - Energy Transfer in Fluid Machines Part - II
Link Introduction to Fluid Machines and Compressible Flow Lecture 4 - Energy Transfer - impulse and Reaction Machines, efficiencies of Fluid Machines
Link Introduction to Fluid Machines and Compressible Flow Lecture 5 - Principles of Similarity in Fluid Machines
Link Introduction to Fluid Machines and Compressible Flow Lecture 6 - Concept of specific speed and introduction to Impulse Hydraulic Turbine
Link Introduction to Fluid Machines and Compressible Flow Lecture 7 - Analysis of force on the Bucket of Pelton wheel and Power Generation
Link Introduction to Fluid Machines and Compressible Flow Lecture 8 - Specific speed, Governing and Limitation of a Pelton Turbine
Link Introduction to Fluid Machines and Compressible Flow Lecture 9 - Introduction to reaction Type of Hydraulic Turbine - A Francis Turbine
Link Introduction to Fluid Machines and Compressible Flow Lecture 10 - Analysis of Force on Francis Runner and Power Generation
Link Introduction to Fluid Machines and Compressible Flow Lecture 11 - Axial Flow Machine and Draft Tube
Link Introduction to Fluid Machines and Compressible Flow Lecture 12 - Governing of Reaction Turbine
Link Introduction to Fluid Machines and Compressible Flow Lecture 13 - Introduction to Rotodynamic Pumps
Link Introduction to Fluid Machines and Compressible Flow Lecture 14 - Flow and Energy Transfer in a Centrifugal Pump
Link Introduction to Fluid Machines and Compressible Flow Lecture 15 - Characteristics of a Centrifugal Pump
Link Introduction to Fluid Machines and Compressible Flow Lecture 16 - Matching of Pump and System Characteristics
Link Introduction to Fluid Machines and Compressible Flow Lecture 17 - Diffuser and Cavitation
Link Introduction to Fluid Machines and Compressible Flow Lecture 18 - Axial Flow Pump
Link Introduction to Fluid Machines and Compressible Flow Lecture 19 - Reciprocating Pump - Part I
Link Introduction to Fluid Machines and Compressible Flow Lecture 20 - Reciprocating Pump - Part II
Link Introduction to Fluid Machines and Compressible Flow Lecture 21 - Centrifugal Compressor - Part I
Link Introduction to Fluid Machines and Compressible Flow Lecture 22 - Centrifugal Compressor - Part II
Link Introduction to Fluid Machines and Compressible Flow Lecture 23 - Centrifugal Compressor - Part III
Link Introduction to Fluid Machines and Compressible Flow Lecture 24 - Axial Flow Compressor - Part I
Link Introduction to Fluid Machines and Compressible Flow Lecture 25 - Axial Flow Compressor - Part II
Link Introduction to Fluid Machines and Compressible Flow Lecture 26 - Introduction to Compressible Flow - Part I
Link Introduction to Fluid Machines and Compressible Flow Lecture 27 - Introduction to Compressible Flow - Part II
Link Introduction to Fluid Machines and Compressible Flow Lecture 28 - Thermodynamic Relations and Speed of Sound
Link Introduction to Fluid Machines and Compressible Flow Lecture 29 - Disturbance propagation, Stagnation and Sonic Properties
Link Introduction to Fluid Machines and Compressible Flow Lecture 30 - Effects of Area Variation on Properties in an Isentropic Flow
Link Introduction to Fluid Machines and Compressible Flow Lecture 31 - Choking in a Converging Nozzle
Link Introduction to Fluid Machines and Compressible Flow Lecture 32 - Isentropic Flow through Convergent - Divergent Duct
Link Introduction to Fluid Machines and Compressible Flow Lecture 33 - Normal Shock - Part I
Link Introduction to Fluid Machines and Compressible Flow Lecture 34 - Normal Shock - Part II
Link Introduction to Fluid Machines and Compressible Flow Lecture 35 - Normal Shock - Part III
Link Introduction to Fluid Machines and Compressible Flow Lecture 36 - Normal Shock - Part IV
Link Introduction to Fluid Machines and Compressible Flow Lecture 37 - Normal Shock - Part V
Link Introduction to Fluid Machines and Compressible Flow Lecture 38 - Oblique Shock - Part I
Link Introduction to Fluid Machines and Compressible Flow Lecture 39 - Oblique Shock - Part II
Link Introduction to Fluid Machines and Compressible Flow Lecture 40 - Introduction to Expansion Wave and Prandtl Meyer Flow
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 1 - Introductory Concepts
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 2 - Introductory Concepts (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 3 - Introductory Concepts (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 4 - Viscosity
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 5 - Viscosity (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 6 - Viscosity (Continued...) and Surface Tension
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 7 - Surface Tension (Continued...) and Fluid Statics
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 8 - Fluid Statics (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 9 - Fluid Statics (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 10 - Fluid Statics (Continued...) and Fluid Under Rigid Body Motion
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 11 - Fluid Kinematics
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 12 - Fluid Kinematics (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 13 - Fluid Kinematics (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 14 - Fluid Kinematics (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 15 - Fluid Kinematics (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 16 - Dynamics of Inviscid Flows
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 17 - Dynamics of Inviscid Flows (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 18 - Dynamics of Inviscid Flows (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 19 - Dynamics of Inviscid Flows (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 20 - Dynamics of Inviscid Flows (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 21 - Integral Forms of Control Volume Conservation Equations (Reynolds Transport Theorem)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 22 - Integral Forms of Control Volume Conservation Equations (Reynolds Transport Theorem) (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 23 - Integral Forms of Control Volume Conservation Equations (Reynolds Transport Theorem) (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 24 - Integral Forms of Control Volume Conservation Equations (Reynolds Transport Theorem) (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 25 - Integral Forms of Control Volume Conservation Equations (Reynolds Transport Theorem) (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 26 - Integral Forms of Control Volume Conservation Equations (Reynolds Transport Theorem) (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 27 - Integral Forms of Control Volume Conservation Equations (Reynolds Transport Theorem) (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 28 - Dynamics of Viscous Flows : Navier Stokes Equation
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 29 - Dynamics of Viscous Flows : Navier Stokes Equation (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 30 - Some Exact Solutions of Navier Stokes Equation
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 31 - Some Exact Solutions of Navier Stokes Equation (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 32 - Some Exact Solutions of Navier Stokes Equation (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 33 - Introduction to Turbulence
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 34 - Introduction to Turbulence (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 35 - Introduction to Turbulence (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 36 - Introduction to Turbulence (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 37 - Boundary Layer Theory
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 38 - Boundary Layer Theory (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 39 - Boundary Layer Theory (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 40 - Boundary Layer Theory (Continued...) and Flow Past Immersed Bodies
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 41 - Flow past Immersed Bodies (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 42 - Potential Flow Past Immersed Bodies
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 43 - Potential Flow (Continued...) and Flow Past Immersed Bodies of Special Shapes
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 44 - Flow Past Immersed Bodies (Continued...) and Sports Ball Aerodynamics
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 45 - Pipe Flow
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 46 - Pipe Flow (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 47 - Pipe Flow (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 48 - Principles of Similarity and Dimensional Analysis
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 49 - Introduction to Fluid Machines
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 50 - Introduction to Fluid Machines (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 51 - Introduction to Fluid Machines (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 52 - Introduction to Fluid Machines (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 53 - Introduction to Fluid Machines (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 54 - Compressible Flows
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 55 - Compressible Flows (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 56 - Compressible Flows (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 57 - Compressible Flows (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 58 - Compressible Flows (Continued...)
Link Micro fluidics Lecture 1 - Introduction to Microfluidics
Link Micro fluidics Lecture 2 - Microfluidics: Some Application Examples
Link Micro fluidics Lecture 3 - Microfluidics: Some More Application Examples
Link Micro fluidics Lecture 4 - Equations of Conservation
Link Micro fluidics Lecture 5 - Navier Stokes Equation
Link Micro fluidics Lecture 6 - Navier Stokes Equation (Continued...)
Link Micro fluidics Lecture 7 - Energy Equation
Link Micro fluidics Lecture 8 - Energy Equation (Continued...) and Species Conservation Equation
Link Micro fluidics Lecture 9 - Pressure-driven Microflows
Link Micro fluidics Lecture 10 - Pressure-driven Microflows (Continued...)
Link Micro fluidics Lecture 11 - Pressure-driven Microflows (Continued...)
Link Micro fluidics Lecture 12 - Pressure-driven Microflows (Continued...)
Link Micro fluidics Lecture 13 - Pressure -driven Microflows (Continued...)
Link Micro fluidics Lecture 14 - Some Examples of Unsteady Flows
Link Micro fluidics Lecture 15 - Some Examples of Unsteady Flows (Continued...)
Link Micro fluidics Lecture 16 - Some Examples of Unsteady Flows (Continued...)
Link Micro fluidics Lecture 17 - Stokes Drag on a Sphere
Link Micro fluidics Lecture 18 - Stokes Drag on a Sphere (Continued...) and Introduction to Lubrication Theory
Link Micro fluidics Lecture 19 - Lubircation Theory (Continued...)
Link Micro fluidics Lecture 20 - Lubrication Theory (Continued...)
Link Micro fluidics Lecture 21 - Boundary Condition in Fluid Mechanics: Slip or No-slip?
Link Micro fluidics Lecture 22 - Boundary Condition in Fluid Mechanics: Slip or No-slip? (Continued...)
Link Micro fluidics Lecture 23 - Surface Tension Driven Flows
Link Micro fluidics Lecture 24 - Surface Tension Driven Flows (Continued...)
Link Micro fluidics Lecture 25 - Surface Tension Driven Flows (Continued...)
Link Micro fluidics Lecture 26 - Surface Tension Driven Flows (Continued...)
Link Micro fluidics Lecture 27 - Surface Tension Driven Flows (Continued...) and Modulating Surface Tension
Link Micro fluidics Lecture 28 - Modulating Surface Tension (Continued...)
Link Micro fluidics Lecture 29 - Thin Film Dynamics
Link Micro fluidics Lecture 30 - Thin Film Dynamics (Continued...)
Link Micro fluidics Lecture 31 - Thin Film Dynamics (Continued...)
Link Micro fluidics Lecture 32 - Thin Film Dynamics (Continued...)
Link Micro fluidics Lecture 33 - Lab on a CD
Link Micro fluidics Lecture 34 - Lab on a CD (Continued...)
Link Micro fluidics Lecture 35 - Introduction to Microfabrication
Link Micro fluidics Lecture 36 - Electrokinetics
Link Micro fluidics Lecture 37 - Electrokinetics (Continued...)
Link Micro fluidics Lecture 38 - Electrokinetics (Continued...)
Link Micro fluidics Lecture 39 - Electrokinetics (Continued...)
Link Micro fluidics Lecture 40 - Electrokinetics (Continued...)
Link Micro fluidics Lecture 41 - Electrokinetics (Continued...)
Link Micro fluidics Lecture 42 - Dispersion
Link Micro fluidics Lecture 43 - Introduction to Nanofluidics
Link Micro fluidics Lecture 44 - Introduction to Nanofluidics (Continued...) and Molecular Dynamics Simulations
Link Micro fluidics Lecture 45 - Introduction to Molecular Dynamics Simulations (Continued...)
Link Micro fluidics Lecture 46 - Biomicrofluidics
Link Micro fluidics Lecture 47 - Biomicrofluidics (Continued...)
Link Micro fluidics Lecture 48 - Nanofluidic Energy Conversion
Link NOC:Conduction and Convection Heat Transfer Lecture 1 - Introduction and Fundamental Concepts - I
Link NOC:Conduction and Convection Heat Transfer Lecture 2 - Introduction and Fundamental Concepts - II
Link NOC:Conduction and Convection Heat Transfer Lecture 3 - Heat Conduction Equation
Link NOC:Conduction and Convection Heat Transfer Lecture 4 - Heat Conduction Equation and Different Types of Boundary Conditions
Link NOC:Conduction and Convection Heat Transfer Lecture 5 - 1D Steady State Heat Conduction In Plane Wall Without Generation of Thermal Energy
Link NOC:Conduction and Convection Heat Transfer Lecture 6 - 1D Steady State Heat Conduction In Plane Wall With Generation of Thermal Energy
Link NOC:Conduction and Convection Heat Transfer Lecture 7 - Problems on 1D Steady State Heat Conduction In Plane Wall
Link NOC:Conduction and Convection Heat Transfer Lecture 8 - 1D Steady State Heat Conduction In Cylindrical Geometry
Link NOC:Conduction and Convection Heat Transfer Lecture 9 - 1D Steady State Heat Conduction In Cylindrical Geometry (Continued...)
Link NOC:Conduction and Convection Heat Transfer Lecture 10 - 1D Steady State Heat Conduction in Spherical Geometry
Link NOC:Conduction and Convection Heat Transfer Lecture 11 - Hear Transfer from Extended Surfaces (Fins)
Link NOC:Conduction and Convection Heat Transfer Lecture 12 - Hear Transfer from Extended Surfaces (Continued...)
Link NOC:Conduction and Convection Heat Transfer Lecture 13 - Two-dimensional Steady State Heat Conduction
Link NOC:Conduction and Convection Heat Transfer Lecture 14 - Unsteady State Heat Conduction
Link NOC:Conduction and Convection Heat Transfer Lecture 15 - Unsteady State Heat Conduction (Continued...)
Link NOC:Conduction and Convection Heat Transfer Lecture 16 - One Dimensional Unsteady State Heat Conduction - I
Link NOC:Conduction and Convection Heat Transfer Lecture 17 - One Dimensional Unsteady State Heat Conduction - II
Link NOC:Conduction and Convection Heat Transfer Lecture 18 - Introduction to Convection
Link NOC:Conduction and Convection Heat Transfer Lecture 19 - Convection - I
Link NOC:Conduction and Convection Heat Transfer Lecture 20 - Review of Fluid Mechanics - I
Link NOC:Conduction and Convection Heat Transfer Lecture 21 - Review of Fluid Mechanics - II
Link NOC:Conduction and Convection Heat Transfer Lecture 22 - Review of Fluid Mechanics - III
Link NOC:Conduction and Convection Heat Transfer Lecture 23 - Review of Fluid Mechanics - IV
Link NOC:Conduction and Convection Heat Transfer Lecture 24 - Review of Fluid Mechanics - V
Link NOC:Conduction and Convection Heat Transfer Lecture 25 - Review of Fluid Mechanics - VI
Link NOC:Conduction and Convection Heat Transfer Lecture 26 - Review of Fluid Mechanics - VIII
Link NOC:Conduction and Convection Heat Transfer Lecture 27 - Energy Equation - I
Link NOC:Conduction and Convection Heat Transfer Lecture 28 - Energy Equation - II and Thermal Boundary Layer - I
Link NOC:Conduction and Convection Heat Transfer Lecture 29 - Thermal Boundary Layer - II
Link NOC:Conduction and Convection Heat Transfer Lecture 30 - Integral Method for Thermal BL Analysis
Link NOC:Conduction and Convection Heat Transfer Lecture 31 - Internal Forced Convection - I
Link NOC:Conduction and Convection Heat Transfer Lecture 32 - Internal Forced Convection - II
Link NOC:Conduction and Convection Heat Transfer Lecture 33 - Internal Forced Convection - III
Link NOC:Conduction and Convection Heat Transfer Lecture 34 - Internal Forced Convection - IV
Link NOC:Conduction and Convection Heat Transfer Lecture 35 - Free Convection - I (Natural Convection)
Link NOC:Conduction and Convection Heat Transfer Lecture 36 - Free Convection - II (Natural Convection)
Link NOC:Conduction and Convection Heat Transfer Lecture 37 - Boiling and Condensation - I
Link NOC:Conduction and Convection Heat Transfer Lecture 38 - Boiling and Condensation - II
Link NOC:Conduction and Convection Heat Transfer Lecture 39 - Heat Exchanger - I
Link NOC:Conduction and Convection Heat Transfer Lecture 40 - Heat Exchanger - II
Link NOC:Conduction and Convection Heat Transfer Lecture 41 - Heat Exchanger - II (Continued...)
Link NOC:Vibrations of Structures Lecture 1 - Transverse Vibrations of Strings - I
Link NOC:Vibrations of Structures Lecture 2 - Transverse Vibrations of Strings - II
Link NOC:Vibrations of Structures Lecture 3 - Axial and Torsional Vibrations of Bars
Link NOC:Vibrations of Structures Lecture 4 - Variational Formulation - I
Link NOC:Vibrations of Structures Lecture 5 - Variational Formulation - II
Link NOC:Vibrations of Structures Lecture 6 - Modal Analysis - I
Link NOC:Vibrations of Structures Lecture 7 - Modal Analysis - II
Link NOC:Vibrations of Structures Lecture 8 - Properties of the Eigenvalue Problem
Link NOC:Vibrations of Structures Lecture 9 - Modal Analysis: Approximate Methods - I
Link NOC:Vibrations of Structures Lecture 10 - Modal Analysis: Approximate Methods - II
Link NOC:Vibrations of Structures Lecture 11 - The Initial Value Problem
Link NOC:Vibrations of Structures Lecture 12 - Forced Vibration Analysis - I
Link NOC:Vibrations of Structures Lecture 13 - Forced Vibration Analysis - II
Link NOC:Vibrations of Structures Lecture 14 - Forced Vibration Analysis - III
Link NOC:Vibrations of Structures Lecture 15 - Dumping in Structures - I
Link NOC:Vibrations of Structures Lecture 16 - Damping in Structures - II
Link NOC:Vibrations of Structures Lecture 17 - Beam Models - I
Link NOC:Vibrations of Structures Lecture 18 - Beam Models - II
Link NOC:Vibrations of Structures Lecture 19 - Modal Analysis of Beams
Link NOC:Vibrations of Structures Lecture 20 - Application of Modal Solution
Link NOC:Vibrations of Structures Lecture 21 - Approximate Methods
Link NOC:Vibrations of Structures Lecture 22 - Topics in Beam Vibrations - I
Link NOC:Vibrations of Structures Lecture 23 - Topics in Beam Vibrations - II
Link NOC:Vibrations of Structures Lecture 24 - Dynamics of Curved Beams
Link NOC:Vibrations of Structures Lecture 25 - Vibrations of Rings and Arches - I
Link NOC:Vibrations of Structures Lecture 26 - Vibrations of Rings and Arches - II
Link NOC:Vibrations of Structures Lecture 27 - Dynamics of Membranes
Link NOC:Vibrations of Structures Lecture 28 - Vibrations of Rectangular Membranes
Link NOC:Vibrations of Structures Lecture 29 - Vibrations of Circular Membranes - I
Link NOC:Vibrations of Structures Lecture 30 - Vibrations of Circular Membranes - II
Link NOC:Vibrations of Structures Lecture 31 - Dynamics of Plates
Link NOC:Vibrations of Structures Lecture 32 - Vibrations of Rectangular Plates
Link NOC:Vibrations of Structures Lecture 33 - Vibrations of Circular Plates
Link NOC:Vibrations of Structures Lecture 34 - Special Problems in Plate Vibrations - I
Link NOC:Vibrations of Structures Lecture 35 - Special Problems in Plate Vibrations - II
Link NOC:Fluid Machines Lecture 1 - Definition of Fluid Machines and Energy Transfer in Fluid Machines - Part I
Link NOC:Fluid Machines Lecture 2 - Energy Transfer in Fluid Machines - Part II
Link NOC:Fluid Machines Lecture 3 - Impulse and Reaction Machines: Introductory Concepts
Link NOC:Fluid Machines Lecture 4 - Principles of Similarity in Fluid Machine
Link NOC:Fluid Machines Lecture 5 - Concept of Specific Speed
Link NOC:Fluid Machines Lecture 6 - Basic Principles, Analysis of Force and Power Generation - Part I
Link NOC:Fluid Machines Lecture 7 - Basic Principles, Analysis of Force and Power Generation - Part II
Link NOC:Fluid Machines Lecture 8 - Specific Speed Governing and Limitations of Impulse Turbine
Link NOC:Fluid Machines Lecture 9 - Tutorial - I
Link NOC:Fluid Machines Lecture 10 - Tutorial - II
Link NOC:Fluid Machines Lecture 11 - Introduction and Analysis of Force on Francis Turbine (Radial Flow) - Part I
Link NOC:Fluid Machines Lecture 12 - Analysis of Force (Part-II) and Power Generation
Link NOC:Fluid Machines Lecture 13 - Draft Tube
Link NOC:Fluid Machines Lecture 14 - Tutorial - III
Link NOC:Fluid Machines Lecture 15 - Tutorial - IV
Link NOC:Fluid Machines Lecture 16 - Axial Flow Turbine
Link NOC:Fluid Machines Lecture 17 - Governing of Reaction Turbine
Link NOC:Fluid Machines Lecture 18 - Introduction to Rotodynamic Pumps
Link NOC:Fluid Machines Lecture 19 - Flow and Energy Transfer to Centrifugal Pumps
Link NOC:Fluid Machines Lecture 20 - Tutorial - V
Link NOC:Fluid Machines Lecture 21 - Characteristics of a Centrifugal Pump
Link NOC:Fluid Machines Lecture 22 - Matching of Pump and System Characteristics
Link NOC:Fluid Machines Lecture 23 - Diffuser and Cavitation
Link NOC:Fluid Machines Lecture 24 - Tutorial - VI
Link NOC:Fluid Machines Lecture 25 - Tutorial - VIII
Link NOC:Fluid Machines Lecture 26 - Axial Flow Pump
Link NOC:Fluid Machines Lecture 27 - Reciprocating Pump - Part I
Link NOC:Fluid Machines Lecture 28 - Reciprocating Pump - Part II
Link NOC:Fluid Machines Lecture 29 - Tutorial - VIII
Link NOC:Fluid Machines Lecture 30 - Basic Principles and Energy Transfer in Centrifugal Compressor - Part I
Link NOC:Fluid Machines Lecture 31 - Basic Principles and Energy Transfer in Centrifugal Compressor - Part II
Link NOC:Fluid Machines Lecture 32 - Basic Principles and Energy Transfer in Centrifugal Compressor - Part III
Link NOC:Fluid Machines Lecture 33 - Basic Principles and Energy Transfer in Centrifugal Compressor - Part IV and Losses in Centrifugal Compressors
Link NOC:Fluid Machines Lecture 34 - Performance Characteristics of Centrifugal Compressors - Part I
Link NOC:Fluid Machines Lecture 35 - Performance Characteristics of Centrifugal Compressors - Part II
Link NOC:Fluid Machines Lecture 36 - Basic Principles and Energy Transfer in Axial Flow Compressor - Part I
Link NOC:Fluid Machines Lecture 37 - Basic Principles and Energy Transfer in Axial Flow Compressor - Part II
Link NOC:Fluid Machines Lecture 38 - Fans and Blowers - Part I
Link NOC:Fluid Machines Lecture 39 - Fans and Blowers - Part II
Link NOC:Computer numerical control (CNC) of machine tools and processes Lecture 1 - Introduction to computer control – role of computers in automation
Link NOC:Computer numerical control (CNC) of machine tools and processes Lecture 2 - Introduction (Continued...) - binary logic and logic gates
Link NOC:Computer numerical control (CNC) of machine tools and processes Lecture 3 - Classification of Computer numerical control (CNC) – Point to point and continuous control
Link NOC:Computer numerical control (CNC) of machine tools and processes Lecture 4 - Classification (Continued...) - Closed loop and open loop control
Link NOC:Computer numerical control (CNC) of machine tools and processes Lecture 5 - Tutorial involving simple calculations on different aspects of CNC controls
Link NOC:Computer numerical control (CNC) of machine tools and processes Lecture 6 - Questions, MCQ Discussions on Motors, Encoders, Decoders and Programming Practice
Link NOC:Computer numerical control (CNC) of machine tools and processes Lecture 7 - Stepper motors, Permanent magnet DC motors
Link NOC:Computer numerical control (CNC) of machine tools and processes Lecture 8 - Binary circuits and decoders
Link NOC:Computer numerical control (CNC) of machine tools and processes Lecture 9 - Tachogenerator, printed circuit motors, Encoders
Link NOC:Computer numerical control (CNC) of machine tools and processes Lecture 10 - Programming Practice - I
Link NOC:Computer numerical control (CNC) of machine tools and processes Lecture 11 - Programming Practice - II
Link NOC:Computer numerical control (CNC) of machine tools and processes Lecture 12 - Computer Aided Offline Programming
Link NOC:Computer numerical control (CNC) of machine tools and processes Lecture 13 - Interpolators - Linear
Link NOC:Computer numerical control (CNC) of machine tools and processes Lecture 14 - Interpolators - Curvilinear
Link NOC:Computer numerical control (CNC) of machine tools and processes Lecture 15 - Questions on Programming and Interpolation
Link NOC:Computer numerical control (CNC) of machine tools and processes Lecture 16 - 3-D Machining - Basic Concepts
Link NOC:Computer numerical control (CNC) of machine tools and processes Lecture 17 - Curved Surface Geometry
Link NOC:Computer numerical control (CNC) of machine tools and processes Lecture 18 - Cutter Path Generation for Curved Surfaces
Link NOC:Computer numerical control (CNC) of machine tools and processes Lecture 19 - Cutter Path Generation (Concluding Part) and Current Status - CNC Machining and Related Processes
Link NOC:Computer numerical control (CNC) of machine tools and processes Lecture 20 - Questions and Discussions on Curved Surface Machining
Link NOC:Non Traditional Abrasive Machining Processes - Ultrasonic, Abrasive Jet and Abrasive Water Jet Machining Lecture 1 - Non-traditonal abrasive machining : Ultrasonic, Abrasive jet and abrasive water jet machining
Link NOC:Non Traditional Abrasive Machining Processes - Ultrasonic, Abrasive Jet and Abrasive Water Jet Machining Lecture 2 - Ultrasonic Machining
Link NOC:Non Traditional Abrasive Machining Processes - Ultrasonic, Abrasive Jet and Abrasive Water Jet Machining Lecture 3 - Ultrasonic Machining (Continued...)
Link NOC:Non Traditional Abrasive Machining Processes - Ultrasonic, Abrasive Jet and Abrasive Water Jet Machining Lecture 4 - Utrrasonic Machining - Free Impacts and Problem Solving
Link NOC:Non Traditional Abrasive Machining Processes - Ultrasonic, Abrasive Jet and Abrasive Water Jet Machining Lecture 5 - Ultrasonic Machining - Problems and MCQs
Link NOC:Non Traditional Abrasive Machining Processes - Ultrasonic, Abrasive Jet and Abrasive Water Jet Machining Lecture 6 - USM - Horn Design
Link NOC:Non Traditional Abrasive Machining Processes - Ultrasonic, Abrasive Jet and Abrasive Water Jet Machining Lecture 7 - USM - Horn Design (Continued...)
Link NOC:Non Traditional Abrasive Machining Processes - Ultrasonic, Abrasive Jet and Abrasive Water Jet Machining Lecture 8 - Ultrasonic Machining - Feed Mechanism, Head design and other aspects
Link NOC:Non Traditional Abrasive Machining Processes - Ultrasonic, Abrasive Jet and Abrasive Water Jet Machining Lecture 9 - Ultrasonic Machining - Effects of Various Inputs on the Output
Link NOC:Non Traditional Abrasive Machining Processes - Ultrasonic, Abrasive Jet and Abrasive Water Jet Machining Lecture 10 - Ultrasonic Machining - Numerical and MCQs
Link NOC:Non Traditional Abrasive Machining Processes - Ultrasonic, Abrasive Jet and Abrasive Water Jet Machining Lecture 11 - A JM (Abrasive jet machining)
Link NOC:Non Traditional Abrasive Machining Processes - Ultrasonic, Abrasive Jet and Abrasive Water Jet Machining Lecture 12
Link NOC:Non Traditional Abrasive Machining Processes - Ultrasonic, Abrasive Jet and Abrasive Water Jet Machining Lecture 13 - A JM - Numerical problems
Link NOC:Non Traditional Abrasive Machining Processes - Ultrasonic, Abrasive Jet and Abrasive Water Jet Machining Lecture 14 - A JM - Process Parameters and Response Characteristics take - home assignment discussing
Link NOC:Non Traditional Abrasive Machining Processes - Ultrasonic, Abrasive Jet and Abrasive Water Jet Machining Lecture 15 - A JM - MCQs
Link NOC:Non Traditional Abrasive Machining Processes - Ultrasonic, Abrasive Jet and Abrasive Water Jet Machining Lecture 16
Link NOC:Non Traditional Abrasive Machining Processes - Ultrasonic, Abrasive Jet and Abrasive Water Jet Machining Lecture 17 - AWJM - Equipment
Link NOC:Non Traditional Abrasive Machining Processes - Ultrasonic, Abrasive Jet and Abrasive Water Jet Machining Lecture 18 - AWJM - Numerical Problems
Link NOC:Non Traditional Abrasive Machining Processes - Ultrasonic, Abrasive Jet and Abrasive Water Jet Machining Lecture 19 - AWJM - Application Equipment Details
Link NOC:Non Traditional Abrasive Machining Processes - Ultrasonic, Abrasive Jet and Abrasive Water Jet Machining Lecture 20 - AWJM - MCQs
Link NOC:Introduction to Fluid Mechanics Lecture 1 - Lagrangian and Eulerian Approach, Types of fluid flow
Link NOC:Introduction to Fluid Mechanics Lecture 2 - Streamlines, Streakline and Pathline
Link NOC:Introduction to Fluid Mechanics Lecture 3 - Acceleration of fluid flow
Link NOC:Introduction to Fluid Mechanics Lecture 4 - Deformation and Conservation of mass of fluid a element
Link NOC:Introduction to Fluid Mechanics Lecture 5 - Angular deformation of a fluid element, vorticity and streamfunction and velocity potential
Link NOC:Introduction to Fluid Mechanics Lecture 6 - Euler’s equation
Link NOC:Introduction to Fluid Mechanics Lecture 7 - Bernoulli's Equation - Part I
Link NOC:Introduction to Fluid Mechanics Lecture 8 - Bernoulli's Equation - Part II
Link NOC:Introduction to Fluid Mechanics Lecture 9 - Reynolds Transport Theorem (RTT)
Link NOC:Introduction to Fluid Mechanics Lecture 10 - Application of Conservation of Mass
Link NOC:Introduction to Fluid Mechanics Lecture 11 - Application of RTT: Conservation of Linear Momentum
Link NOC:Introduction to Fluid Mechanics Lecture 12 - Application of RTT in Accelerating Reference Frames
Link NOC:Introduction to Fluid Mechanics Lecture 13 - Navier's Equation of Motion
Link NOC:Introduction to Fluid Mechanics Lecture 14 - Derivation of Navier-Stokes Equation
Link NOC:Introduction to Fluid Mechanics Lecture 15 - Derivation of Navier-Stokes Equation (Continued...)
Link NOC:Introduction to Fluid Mechanics Lecture 16 - Derivation of Navier-Stokes Equation (Continued...)
Link NOC:Introduction to Fluid Mechanics Lecture 17 - Fully developed flow between two parallel plates
Link NOC:Introduction to Fluid Mechanics Lecture 18 - Fully developed flow between two parallel plates (Continued...)
Link NOC:Introduction to Fluid Mechanics Lecture 19 - Couette flow
Link NOC:Introduction to Fluid Mechanics Lecture 20 - Flow with interfaces
Link NOC:Introduction to Fluid Mechanics Lecture 21 - Thin film flow on an inclined plane and Hagen-Poiseuille flow
Link NOC:Introduction to Fluid Mechanics Lecture 22 - Hagen-Poiseuille flow (Continued...)
Link NOC:Introduction to Fluid Mechanics Lecture 23 - Flow between two rotating cylinders
Link NOC:Introduction to Fluid Mechanics Lecture 24 - Stokes 1st problem
Link NOC:Introduction to Fluid Mechanics Lecture 25 - Stokes 2nd problem
Link NOC:Introduction to Fluid Mechanics Lecture 26 - Introduction to turbulence: basic concepts
Link NOC:Introduction to Fluid Mechanics Lecture 27 - Eddies
Link NOC:Introduction to Fluid Mechanics Lecture 28 - Eddies (Continued...) and Vortex shredding
Link NOC:Introduction to Fluid Mechanics Lecture 29 - Statistical description of turbulent flows
Link NOC:Introduction to Fluid Mechanics Lecture 30 - Reynolds stress
Link NOC:Introduction to Fluid Mechanics Lecture 31 - Reynolds averaged Navier Stokes equation (RANS)
Link NOC:Introduction to Fluid Mechanics Lecture 32 - Bernoulli’s equation - Part I
Link NOC:Introduction to Fluid Mechanics Lecture 33 - Bernoulli’s equation - Part II
Link NOC:Introduction to Fluid Mechanics Lecture 34 - Bernoulli’s equation - Part III
Link NOC:Introduction to Fluid Mechanics Lecture 35 - Euler’s equation in streamline coordinates
Link NOC:Introduction to Fluid Mechanics Lecture 36 - Flow over a fat plate: Blasius equation
Link NOC:Introduction to Fluid Mechanics Lecture 37 - Momentum integral method for boundary layer analysis
Link NOC:Introduction to Fluid Mechanics Lecture 38 - Approximate solution of the momentum integral equation
Link NOC:Introduction to Fluid Mechanics Lecture 39 - Displacement and Momentum thickness
Link NOC:Introduction to Fluid Mechanics Lecture 40 - Illustrative examples
Link NOC:Introduction to Fluid Mechanics Lecture 41 - Boundary layer separation
Link NOC:Introduction to Fluid Mechanics Lecture 42 - Resultant force on a body immersed in a fluid under motion
Link NOC:Introduction to Fluid Mechanics Lecture 43 - Potential flow
Link NOC:Introduction to Fluid Mechanics Lecture 44 - Examples of Potential flow
Link NOC:Introduction to Fluid Mechanics Lecture 45 - Some more examples of Potential flows, Lift and Drag force
Link NOC:Introduction to Fluid Mechanics Lecture 46 - Applications of lift and drag force
Link NOC:Introduction to Fluid Mechanics Lecture 47 - Some examples of flow past immersed bodies
Link NOC:Introduction to Fluid Mechanics Lecture 48 - Sports Ball aerodynamics
Link NOC:Introduction to Fluid Mechanics Lecture 49 - Introduction to compressible flows
Link NOC:Introduction to Fluid Mechanics Lecture 50 - Significance of Mach number
Link NOC:Introduction to Fluid Mechanics Lecture 51 - Navier-Stokes equation - Part I
Link NOC:Introduction to Fluid Mechanics Lecture 52 - Navier-Stokes equation - Part II
Link NOC:Introduction to Fluid Mechanics Lecture 53 - Navier-Stokes equation - Part III
Link NOC:Introduction to Fluid Mechanics Lecture 54 - Navier-Stokes equation - Part IV
Link NOC:Introduction to Fluid Mechanics Lecture 55 - Pipe Flow - Part I
Link NOC:Introduction to Fluid Mechanics Lecture 56 - Pipe Flow - Part II
Link NOC:Introduction to Fluid Mechanics Lecture 57 - Pipe Flow - Part III
Link NOC:Introduction to Fluid Mechanics Lecture 58 - Pipe Flow - Part IV
Link NOC:Introduction to Fluid Mechanics Lecture 59 - Principle of Similarity and Dynamical Analysis - Part I
Link NOC:Introduction to Fluid Mechanics Lecture 60 - Principle of Similarity and Dynamical Analysis - Part II
Link NOC:Spur and Helical Gear Cutting Lecture 1 - Introduction
Link NOC:Spur and Helical Gear Cutting Lecture 2 - Simple Gear Calculations
Link NOC:Spur and Helical Gear Cutting Lecture 3 - Gear Geometry
Link NOC:Spur and Helical Gear Cutting Lecture 4 - Helical Gear Problems
Link NOC:Spur and Helical Gear Cutting Lecture 5 - Numerical Problem MCQ
Link NOC:Spur and Helical Gear Cutting Lecture 6 - Numerical Problem Milling of Helical Gears
Link NOC:Spur and Helical Gear Cutting Lecture 7 - Simple and Compound Indexing
Link NOC:Spur and Helical Gear Cutting Lecture 8 - Differential Indexing
Link NOC:Spur and Helical Gear Cutting Lecture 9 - Helical Gear Cutting on Milling Machine
Link NOC:Spur and Helical Gear Cutting Lecture 10 - Numerical Problems on Gear Milling
Link NOC:Spur and Helical Gear Cutting Lecture 11 - Gear Shaping - I
Link NOC:Spur and Helical Gear Cutting Lecture 12 - Gear Shaping - II
Link NOC:Spur and Helical Gear Cutting Lecture 13 - Gear Shaping - III
Link NOC:Spur and Helical Gear Cutting Lecture 14 - Gear Shaping - IV
Link NOC:Spur and Helical Gear Cutting Lecture 15 - Gear Hobbing - I
Link NOC:Spur and Helical Gear Cutting Lecture 16 - Gear Hobbing - II
Link NOC:Spur and Helical Gear Cutting Lecture 17 - Gear Hobbing - III
Link NOC:Spur and Helical Gear Cutting Lecture 18 - Gear Hobbing - IV
Link NOC:Spur and Helical Gear Cutting Lecture 19 - Gear Hobbing - V
Link NOC:Spur and Helical Gear Cutting Lecture 20 - Gear Hobbing - VI
Link NOC:Laws of Thermodynamics Lecture 1 - Introduction, Definition of System, Properties and State of a System
Link NOC:Laws of Thermodynamics Lecture 2 - Properties of pure substances
Link NOC:Laws of Thermodynamics Lecture 3 - Properties of pure substances (Continued...)
Link NOC:Laws of Thermodynamics Lecture 4 - Heat and Work
Link NOC:Laws of Thermodynamics Lecture 5 - Tutorial 1: Properties of pure substances, heat and work
Link NOC:Laws of Thermodynamics Lecture 6 - Zeroth Law of Thermodynamics
Link NOC:Laws of Thermodynamics Lecture 7 - First law of thermodynamics for closed systems - Part I
Link NOC:Laws of Thermodynamics Lecture 8 - First law of thermodynamics for closed systems - Part II, some examples
Link NOC:Laws of Thermodynamics Lecture 9 - Tutorial 2: First law of thermodynamics for closed systems
Link NOC:Laws of Thermodynamics Lecture 10 - First law of thermodynamics for open systems
Link NOC:Laws of Thermodynamics Lecture 11 - Tutorial 3: First law of thermodynamics for open systems
Link NOC:Laws of Thermodynamics Lecture 12 - Second law and its corollaries - Part I
Link NOC:Laws of Thermodynamics Lecture 13 - Second law and its corollaries - Part II
Link NOC:Laws of Thermodynamics Lecture 14 - Second law and its corollaries - Part III
Link NOC:Laws of Thermodynamics Lecture 15 - Definition of entropy and entropy change in closed systems
Link NOC:Laws of Thermodynamics Lecture 16 - Entropy change in closed systems (Continued...)
Link NOC:Laws of Thermodynamics Lecture 17 - Tutorial 4: Entropy
Link NOC:Laws of Thermodynamics Lecture 18 - Entropy and its transport
Link NOC:Laws of Thermodynamics Lecture 19 - Tutorial 5: Entropy and its transport
Link NOC:Laws of Thermodynamics Lecture 20 - Introduction to Third Law
Link NOC:Laws of Thermodynamics Lecture 21 - Review of learning concepts
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 1 - Introduction to waste heat recovery
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 2 - Introduction to waste heat recovery (Continued...)
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 3 - Introduction to waste heat recovery (Continued...)
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 4 - Introduction to waste heat recovery (Continued...)
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 5 - Thermodynamic principles of waste heat recovery
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 6 - Thermodynamic principles of waste heat recovery (Continued...)
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 7 - Thermodynamic principles of waste heat recovery (Continued...)
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 8 - Thermodynamic principles of waste heat recovery (Continued...)
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 9 - Reversible Cycles
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 10 - Reversible Cycles (Continued...)
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 11 - Entropy
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 12 - Entropy (Continued...)
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 13 - Entropy (Continued...), Exergy
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 14 - Exergy, Second Law efficiency
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 15 - Second Law efficiency (Continued...)
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 16 - Recapitulation of common power cycles
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 17 - Recapitulation of common power cycles (Continued...)
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 18 - Recapitulation of common power cycles (Continued...)
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 19 - Recapitulation of common power cycles (Continued...)
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 20 - Recapitulation of common power cycles (Continued...)
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 21 - Recapitulation of common power cycles (Continued...)
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 22 - Gas Turbine cycle
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 23 - Combined cycle
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 24 - Combined cycle (Continued...)
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 25 - Combined Cycle (Continued...)
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 26 - Heat recovery steam generator
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 27 - Thermodynamic cycles for low temperature application
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 28 - Thermodynamic cycles for low temperature application (Continued...), Cogeneration
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 29 - Heat Exchanger
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 30 - Heat Exchanger (Continued...)
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 31 - Heat Exchanger (Continued...)
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 32
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 33
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 34
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 35
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 36
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 37 - Heat Pipe - Part I
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 38 - Heat Pipe - Part II
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 39 - Heat Pipe - Part III
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 40 - Direct Conversion - Introduction to TEG
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 41 - Thermoelectric Generators - Functioning and Applications
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 42 - TEG - performance analysis
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 43 - TEG - performance optimization
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 44 - Direct Conversion - Magneto Hydro dynamics (MHD)
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 45 - Direct Conversion - Thermo-Ionic generation
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 46 - Direct Conversion - Thermo Photo Voltaic generation (TPV)
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 47 - Heat Pumps - I
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 48 - Heat Pumps - II
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 49 - Heat Pumps - III
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 50 - Waste Heat Recovery from Incinerator Plants
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 51 - Energy Storage Systems - I
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 52 - Energy Storage Systems - II
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 53 - Energy Storage Systems - III
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 54 - Energy Storage Systems - IV
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 55 - Energy Storage Systems - V
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 56 - Energy Storage Systems - VI
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 57
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 58
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 59
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 60
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 61
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 62
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 63
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 64
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 65
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 66
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 67
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 68 - Corrigendum
Link NOC:Introduction to Mechanical Micro Machining Lecture 1 - Introduction
Link NOC:Introduction to Mechanical Micro Machining Lecture 2 - Introduction (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 3 - Introduction (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 4 - Introduction (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 5 - Introduction (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 6 - Introduction (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 7 - Scaling Laws
Link NOC:Introduction to Mechanical Micro Machining Lecture 8 - Scaling laws (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 9 - Scaling laws (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 10 - Difference between macro and micro machining
Link NOC:Introduction to Mechanical Micro Machining Lecture 11 - Difference between macro and micro machining (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 12 - Difference between micro and macro machining (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 13 - Difference between micro and macro machining (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 14 - Difference between macro and micro machining (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 15 - Difference between macro and micro machining (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 16 - Difference between macro and micro machining (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 17 - Difference between macro and micro machining (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 18 - Difference between macro and micro machining (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 19 - Difference between macro and micro machining (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 20 - Difference between macro and micro machining (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 21 - Difference between macro and micro machining (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 22 - Component of the machine tool
Link NOC:Introduction to Mechanical Micro Machining Lecture 23 - Components of the machine tool (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 24 - Components of the machine tool (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 25 - Components of the machine tool (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 26 - Components of the machine tool (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 27 - Errors in machine tool (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 28 - Errors in machine tool (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 29 - Errors in machine tool (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 30 - Errors in machine tool (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 31 - Components of machine tool
Link NOC:Introduction to Mechanical Micro Machining Lecture 32 - Components of machine tool (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 33 - Components of machine tool (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 34 - Components of machine tool (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 35 - Components of machine tool (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 36 - Components of machine tool (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 37 - Components of machine tool (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 38 - Components of machine tool (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 39 - Components of machine tool (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 40 - Components of machine tool (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 41 - Components of machine tool (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 42 - Components of machine tool (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 43 - Components of machine tool (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 44 - Components of machine tool (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 45 - Components of machine tool (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 46 - Components of machine tool (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 47 - Components of machine tool (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 48 - Components of machine tool (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 49 - Micro tools
Link NOC:Introduction to Mechanical Micro Machining Lecture 50 - Micro tools (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 51 - Micro tools (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 52 - Fabrication of micro tool by EDM process
Link NOC:Introduction to Mechanical Micro Machining Lecture 53 - Micro tools (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 54 - Micro machines
Link NOC:Introduction to Mechanical Micro Machining Lecture 55 - Micro machines (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 56 - Diamond turning
Link NOC:Introduction to Mechanical Micro Machining Lecture 57 - Diamond turning (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 58 - Diamond turning (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 59 - Diamond turning (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 60 - Sensors and metrology for micro machining
Link NOC:Introduction to Mechanical Micro Machining Lecture 61 - Sensors and metrology for micro machining (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 62 - Sensors and metrology for micro machining (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 63 - 3D surface measurement using interferometer
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 1 - Introduction
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 2 - Maintenance Principles
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 3 - FMECA
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 4 - Fault Diagnostics and Prognostics
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 5 - Machine Learning in CBM
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 6 - Basics of Vibration
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 7 - Free and Forced Response
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 8 - Vibration and Shock Isolation
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 9 - Rotordynamics
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 10 - Practical Examples of Vibration
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 11 - Time Domain Analysis
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 12 - Frequency Domain Analysis
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 13 - Non Stationary Signal Analysis
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 14 - Modulation and Beats
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 15 - Orbit and Order Analysis
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 16 - Computer aided data acquisition
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 17 - Orbit and Order Analysis
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 18 - Data Recording
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 19 - Cepstrum Analysis
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 20 - Hilbert Transform in Condition Monitoring
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 21 - Introduction to MATLAB
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 22 - Signal Processing using MATLAB
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 23 - Numericals in Signal Processing and Data Acquisition
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 24 - Signal Hetrodyning
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 25 - Practical Signals
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 26 - Basics Of Instrumentation
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 27 - Signal Conditioning And Filtering
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 28 - Errors In Measurements
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 29 - Dynamic Range And Frequency Response
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 30 - Overview Of Transducers For Cbm
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 31 - Accelerometers
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 32 - Vibration Monitoring
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 33 - Rotational Speed Measurements
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 34 - Basics of Noise
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 35 - Noise Monitoring
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 36 - Introduction to Faults in Rotating Machines
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 37 - Unbalance Detection
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 38 - Field Balancing
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 39 - Misalignment
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 40 - Crack and Looseness
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 41 - Journal and Anti-Friction Bearings
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 42 - Gears
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 43 - Pumps and Cavitation
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 44 - IC Engines
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 45 - Machinery Diagnostic Chart
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 46 - Principles of Motor Current Signature Analysis
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 47 - Faults in Electrical Machines
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 48 - Thermography
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 49 - Wear Debris Analysis
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 50 - Oil Analysis
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 51 - Ultrasonics
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 52 - Eddy Current and Acoustic Emission
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 53 - Radiography, Dye Penetrant Tests
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 54 - Tool Condition Monitoring
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 55 - Experimental Modal Analysis
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 56 - Introduction to Failure Analysis
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 57 - Railway Locomotive Noise and Vibration Monitoring
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 58 - Paper Mill Vibration Monitoring
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 59 - Overview of CBM facilities at IIT Kharagpur
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 60 - Future of Condition based Monitoring
Link NOC:Metal Cutting and Machine Tools Lecture 1 - Introduction
Link NOC:Metal Cutting and Machine Tools Lecture 2 - Geometry of single point turning tools - 1
Link NOC:Metal Cutting and Machine Tools Lecture 3 - Geometry of turning tools - 2
Link NOC:Metal Cutting and Machine Tools Lecture 4 - Geometry of single point turning tools - 3
Link NOC:Metal Cutting and Machine Tools Lecture 5 - Geometry of cutting tools and numerical problems
Link NOC:Metal Cutting and Machine Tools Lecture 6 - Different types of tools and mcq
Link NOC:Metal Cutting and Machine Tools Lecture 7 - Mechanism of chip formation
Link NOC:Metal Cutting and Machine Tools Lecture 8 - Mechanics of material removal
Link NOC:Metal Cutting and Machine Tools Lecture 9 - Measurement of Cutting Forces
Link NOC:Metal Cutting and Machine Tools Lecture 10 - Numerical problems and MCQ
Link NOC:Metal Cutting and Machine Tools Lecture 11 - Tool wear and Tool life
Link NOC:Metal Cutting and Machine Tools Lecture 12 - Wear and life of cutting tools - 2
Link NOC:Metal Cutting and Machine Tools Lecture 13 - The lathe
Link NOC:Metal Cutting and Machine Tools Lecture 14 - Calculations on mechanisms in machine tools
Link NOC:Metal Cutting and Machine Tools Lecture 15 - Numerical problems on lathe
Link NOC:Metal Cutting and Machine Tools Lecture 16 - Milling machines
Link NOC:Metal Cutting and Machine Tools Lecture 17 - Milling machine - indexing
Link NOC:Metal Cutting and Machine Tools Lecture 18 - Gear cutting CNC and non traditional machining
Link NOC:Metal Cutting and Machine Tools Lecture 19 - CNC and non-traditional machining methods
Link NOC:Metal Cutting and Machine Tools Lecture 20 - Numerical problems for week 4
Link NOC:Metal Cutting and Machine Tools Lecture 21 - Live Session
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 1 - Introduction - Motivation and Theme of the Course
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 2 - Laws of Gearing, Kinematics and Geometry - Part I
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 3 - Laws of Gearing, Kinematics and Geometry - Part II
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 4 - Involute Toothed Gear- Properties and Terminology
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 5 - Tutorial
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 6 - Involute Straight Tooth Spur Gear
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 7 - Helical Tooth Spur Gear and Loads on Gear Shaft
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 8 - Design of Bevel Gear
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 9 - Crossed Helical Gear - I
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 10 - Crossed Helical Gear - II and Worm Gear
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 11 - Gear Unit Design - Selection of Stage Ratios, Pinion and Gear Teeth Numbers
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 12 - Gear Unit Design - First Stage Pinion and Gear Design- I (Module on Beam Strength Basis)
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 13 - Gear Unit Design - Failure of Gear Tooth (Probable Dynamic Load and Wear Load Capacity)
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 14 - Gear Unit Design - 1st. Stage Pinion and Gear Design-II (Probable Dynamic Load and Wear Load Capacity and Finalizing 1st. Stage Pinion and Gear set)
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 15 - Gear Unit Design - 1st. Layout (After Gear Design)
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 16 - Bearing Arrangement - Gear Box Shafts
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 17 - Bearing Load Calculation - Intermediate Shaft
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 18 - Bearing Selection and Introduction to Shaft Design Verification
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 19 - Design Verification of Gear Box Shafts
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 20 - Development (Layout) of Intermediate Shaft
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 21 - Development (Layout) of Input Shaft and Integral Pinion
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 22 - Development (Layout) of Output Shaft and 2nd. Stage (Output) Gear
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 23 - Development (Layout) of Output Shaft (Continued...), Loads on Shaft and Bearings
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 24 - Output Shaft-Bearing Lives
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 25 - Design Verification of Output Shaft
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 26 - Design Verification of Input Shaft (including Bearing Life Estimation)
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 27 - Finalizing Design including the Sizes of the Keys
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 28 - Development of Plan and Elevation of Gear Reduction Unit - I
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 29 - Development of Plan and Elevation of Gear Reduction Unit - II
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 30 - Development of Plan and Elevation of Gear Reduction Unit - III
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 31
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 32
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 33 - Involute Spur Gear Tooth Correction : Part I
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 34 - Involute Spur Gear Tooth Correction : Part II
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 35 - Involute Spur Gear Tooth Correction : Part III
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 36 - Involute Spur Gear Tooth Correction : Tutorial (Workout Example)
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 37 - Involute Spur Gear Tooth Correction : Tutorial (Workout Example-2)
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 38 - Tooth Tip Interference, Avoidance and Contact Ratio in Involute Internal Gearing
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 39
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 40
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 41
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 42
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 43
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 44
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 45 - Live Session
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 1 - Principle of Optimization
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 2 - Traditional Methods of Optimization
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 3 - Traditional Methods of Optimization (Continued...)
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 4 - Binary-Coded Genetic Algorithm (BCGA)
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 5 - Binary-Coded Genetic Algorithm (BCGA) (Continued...)
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 6 - Binary-Coded Genetic Algorithm (BCGA) (Continued...)
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 7 - Binary-Coded Genetic Algorithm (BCGA) (Continued...)
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 8 - Binary-Coded Genetic Algorithm (BCGA) (Continued...)
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 9 - Schema Theorem of BCGA
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 10 - Schema Theorem of BCGA (Continued...)
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 11 - Constraint Handling
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 12 - Real-Coded GA
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 13 - Faster Genetic Algorithms
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 14 - Faster Genetic Algorithms (Continued...)
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 15 - Faster Genetic Algorithms (Continued...)
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 16 - Faster Genetic Algorithms (Continued...)
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 17 - Scheduling GA
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 18 - Scheduling GA (Continued...)
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 19 - Scheduling GA (Continued...)
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 20 - Simmulated Annealing
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 21 - Particle Swarm Optimization
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 22 - Multi-Objective Optimization
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 23 - Multi-Objective Optimization (Continued...)
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 24 - Multi-Objective Optimization (Continued...)
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 25 - Multi-Objective Optimization (Continued...)
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 26 - Multi-Objective Optimization (Continued...)
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 27 - Intelligent Optimization Toolture
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 28 - A Practical Optimization Problem
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 29 - A Practical Optimization Problem (Continued...)
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 30 - A Practical Optimization Problem (Continued...)
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 31 - A Practical Optimization Problem (Continued...)
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 32 - A Practical Optimization Problem (Continued...)
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 33 - A Practical Optimization Problem (Continued...)
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 34 - A Practical Optimization Problem (Continued...)
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 35 - A Practical Optimization Problem (Continued...)
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 36 - A Practical Optimization Problem (Continued...)
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 37 - Genetic Algorithm as Evolution Tool
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 38 - Genetic Algorithm as Evolution Tool (Continued...)
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 39 - Genetic Algorithm as Evolution Tool (Continued...)
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 40 - Genetic Algorithm as Evolution Tool (Continued...)
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 41 - Genetic Algorithm as Evolution Tool (Continued...)
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 42 - Genetic Algorithm as Evolution Tool (Continued...)
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 43 - Summary 1
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 44 - Summary 2
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 45 - Summary 3
Link NOC:Mechanism and Robot Kinematics Lecture 1 - Introduction
Link NOC:Mechanism and Robot Kinematics Lecture 2 - Nomenclature
Link NOC:Mechanism and Robot Kinematics Lecture 3 - Kinematic Diagram
Link NOC:Mechanism and Robot Kinematics Lecture 4 - Degree of Freedom - I
Link NOC:Mechanism and Robot Kinematics Lecture 5 - Degree of Freedom - II
Link NOC:Mechanism and Robot Kinematics Lecture 6 - Degree of Freedom - Failure
Link NOC:Mechanism and Robot Kinematics Lecture 7 - Grashof Criteria - I
Link NOC:Mechanism and Robot Kinematics Lecture 8 - Grashof Criteria - II
Link NOC:Mechanism and Robot Kinematics Lecture 9 - Geometry and Representation of Vectors
Link NOC:Mechanism and Robot Kinematics Lecture 10 - Displacement Analysis: constrained mechanism - I
Link NOC:Mechanism and Robot Kinematics Lecture 11 - Displacement Analysis: constrained mechanism - II
Link NOC:Mechanism and Robot Kinematics Lecture 12 - Displacement Analysis: constrained mechanism - III
Link NOC:Mechanism and Robot Kinematics Lecture 13 - Displacement Analysis: constrained mechanism - IV
Link NOC:Mechanism and Robot Kinematics Lecture 14 - Displacement Analysis: open chain robot - I
Link NOC:Mechanism and Robot Kinematics Lecture 15 - Displacement Analysis: open chain robot - II
Link NOC:Mechanism and Robot Kinematics Lecture 16 - Displacement Analysis: open chain robot - III
Link NOC:Mechanism and Robot Kinematics Lecture 17 - Displacement Analysis: open chain robot - IV
Link NOC:Mechanism and Robot Kinematics Lecture 18 - Displacement Analysis: closed chain robot - I
Link NOC:Mechanism and Robot Kinematics Lecture 19 - Displacement Analysis: closed chain robot - II
Link NOC:Mechanism and Robot Kinematics Lecture 20 - Velocity Analysis: geometric concepts - I
Link NOC:Mechanism and Robot Kinematics Lecture 21 - Velocity Analysis: geometric concepts - II
Link NOC:Mechanism and Robot Kinematics Lecture 22 - Velocity Analysis: geometric concepts - III
Link NOC:Mechanism and Robot Kinematics Lecture 23 - Velocity Analysis: application of geometric concepts - I
Link NOC:Mechanism and Robot Kinematics Lecture 24 - Velocity Analysis: application of geometric concepts - II
Link NOC:Mechanism and Robot Kinematics Lecture 25 - Velocity Analysis: application of geometric concepts - III
Link NOC:Mechanism and Robot Kinematics Lecture 26 - Velocity Analysis: analytical approach - I
Link NOC:Mechanism and Robot Kinematics Lecture 27 - Velocity Analysis: analytical approach - II
Link NOC:Mechanism and Robot Kinematics Lecture 28 - Velocity Analysis: analytical approach - III
Link NOC:Mechanism and Robot Kinematics Lecture 29 - Serial Manipulator Velocity Analysis - I
Link NOC:Mechanism and Robot Kinematics Lecture 30 - Serial Manipulator Velocity Analysis - II
Link NOC:Mechanism and Robot Kinematics Lecture 31 - Serial Manipulator Velocity Analysis - III
Link NOC:Mechanism and Robot Kinematics Lecture 32 - Parallel Manipulator Velocity Analysis
Link NOC:Mechanism and Robot Kinematics Lecture 33 - Path Generation Problem
Link NOC:Mechanism and Robot Kinematics Lecture 34 - Acceleration Analysis - I
Link NOC:Mechanism and Robot Kinematics Lecture 35 - Acceleration Analysis - II
Link NOC:Mechanism and Robot Kinematics Lecture 36 - Force Analysis - I
Link NOC:Mechanism and Robot Kinematics Lecture 37 - Force Analysis - II
Link NOC:Mechanism and Robot Kinematics Lecture 38 - Coordinate transformation - I
Link NOC:Mechanism and Robot Kinematics Lecture 39 - Coordinate transformation - II
Link NOC:Mechanism and Robot Kinematics Lecture 40 - Coordinate transformation - III
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 1 - Introduction
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 2 - Applications of Heat Exchangers
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 3 - Classification of Heat Exchangers
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 4 - Classification of Heat Exchangers (Continued...)
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 5 - Design and Simulation of Heat Exchangers
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 6 - Design and Simulation
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 7 - Design and Simulation of Heat Exchangers - Numerical Problem
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 8 - Design and Simulation of Heat Exchangers - Numerical Problem (Continued...)
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 9 - Design and Simulation of Heat Exchangers - Numerical Problem (Continued...)
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 10 - Tubular Heat Exchanger Types
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 11 - Tubular Heat Exchanger Types : Heat Transfer Co-efficient
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 12 - Tubular Heat Exchanger : Double Pipe
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 13 - Tubular Heat Exchanger : Shell - and - Tube
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 14 - Tubular Heat Exchanger : Shell - and - Tube Design
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 15 - Tubular Heat Exchanger : Shell - and - Tube Design (Continued...)
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 16 - Enhancement of Heat Transfer compact Heat Exchangers
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 17 - Extended Surface Heat Transfer
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 18 - Extended Surface Heat Transfer: Some Example
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 19 - Extended Surface Heat Exchangers: Some Example
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 20 - Analysis of fin plates of finned tube heat exchanger
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 21 - Finned tube heat exchanger
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 22 - Finned tube heat exchanger (Continued...)
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 23 - Finned tube heat exchanger (Continued...)
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 24 - Plate fin heat exchanger
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 25 - Plate fin heat exchanger (Continued...)
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 26 - Plate fin heat exchanger (Continued...)
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 27 - Plate fin heat exchanger : Analysis
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 28 - Plate fin heat exchanger : Pressure drop
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 29 - Plate fin heat exchanger : Numerical
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 30 - Plate fin heat exchanger : Numerical (Continued...)
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 31 - Plate fin heat exchanger : Numerical (Continued...)
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 32 - Plate fin heat exchanger : Multistream
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 33 - Plate fin heat exchanger : Multistream (Continued...)
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 34 - Plate fin heat exchanger : Multistream Analysis
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 35 - Plate fin heat exchanger : Layer Stacking
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 36 - Phase change heat exchangers
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 37 - Phase change heat exchangers (Continued...)
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 38 - Surface Condenser
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 39 - Surface Condenser (Continued...)
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 40 - Surface Condenser (Continued...)
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 41 - Surface Condenser (Continued...)
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 42 - In tube condensation
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 43 - Heat pipes and Heat pipe heat exchangers
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 44 - Heat pipes and Heat pipe heat exchangers (Continued...)
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 45 - Heat pipes and Heat exchangers
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 46 - Heat pipes and Heat exchangers (Continued...)
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 47 - Micro Heat Exchanger Introduction
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 48 - Micro scale Heat Transfer
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 49 - Micro scale Heat Transfer (Continued...)
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 50 - Micro Channel
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 51 - Micro Heat Exchanger
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 52 - Regenerators
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 53 - Fixed Bed Regenerator Analysis
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 54 - Design and Simulation of Regenerator (Fixed Bed)
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 55 - Fixed Bed Regenerator (Numerical)
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 56 - Fixed Bed Regenerator (Numerical) (Continued...)
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 57 - Fouling in Heat Exchangers
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 58 - Fouling in Heat Exchangers (Continued...)
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 59 - Fouling in Heat Exchangers (Continued...)
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 60 - Direct Contact heat exchanger
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 61 - Direct Contact heat exchanger (Continued...)
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 62 - Heat exchanger network synthesis
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 63 - Heat exchanger network
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 64 - Heat exchanger network (Continued...)
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 65 - Heat Exchanger Testing
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 66 - Heat Exchanger Testing (Continued...)
Link NOC:Robotics Lecture 1 - Introduction to Robots and Robotics
Link NOC:Robotics Lecture 2 - Introduction to Robots and Robotics (Continued...)
Link NOC:Robotics Lecture 3 - Introduction to Robots and Robotics (Continued...)
Link NOC:Robotics Lecture 4 - Introduction to Robots and Robotics (Continued...)
Link NOC:Robotics Lecture 5 - Introduction to Robots and Robotics (Continued...)
Link NOC:Robotics Lecture 6 - Introduction to Robots and Robotics (Continued...)
Link NOC:Robotics Lecture 7 - Introduction to Robots and Robotics (Continued...)
Link NOC:Robotics Lecture 8 - Introduction to Robots and Robotics (Continued...)
Link NOC:Robotics Lecture 9 - Introduction to Robots and Robotics (Continued...)
Link NOC:Robotics Lecture 10 - Introduction to Robots and Robotics (Continued...)
Link NOC:Robotics Lecture 11 - Robot Kinematics
Link NOC:Robotics Lecture 12 - Robot Kinematics (Continued...)
Link NOC:Robotics Lecture 13 - Robot Kinematics (Continued...)
Link NOC:Robotics Lecture 14 - Robot Kinematics (Continued...)
Link NOC:Robotics Lecture 15 - Robot Kinematics (Continued...)
Link NOC:Robotics Lecture 16 - Robot Kinematics (Continued...)
Link NOC:Robotics Lecture 17 - Robot Kinematics (Continued...)
Link NOC:Robotics Lecture 18 - Robot Kinematics (Continued...)
Link NOC:Robotics Lecture 19 - Robot Kinematics (Continued...)
Link NOC:Robotics Lecture 20 - Robot Kinematics (Continued...)
Link NOC:Robotics Lecture 21 - Trajectory Planning
Link NOC:Robotics Lecture 22 - Trajectory Planning (Continued...)
Link NOC:Robotics Lecture 23 - Singularity Checking
Link NOC:Robotics Lecture 24 - Robot Dynamics
Link NOC:Robotics Lecture 25 - Robot Dynamics (Continued...)
Link NOC:Robotics Lecture 26 - Robot Dynamics (Continued...)
Link NOC:Robotics Lecture 27 - Robot Dynamics (Continued...)
Link NOC:Robotics Lecture 28 - Robot Dynamics (Continued...)
Link NOC:Robotics Lecture 29 - Robot Dynamics (Continued...)
Link NOC:Robotics Lecture 30 - Control Scheme
Link NOC:Robotics Lecture 31 - Sensors
Link NOC:Robotics Lecture 32 - Sensors (Continued...)
Link NOC:Robotics Lecture 33 - Sensors (Continued...)
Link NOC:Robotics Lecture 34 - Robot Vision
Link NOC:Robotics Lecture 35 - Robot Vision (Continued...)
Link NOC:Robotics Lecture 36 - Robot Vision (Continued...)
Link NOC:Robotics Lecture 37 - Robot Motion Planning
Link NOC:Robotics Lecture 38 - Robot Motion Planning (Continued...)
Link NOC:Robotics Lecture 39 - Robot Motion Planning (Continued...)
Link NOC:Robotics Lecture 40 - Robot Motion Planning (Continued...)
Link NOC:Robotics Lecture 41 - Intelligent Robot
Link NOC:Robotics Lecture 42 - Biped Walking
Link NOC:Robotics Lecture 43 - Biped Walking (Continued...)
Link NOC:Robotics Lecture 44 - Summary
Link NOC:Robotics Lecture 45 - Summary (Continued...)
Link NOC:Computational Fluid Dynamics Lecture 1 - Intoduction to CFD
Link NOC:Computational Fluid Dynamics Lecture 2 - Classification of partial differential equations
Link NOC:Computational Fluid Dynamics Lecture 3 - Examples of partial differential equations
Link NOC:Computational Fluid Dynamics Lecture 4 - Examples of partial differential equations (Continued...)
Link NOC:Computational Fluid Dynamics Lecture 5 - Nature of the characteristics of partial differential equation
Link NOC:Computational Fluid Dynamics Lecture 6 - Euler-Lagrangian equation
Link NOC:Computational Fluid Dynamics Lecture 7 - Approximate Solutions of Differential Equations
Link NOC:Computational Fluid Dynamics Lecture 8 - Variational formulation
Link NOC:Computational Fluid Dynamics Lecture 9 - Example of variational formulation and introduction to weighted residual method
Link NOC:Computational Fluid Dynamics Lecture 10 - Weighted residual method (Continued...)
Link NOC:Computational Fluid Dynamics Lecture 11 - Point Collocation method, the Galerkin's method and the 'M' form
Link NOC:Computational Fluid Dynamics Lecture 12 - Finite element method (FEM) of discretization
Link NOC:Computational Fluid Dynamics Lecture 13 - Finite element method of discretization (Continued...)
Link NOC:Computational Fluid Dynamics Lecture 14 - Finite difference method (FDM) of discretization
Link NOC:Computational Fluid Dynamics Lecture 15 - Well posed boundary value problem
Link NOC:Computational Fluid Dynamics Lecture 16 - Finite volume method (FVM) of discretization
Link NOC:Computational Fluid Dynamics Lecture 17 - Illustrative examples of finite volume method
Link NOC:Computational Fluid Dynamics Lecture 18 - Illustrative examples of finite volume method (Continued...)
Link NOC:Computational Fluid Dynamics Lecture 19 - Basic rules of finite volume discretization
Link NOC:Computational Fluid Dynamics Lecture 20 - Implementation of boundary conditions in FVM
Link NOC:Computational Fluid Dynamics Lecture 21 - Implementation of boundary conditions in FVM (Continued...)
Link NOC:Computational Fluid Dynamics Lecture 22 - 1-D Unsteady state diffusion problem
Link NOC:Computational Fluid Dynamics Lecture 23 - 1-D Unsteady state diffusion problem (Continued...)
Link NOC:Computational Fluid Dynamics Lecture 24 - Consequences of Discretization of Unsteady State Problems
Link NOC:Computational Fluid Dynamics Lecture 25 - FTCS scheme
Link NOC:Computational Fluid Dynamics Lecture 26 - CTCS scheme (Leap frog scheme) and Dufort-Frankel scheme
Link NOC:Computational Fluid Dynamics Lecture 27 - Part 1: FV Discretization of 2-D Unsteady State Diffusion Type problems; Part 2: Solution to linear algebraic equations
Link NOC:Computational Fluid Dynamics Lecture 28 - Solution to linear algebraic equations (Continued...)
Link NOC:Computational Fluid Dynamics Lecture 29 - Elemination methods
Link NOC:Computational Fluid Dynamics Lecture 30 - Gaussian elemination and LU Decomposition methods
Link NOC:Computational Fluid Dynamics Lecture 31 - Illustrative example of elemination method
Link NOC:Computational Fluid Dynamics Lecture 32 - Tri-Diagonal Matrix Algorithm (TDMA)
Link NOC:Computational Fluid Dynamics Lecture 33 - Elimination Methods: Error Analysis
Link NOC:Computational Fluid Dynamics Lecture 34 - Elimination Methods: Error Analysis (Continued...)
Link NOC:Computational Fluid Dynamics Lecture 35 - Iteration methods
Link NOC:Computational Fluid Dynamics Lecture 36 - Generalized analysis of Iteration method
Link NOC:Computational Fluid Dynamics Lecture 37 - Further discussion on Iterative methods
Link NOC:Computational Fluid Dynamics Lecture 38 - Illustrative examples of Iterative methods
Link NOC:Computational Fluid Dynamics Lecture 39 - Gradient Search based methods
Link NOC:Computational Fluid Dynamics Lecture 40 - Steepest descent method (Continued...)
Link NOC:Computational Fluid Dynamics Lecture 41 - Conjugate gradient method
Link NOC:Computational Fluid Dynamics Lecture 42 - Convection diffusion equation
Link NOC:Computational Fluid Dynamics Lecture 43 - Central difference scheme applied to convection-diffusion equation
Link NOC:Computational Fluid Dynamics Lecture 44 - Upwind scheme
Link NOC:Computational Fluid Dynamics Lecture 45 - Illustrative examples
Link NOC:Computational Fluid Dynamics Lecture 46 - Exact solution of 1-D steady state convection diffusion equation (Continued...)
Link NOC:Computational Fluid Dynamics Lecture 47 - Exponential scheme
Link NOC:Computational Fluid Dynamics Lecture 48 - Generalized convection diffusion formulation
Link NOC:Computational Fluid Dynamics Lecture 49 - 2-D convection diffusion problem
Link NOC:Computational Fluid Dynamics Lecture 50 - False (numerical) diffusion scheme and the QUICK scheme
Link NOC:Computational Fluid Dynamics Lecture 51 - Discretization of Navier Stokes equation
Link NOC:Computational Fluid Dynamics Lecture 52 - Discretization of Navier Stokes equation (Continued...)
Link NOC:Computational Fluid Dynamics Lecture 53 - Concept of staggered grid
Link NOC:Computational Fluid Dynamics Lecture 54 - SIMPLE algorithm
Link NOC:Computational Fluid Dynamics Lecture 55 - Salient features of SIMPLE algorithm
Link NOC:Computational Fluid Dynamics Lecture 56 - Illustrative examples on the use of SIMPLE algorithm
Link NOC:Computational Fluid Dynamics Lecture 57 - SIMPLER algorithm
Link NOC:Computational Fluid Dynamics Lecture 58 - Illustrative examples of SIMPLER algorithm
Link NOC:Computational Fluid Dynamics Lecture 59 - What is there in implementing a CFD Code
Link NOC:Computational Fluid Dynamics Lecture 60 - Some representative case studies
Link NOC:Concepts of Thermodynamics Lecture 1 - Introductory Concepts
Link NOC:Concepts of Thermodynamics Lecture 2 - Properties of Pure Substances
Link NOC:Concepts of Thermodynamics Lecture 3 - Properties of Pure Substances (Continued...)
Link NOC:Concepts of Thermodynamics Lecture 4 - Introduction to Property Tables
Link NOC:Concepts of Thermodynamics Lecture 5 - Properties of Pure Substances: Example problems (Continued...)
Link NOC:Concepts of Thermodynamics Lecture 6 - Properties of Pure Substances: Example problems (Continued...)
Link NOC:Concepts of Thermodynamics Lecture 7 - Use of Computer as Means of Learning Thermodynamics
Link NOC:Concepts of Thermodynamics Lecture 8 - Properties of Pure Substances (Continued...)
Link NOC:Concepts of Thermodynamics Lecture 9 - Properties of Pure Substances Spring - Piston Problem
Link NOC:Concepts of Thermodynamics Lecture 10 - Heat and Work
Link NOC:Concepts of Thermodynamics Lecture 11 - Heat and Work : Representative Problems
Link NOC:Concepts of Thermodynamics Lecture 12 - Heat and Work : Representative Problems (Continued...)
Link NOC:Concepts of Thermodynamics Lecture 13 - Heat and Work : Representative Problems (Continued...)
Link NOC:Concepts of Thermodynamics Lecture 14 - First Law of Thermodynamics for a Control Mass System
Link NOC:Concepts of Thermodynamics Lecture 15 - Enthalpy and Specific Heats
Link NOC:Concepts of Thermodynamics Lecture 16 - First Law for a Control Mass System : Representative Examples
Link NOC:Concepts of Thermodynamics Lecture 17 - First Law for a Control Mass System : Representative Examples (Continued...)
Link NOC:Concepts of Thermodynamics Lecture 18 - First Law for a Control Mass System : Representative Examples (Continued...)
Link NOC:Concepts of Thermodynamics Lecture 19 - Control Volume Conservation Reynolds Transport Theorem
Link NOC:Concepts of Thermodynamics Lecture 20 - Control Volume Mass and Energy Balance
Link NOC:Concepts of Thermodynamics Lecture 21 - Supplementary Lecture: Problem solving with the aid of a computer
Link NOC:Concepts of Thermodynamics Lecture 22 - First Law for Steady State Steady Flow (SSSF) Process
Link NOC:Concepts of Thermodynamics Lecture 23 - First Law for SSSF Process : Example Problem
Link NOC:Concepts of Thermodynamics Lecture 24 - First Law for SSSF Process : Example Problem (Continued...)
Link NOC:Concepts of Thermodynamics Lecture 25 - First Law for SSSF Process : Example Problem (Continued...)
Link NOC:Concepts of Thermodynamics Lecture 26 - First Law for SSSF Process : Example Problem (Continued...)
Link NOC:Concepts of Thermodynamics Lecture 27 - Supplementary Lecture: Problem solving with the aid of a computer
Link NOC:Concepts of Thermodynamics Lecture 28 - First Law of Thermodynamics for Unsteady Processes in a Control Volume
Link NOC:Concepts of Thermodynamics Lecture 29 - First Law for Unsteady Problems - Examples
Link NOC:Concepts of Thermodynamics Lecture 30 - First Law for Unsteady Problems - Examples (Continued...)
Link NOC:Concepts of Thermodynamics Lecture 31 - First Law for Unsteady Problems - Examples (Continued...)
Link NOC:Concepts of Thermodynamics Lecture 32 - Supplementary Lecture : Problem Solving with the Aid of a Computer
Link NOC:Concepts of Thermodynamics Lecture 33 - Introduction to Second Law of Thermodynamics
Link NOC:Concepts of Thermodynamics Lecture 34 - Statements of the Second Law of Thermodynamics
Link NOC:Concepts of Thermodynamics Lecture 35 - Perpetual Motion Machines; Reversible and Irreversible Processes
Link NOC:Concepts of Thermodynamics Lecture 36 - Factors for Irreversibility and Introduction to Reversible Cycles
Link NOC:Concepts of Thermodynamics Lecture 37 - Carnot Theorem and Absolute Temperature Scale
Link NOC:Concepts of Thermodynamics Lecture 38 - Second Law: Illustrative Problems
Link NOC:Concepts of Thermodynamics Lecture 39 - Clausius Inequality and Introduction to Entropy
Link NOC:Concepts of Thermodynamics Lecture 40 - Thermodynamic Property Relationships; Entropy change for Solids, Liquids and Ideal gases
Link NOC:Concepts of Thermodynamics Lecture 41 - Entropy balance for Reversible and Irreversible Processes
Link NOC:Concepts of Thermodynamics Lecture 42 - What is Entropy ?
Link NOC:Concepts of Thermodynamics Lecture 43 - Entropy Change in closed system: Examples
Link NOC:Concepts of Thermodynamics Lecture 44 - Entropy Change in closed system: Examples
Link NOC:Concepts of Thermodynamics Lecture 45 - Supplementary Lecture: Problem solving with the aid of a computer
Link NOC:Concepts of Thermodynamics Lecture 46 - Supplementary Lecture: Problem solving with the aid of a computer
Link NOC:Concepts of Thermodynamics Lecture 47 - Entropy Transport for a flow process
Link NOC:Concepts of Thermodynamics Lecture 48 - Entropy Transport for flow process: Examples
Link NOC:Concepts of Thermodynamics Lecture 49 - Entropy Transport for flow process: Examples
Link NOC:Concepts of Thermodynamics Lecture 50 - Entropy Transport for flow process: Examples
Link NOC:Concepts of Thermodynamics Lecture 51 - Entropy Transport for flow process: Examples
Link NOC:Concepts of Thermodynamics Lecture 52 - Supplementary Lecture: Problem solving with the aid of a computer
Link NOC:Concepts of Thermodynamics Lecture 53 - Exergy (Availability)
Link NOC:Concepts of Thermodynamics Lecture 54 - Exergy (Availability) (Continued...)
Link NOC:Concepts of Thermodynamics Lecture 55 - Exergy Analysis : Examples
Link NOC:Concepts of Thermodynamics Lecture 56 - Exergy Analysis : Examples (Continued...)
Link NOC:Concepts of Thermodynamics Lecture 57 - Thermodynamic Relationships
Link NOC:Concepts of Thermodynamics Lecture 58 - Thermodynamic Relationships (Continued...)
Link NOC:Concepts of Thermodynamics Lecture 59 - Otto Cycle
Link NOC:Concepts of Thermodynamics Lecture 60 - Diesel Cycle
Link NOC:Concepts of Thermodynamics Lecture 61 - Example Problems : Otto Cycle and Diesel Cycle
Link NOC:Concepts of Thermodynamics Lecture 62 - Brayton Cycle
Link NOC:Concepts of Thermodynamics Lecture 63 - Carnot Cycle and Rankine Cycle
Link NOC:Concepts of Thermodynamics Lecture 64 - Carnot Cycle and Rankine Cycle (Continued...)
Link NOC:Concepts of Thermodynamics Lecture 65 - Vapour Compression Refrigeration Cycle
Link NOC:Concepts of Thermodynamics Lecture 66 - Review of Learning Concepts
Link NOC:Concepts of Thermodynamics Lecture 67 - Supplementary Lecture: Problem solving with the aid of a computer
Link NOC:Concepts of Thermodynamics Lecture 68 - Supplementary Lecture: Problem solving with the aid of a computer
Link NOC:Electronic Packaging and Manufacturing Lecture 1 - Introduction - 1
Link NOC:Electronic Packaging and Manufacturing Lecture 2 - Introduction - 2
Link NOC:Electronic Packaging and Manufacturing Lecture 3 - Introduction - 3
Link NOC:Electronic Packaging and Manufacturing Lecture 4 - Semiconductors and Components - 1
Link NOC:Electronic Packaging and Manufacturing Lecture 5 - Semiconductors and Components - 2
Link NOC:Electronic Packaging and Manufacturing Lecture 6 - 1st Level Packaging - I
Link NOC:Electronic Packaging and Manufacturing Lecture 7 - 1st Level Packaging - II
Link NOC:Electronic Packaging and Manufacturing Lecture 8 - Area Array Packages - I
Link NOC:Electronic Packaging and Manufacturing Lecture 9 - Area Array Packages - II
Link NOC:Electronic Packaging and Manufacturing Lecture 10 - Area Array Packages - III
Link NOC:Electronic Packaging and Manufacturing Lecture 11 - Flip Chip Technology
Link NOC:Electronic Packaging and Manufacturing Lecture 12 - 1st Level Interconnections - I
Link NOC:Electronic Packaging and Manufacturing Lecture 13 - 1st Level Interconnections - II
Link NOC:Electronic Packaging and Manufacturing Lecture 14 - 1st Level Interconnections - III
Link NOC:Electronic Packaging and Manufacturing Lecture 15 - Advanced Packaging
Link NOC:Electronic Packaging and Manufacturing Lecture 16 - 2nd Level Packaging: PCB - I
Link NOC:Electronic Packaging and Manufacturing Lecture 17 - 2nd Level Packaging: PCB - II
Link NOC:Electronic Packaging and Manufacturing Lecture 18 - 2nd Level Packaging: PCB - III
Link NOC:Electronic Packaging and Manufacturing Lecture 19 - 2nd Level Packaging: PCB - IV
Link NOC:Electronic Packaging and Manufacturing Lecture 20 - 2nd Level Packaging: PCB - V
Link NOC:Electronic Packaging and Manufacturing Lecture 21 - System Integration
Link NOC:Electronic Packaging and Manufacturing Lecture 22 - Thermal Management 1: Introduction
Link NOC:Electronic Packaging and Manufacturing Lecture 23 - Thermal Management 2: Concepts
Link NOC:Electronic Packaging and Manufacturing Lecture 24 - Thermal Management 3: Thermal Resistance
Link NOC:Electronic Packaging and Manufacturing Lecture 25 - Thermal Management 4: Heat Sink
Link NOC:Electronic Packaging and Manufacturing Lecture 26 - Thermal Management 5: Heat Sink Characterization
Link NOC:Electronic Packaging and Manufacturing Lecture 27 - Thermal Management 6: Heat Transfer Correlations
Link NOC:Electronic Packaging and Manufacturing Lecture 28 - Thermal Management 7: Practice Problems
Link NOC:Electronic Packaging and Manufacturing Lecture 29 - Thermal Management 8: Thermal Technologies
Link NOC:Electronic Packaging and Manufacturing Lecture 30 - Thermal Management 9: Novel Cooling Technologies
Link NOC:Electronic Packaging and Manufacturing Lecture 31 - Shock and Vibration - 1
Link NOC:Electronic Packaging and Manufacturing Lecture 32 - Shock and Vibration - 2
Link NOC:Electronic Packaging and Manufacturing Lecture 33 - Shock and Vibration - 3
Link NOC:Electronic Packaging and Manufacturing Lecture 34 - Shock and Vibration - 4
Link NOC:Electronic Packaging and Manufacturing Lecture 35 - Electronic Packaging Reliability - 1
Link NOC:Electronic Packaging and Manufacturing Lecture 36 - Electronic Packaging Reliability - 2
Link NOC:Electronic Packaging and Manufacturing Lecture 37 - Electronic Packaging Reliability - 3
Link NOC:Electronic Packaging and Manufacturing Lecture 38 - Electronic Packaging Reliability - 4
Link NOC:Electronic Packaging and Manufacturing Lecture 39 - Power Electronics Packaging
Link NOC:Electronic Packaging and Manufacturing Lecture 40 - Special Topics
Link NOC:Kinematics of Mechanisms and Machines Lecture 1 - Introduction and Motivation
Link NOC:Kinematics of Mechanisms and Machines Lecture 2 - Nomenclature and Classification
Link NOC:Kinematics of Mechanisms and Machines Lecture 3 - Kinematic Diagram
Link NOC:Kinematics of Mechanisms and Machines Lecture 4 - Degree of Freedom
Link NOC:Kinematics of Mechanisms and Machines Lecture 5 - Constrained and Robotic Mechanisms
Link NOC:Kinematics of Mechanisms and Machines Lecture 6 - Failure of DOF Calculation
Link NOC:Kinematics of Mechanisms and Machines Lecture 7 - Grashof Criterion - I
Link NOC:Kinematics of Mechanisms and Machines Lecture 8 - Grashof Criterion - II
Link NOC:Kinematics of Mechanisms and Machines Lecture 9 - Grashof Criterion - Problems
Link NOC:Kinematics of Mechanisms and Machines Lecture 10 - Displacement Analysis - I
Link NOC:Kinematics of Mechanisms and Machines Lecture 11 - Displacement Analysis - II
Link NOC:Kinematics of Mechanisms and Machines Lecture 12 - Displacement Analysis Example - I
Link NOC:Kinematics of Mechanisms and Machines Lecture 13 - Displacement Analysis Example - II
Link NOC:Kinematics of Mechanisms and Machines Lecture 14 - Steering Mechanisms
Link NOC:Kinematics of Mechanisms and Machines Lecture 15 - Displacement Analysis of Robots - I
Link NOC:Kinematics of Mechanisms and Machines Lecture 16 - Displacement Analysis of Robots - II
Link NOC:Kinematics of Mechanisms and Machines Lecture 17 - Displacement Analysis of Robots - III
Link NOC:Kinematics of Mechanisms and Machines Lecture 18 - Geometric Velocity Analysis - I
Link NOC:Kinematics of Mechanisms and Machines Lecture 19 - Geometric Velocity Analysis - II
Link NOC:Kinematics of Mechanisms and Machines Lecture 20 - Geometric Velocity Analysis - III
Link NOC:Kinematics of Mechanisms and Machines Lecture 21 - Velocity Analysis: Method of IC - I
Link NOC:Kinematics of Mechanisms and Machines Lecture 22 - Velocity Analysis: Method of IC - II
Link NOC:Kinematics of Mechanisms and Machines Lecture 23 - Velocity Analysis: Method of IC - III
Link NOC:Kinematics of Mechanisms and Machines Lecture 24 - Analytical Velocity Analysis - I
Link NOC:Kinematics of Mechanisms and Machines Lecture 25 - Analytical Velocity Analysis - II
Link NOC:Kinematics of Mechanisms and Machines Lecture 26 - Analytical Velocity Analysis - III
Link NOC:Kinematics of Mechanisms and Machines Lecture 27 - Velocity Analysis Examples
Link NOC:Kinematics of Mechanisms and Machines Lecture 28 - Robot Velocity Analysis - I
Link NOC:Kinematics of Mechanisms and Machines Lecture 29 - Robot Velocity Analysis - II
Link NOC:Kinematics of Mechanisms and Machines Lecture 30 - Robot Velocity Analysis - III
Link NOC:Kinematics of Mechanisms and Machines Lecture 31 - Robot Path Generation
Link NOC:Kinematics of Mechanisms and Machines Lecture 32 - Acceleration Analysis - I
Link NOC:Kinematics of Mechanisms and Machines Lecture 33 - Acceleration Analysis - II
Link NOC:Kinematics of Mechanisms and Machines Lecture 34 - Force Analysis - I
Link NOC:Kinematics of Mechanisms and Machines Lecture 35 - Force Analysis - II
Link NOC:Kinematics of Mechanisms and Machines Lecture 36 - Force Analysis Examples
Link NOC:Kinematics of Mechanisms and Machines Lecture 37 - Gear Kinematics
Link NOC:Kinematics of Mechanisms and Machines Lecture 38 - Gear trains - I
Link NOC:Kinematics of Mechanisms and Machines Lecture 39 - Gear trains - II
Link NOC:Kinematics of Mechanisms and Machines Lecture 40 - Gear trains - III
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 1 - Motivations of studying fluid mechanics
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 2 - Macroscopic and microscopic point of views
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 3 - Concept of traction vector
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 4 - Cauchy's theorem
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 5 - Concept of pressure in a fluid
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 6 - Density, Bulk Modulus, Viscosity
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 7 - Viscosity, Newtonian fluid
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 8 - Kinematic viscosity, Reynolds number
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 9 - Non-Newtonian fluids
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 10 - Some illustrative examples solved
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 11 - Problems and Solutions
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 12 - Surface Tension - Part I
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 13 - Surface Tension - Part II
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 14 - Governing equation of fluid statics
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 15 - Manometers
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 16 - Force on a surface immersed in fluid - Part I
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 17 - Force on a surface immersed in fluid - Part II
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 18 - Force on a surface immersed in fluid - Part III, Stability of solid bodies in fluid - Part I
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 19 - Stability of solid bodies in fluid - Part II
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 20 - Fluid under rigid body motion
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 21 - Lagrangian and Eulerian approaches
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 22 - Concept of different flow lines
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 23 - Acceleration of fluid flow
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 24 - Deformation of fluid elements - Part I
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 25 - Derivation of continuity equation
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 26 - Problems and Solutions
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 27 - Deformation of fluid elements - Part II
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 28 - Deformation of fluid elements - Part III
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 29 - Stream Function
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 30 - Circulation, Velocity Potential
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 31 - Euler's equation
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 32 - Bernoulli’s equation - Part I
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 33 - Bernoulli’s equation - Part II
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 34 - Bernoulli's equation - Part III
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 35 - Euler’s equation in streamline coordinates
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 36 - Problems and Solutions
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 37 - Problems and Solutions
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 38 - Application of Bernoulli's equation - Part I
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 39 - Application of Bernoulli's equation - Part II
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 40 - Application of Bernoulli's equation - Part III
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 41 - Reynolds Transport Theorem (RTT)
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 42 - Application of RTT: Conservation of mass
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 43 - Problems and Solutions
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 44 - Problems and Solutions
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 45 - Application of RTT: Conservation of linear momentum
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 46 - Problems and Solutions
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 47 - Problems and Solutions
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 48 - Problems and Solutions
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 49 - Application of RTT: Conservation of angular momentum
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 50 - Problems and Solutions
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 51 - Navier-Stokes equation - Part I
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 52 - Navier-Stokes equation - Part II
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 53 - Navier-Stokes equation - Part III
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 54 - Navier-Stokes equation - Part IV
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 55 - Pipe Flow - Part I
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 56 - Pipe Flow - Part II
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 57 - Pipe Flow - Part III
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 58 - Pipe Flow - Part IV
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 59 - Principle of Similarity and Dynamical Analysis - Part I
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 60 - Principle of Similarity and Dynamical Analysis - Part II
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 1 - Introduction To Conduction
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 2 - 1-D Steady State Conduction
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 3 - Introduction To Convection
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 4 - Conduction Equation:Internal Energy Form
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 5 - Conduction Equation:C-P Form
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 6 - Conduction Equation:Boundary Conditions And Problems
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 7 - 1-D Steady State Conduction
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 8 - Concept Of Thermal Resistance
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 9 - 1-D Steady State Conduction - II
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 10 - 1-D Steady State Conduction - II (Continued...)
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 11 - Problems On 1-D Steady State Conduction - I
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 12 - Problems On 1-D Steady State Conduction - I (Continued....)
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 13 - Problems On 1-D Steady State Conduction - II
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 14 - Conduction In Cylindrical Geometry
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 15 - Critical Insulation Thickness
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 16 - Critical Insulation Thickness (Continued...)
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 17 - Problems On Conduction In Cylindrical Geomerty - I
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 18 - Problems On Conduction In Cylindrical Geometry - I (Continued...)
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 19 - Problems On Conduction In Cylindrical Geometry - II and Conduction in Spherical Geometry
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 20 - Heat Transfer From Extended surfaces
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 21 - Boundary Conditions at the FIN tip
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 22 - Boundary Conditions at the FIN tip
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 23 - Problems on Heat Transfer from Extended Surfaces
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 24 - 2D Steady State Conduction
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 25 - Separation of Variables Method for 2-D Steady State Conduction
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 26 - Superposition Method for 2-D Steady State Conduction
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 27 - Transient Conduction: Lumped Parameter Approach
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 28 - Problems on Lumped Parameter Approach
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 29 - Transient Conduction: Infinite Slab
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 30 - Transient Conduction: Semi - Infinite Slab - I
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 31 - Transient Conduction: Semi - Infinite Slab - II
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 32 - Introduction to Convection
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 33 - Review of Fluid Mechanics - I
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 34 - Review of Fluid Mechanics - II
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 35 - Review of Fluid Mechanics - III
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 36 - Review of Fluid Mechanics - IV
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 37 - Review of Fluid Mechanics - V
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 38 - Energy Conservation Equation - I
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 39 - Energy Conservation Equation - II
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 40 - Energy Conservation Equation - III
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 41 - Thermal Boundary Layer - I
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 42 - Thermal Boundary Layer - II
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 43 - Energy Integral Equation - I
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 44 - Energy Integral Equation - II
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 45 - Internal Forced Convection - 1
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 46 - Internal Forced Convection - 2
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 47 - Internal Forced Convection - 3
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 48 - Internal Forced Convection - 4
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 49 - Internal Forced Convection - 5
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 50 - Internal Forced Convection - 6
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 51 - Viscous Dissipation - 1
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 52 - Viscous Dissipation - 2
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 53 - Natural Convection - 1
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 54 - Natural Convection - 2
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 55 - Natural Convection - 3
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 56 - Natural Convection - 4
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 57 - Condensation - I
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 58 - Condensation - II
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 59 - Boiling
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 60 - Heat Exchangers - I
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 61 - Heat Exchangers - II
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 62 - Heat Exchangers - III
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 63 - Heat Exchangers - IV
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 64 - Heat Exchangers - V
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 65 - Problems on Heat Exchangers
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 1 - Eulerian and Lagrangian Description of Fluid Motion
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 2 - Lines of Flow Visualization and Acceleration of Flow
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 3 - Angular Deformation of Fluid Elements
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 4 - Linear and Volumetric Deformation; Perspectives from Mass Conservation
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 5 - Continuity Education in Integral Form : Stream Function and Velocity Potential
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 6 - Euler Equation for Inviscid Flow
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 7 - Bernoulli's Equation
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 8 - Examples of Bernoulli's Equation
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 9 - Reynolds Transport Equation
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 10 - Reynolds Transport Theorem : Mass and Linear Momentum Conservation
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 11 - Reynolds transport theorem : arbitrarily moving control volume
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 12 - Reynolds transport theorem : angular momentum conservation
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 13 - Introduction to traction vector and stress tensor
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 14 - Cauchy/Navier equation
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 15 - Navier Stokes equation
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 16 - Navier Stokes equation (Continued...)
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 17 - Some exact solutions of the Navier Stokes equation
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 18 - Interfacial boundary conditions and example of thin film flows
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 19 - Exact solutions of the Navier Stokes equations in cylindrical polar coordinates
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 20 - Exact solutions of the Navier Stokes equation for some unsteady flows
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 21 - Confined oscillatory flows
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 22 - Introduction to Turbulence
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 23 - Statistical Treatment of Turbulence and Near - Wall Velocity Profiles
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 24 - Introduction to Boundary Layer Theory
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 25 - Similarity Solution of Boundary Layer Equation
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 26 - Momentum Integral Method
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 27 - Application of Momentum Integral Method and Boundary Layer Separation
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 28 - Potential Flow
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 29 - Potential Flow (Continued...)
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 30 - Potential Flow (Continued...)
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 31 - Potential Flow (Continued...)
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 32 - Potential Flow (Continued...)
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 33 - Potential Flow (Continued...)
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 34 - Stokes Flow past a Sphere
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 35 - Stokes Flow past a Sphere (Continued...)
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 36 - Stokes Flow past a Sphere (Continued...)
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 37 - Lubrication Theory
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 38 - Lubrication Theory (Continued...)
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 39 - Lubrication Theory (Continued...)
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 40 - Thin Film Dynamics
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 41 - Thin Film Dynamics (Continued...)
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 42 - Thin Film Dynamics (Continued...)
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 43 - Thin Film Dynamics (Continued...)
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 44 - Thin Film Dynamics (Continued...)
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 45 - Thin Film Dynamics (Continued...)
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 46 - Thin Film Dynamics (Continued...)
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 47 - Thin Film Dynamics (Continued...)
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 48 - Compressible Flows
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 49 - Compressible Flows (Continued...)
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 50 - Compressible Flows (Stagnation Properties)
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 51 - Compressible Flows (Stagnation Properties, Variable Area)
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 52 - Compressible Flows (Variable Area)
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 53 - Compressible Flows (Variable Area)
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 54 - Compressible Flows (Normal Shock)
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 55 - Compressible Flows (Normal Shock) (Continued...)
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 56 - Compressible Flows (Converging Nozzle)
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 57 - Compressible Flows (Converging Diverging Nozzle)
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 58 - Compressible Flows (Converging Diverging Nozzle) (Continued...)
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 59 - Compressible Flows with Friction
Link NOC:High Performance Computing for Scientists and Engineers Lecture 1 - Introduction to High Performance Computing
Link NOC:High Performance Computing for Scientists and Engineers Lecture 2 - Architecture for Parallel Computing
Link NOC:High Performance Computing for Scientists and Engineers Lecture 3 - Architecture for Parallel Computing (Continued...)
Link NOC:High Performance Computing for Scientists and Engineers Lecture 4 - Architecture for Parallel Computing (Continued...)
Link NOC:High Performance Computing for Scientists and Engineers Lecture 5 - Shared Memory and Distributed Memory in Parallel Computing
Link NOC:High Performance Computing for Scientists and Engineers Lecture 6 - Shared Memory and Distributed Memory in Parallel Computing (Continued...)
Link NOC:High Performance Computing for Scientists and Engineers Lecture 7 - Parallel Algorithms
Link NOC:High Performance Computing for Scientists and Engineers Lecture 8 - Parallel Algorithms (Continued...)
Link NOC:High Performance Computing for Scientists and Engineers Lecture 9 - Parallel Algorithms (Continued...)
Link NOC:High Performance Computing for Scientists and Engineers Lecture 10 - Performance Metrics of Parallel Systems
Link NOC:High Performance Computing for Scientists and Engineers Lecture 11 - Performance Metrics of Parallel Systems (Continued...)
Link NOC:High Performance Computing for Scientists and Engineers Lecture 12 - Introduction to OpenMP
Link NOC:High Performance Computing for Scientists and Engineers Lecture 13 - Introduction to OpenMP (Continued...)
Link NOC:High Performance Computing for Scientists and Engineers Lecture 14 - Introduction to OpenMP (Continued...)
Link NOC:High Performance Computing for Scientists and Engineers Lecture 15 - Essentials of OpenMP Programming
Link NOC:High Performance Computing for Scientists and Engineers Lecture 16 - Essentials of OpenMP Programming (Continued...)
Link NOC:High Performance Computing for Scientists and Engineers Lecture 17 - Data sharing and synchronization
Link NOC:High Performance Computing for Scientists and Engineers Lecture 18 - Efficient OpenMP programming for matrix computing
Link NOC:High Performance Computing for Scientists and Engineers Lecture 19 - Introduction to MPI and Distributed Memory Parallel Programming
Link NOC:High Performance Computing for Scientists and Engineers Lecture 20 - Introduction to MPI and Distributed Memory Parallel Programming (Continued...)
Link NOC:High Performance Computing for Scientists and Engineers Lecture 21 - Communication using MPI
Link NOC:High Performance Computing for Scientists and Engineers Lecture 22 - Communication using MPI (Continued...)
Link NOC:High Performance Computing for Scientists and Engineers Lecture 23 - Communication using MPI (Continued...)
Link NOC:High Performance Computing for Scientists and Engineers Lecture 24 - Matrix Representation of Physical Systems - Matrix Solvers
Link NOC:High Performance Computing for Scientists and Engineers Lecture 25 - Domain Decomposition Technique
Link NOC:High Performance Computing for Scientists and Engineers Lecture 26 - Domain decomposition based parallelization of matrix solvers
Link NOC:High Performance Computing for Scientists and Engineers Lecture 27 - Domain decomposition based parallelization of matrix solvers (Continued...)
Link NOC:High Performance Computing for Scientists and Engineers Lecture 28 - Domain decomposition based parallelization of matrix solvers (Continued...)
Link NOC:High Performance Computing for Scientists and Engineers Lecture 29 - MPI routines for parallel matrix solvers
Link NOC:High Performance Computing for Scientists and Engineers Lecture 30 - Introduction to GPGPU and CUDA
Link NOC:High Performance Computing for Scientists and Engineers Lecture 31 - Introduction to GPGPU and CUDA (Continued...)
Link NOC:High Performance Computing for Scientists and Engineers Lecture 32 - Introduction to GPGPU and CUDA (Continued...)
Link NOC:High Performance Computing for Scientists and Engineers Lecture 33 - Introduction to GPGPU and CUDA (Continued...)
Link NOC:High Performance Computing for Scientists and Engineers Lecture 34 - Introduction to CUDA programming
Link NOC:High Performance Computing for Scientists and Engineers Lecture 35 - Introduction to CUDA programming (Continued...)
Link NOC:High Performance Computing for Scientists and Engineers Lecture 36 - Thread execution in CUDA program - scheduling and memory access
Link NOC:High Performance Computing for Scientists and Engineers Lecture 37 - Thread execution in CUDA program (Continued...)
Link NOC:High Performance Computing for Scientists and Engineers Lecture 38 - Matrix multiplications in CUDA
Link NOC:High Performance Computing for Scientists and Engineers Lecture 39 - OpenACC programming for GPU-s
Link NOC:High Performance Computing for Scientists and Engineers Lecture 40 - Hybrid parallelization and exascale computing
Link NOC:Engineering Drawing and Computer Graphics Lecture 1 - Introduction - I
Link NOC:Engineering Drawing and Computer Graphics Lecture 2 - Introduction - II
Link NOC:Engineering Drawing and Computer Graphics Lecture 3 - Introduction - III
Link NOC:Engineering Drawing and Computer Graphics Lecture 4 - Introduction - IV
Link NOC:Engineering Drawing and Computer Graphics Lecture 5 - Introduction - V
Link NOC:Engineering Drawing and Computer Graphics Lecture 6 - Introduction - VI
Link NOC:Engineering Drawing and Computer Graphics Lecture 7 - Conic Sections - I
Link NOC:Engineering Drawing and Computer Graphics Lecture 8 - Conic Sections - II
Link NOC:Engineering Drawing and Computer Graphics Lecture 9 - Practice - I
Link NOC:Engineering Drawing and Computer Graphics Lecture 10 - Practice - II
Link NOC:Engineering Drawing and Computer Graphics Lecture 11 - Conic Sections - III
Link NOC:Engineering Drawing and Computer Graphics Lecture 12 - Conic Sections - IV
Link NOC:Engineering Drawing and Computer Graphics Lecture 13 - Conic Sections - V
Link NOC:Engineering Drawing and Computer Graphics Lecture 14 - Conic Sections - VI
Link NOC:Engineering Drawing and Computer Graphics Lecture 15 - Conic Sections - VII
Link NOC:Engineering Drawing and Computer Graphics Lecture 16 - Conic Sections - VIII
Link NOC:Engineering Drawing and Computer Graphics Lecture 17 - Conic Sections - IX
Link NOC:Engineering Drawing and Computer Graphics Lecture 18 - Conic Sections - X
Link NOC:Engineering Drawing and Computer Graphics Lecture 19 - Conic Sections - XI
Link NOC:Engineering Drawing and Computer Graphics Lecture 20 - Conic Sections - XII
Link NOC:Engineering Drawing and Computer Graphics Lecture 21 - Orthographic Projections I - Part 1
Link NOC:Engineering Drawing and Computer Graphics Lecture 22 - Orthographic Projections I - Part 2
Link NOC:Engineering Drawing and Computer Graphics Lecture 23 - Orthographic Projections I - Part 3
Link NOC:Engineering Drawing and Computer Graphics Lecture 24 - Orthographic Projections I - Part 4
Link NOC:Engineering Drawing and Computer Graphics Lecture 25 - Orthographic Projections I - Part 5
Link NOC:Engineering Drawing and Computer Graphics Lecture 26 - Orthographic Projections I - Part 6
Link NOC:Engineering Drawing and Computer Graphics Lecture 27 - Orthographic Projections I - Part 7
Link NOC:Engineering Drawing and Computer Graphics Lecture 28 - Orthographic Projections I - Part 8
Link NOC:Engineering Drawing and Computer Graphics Lecture 29 - Orthographic Projections I - Part 9
Link NOC:Engineering Drawing and Computer Graphics Lecture 30 - Orthographic Projections I - Part 10
Link NOC:Engineering Drawing and Computer Graphics Lecture 31 - Orthographic Projections II - Part 1
Link NOC:Engineering Drawing and Computer Graphics Lecture 32 - Orthographic Projections II - Part 2
Link NOC:Engineering Drawing and Computer Graphics Lecture 33 - Orthographic Projections II - Part 3
Link NOC:Engineering Drawing and Computer Graphics Lecture 34 - Orthographic Projections II - Part 4
Link NOC:Engineering Drawing and Computer Graphics Lecture 35 - Orthographic Projections II - Part 5
Link NOC:Engineering Drawing and Computer Graphics Lecture 36 - Orthographic Projections II - Part 6
Link NOC:Engineering Drawing and Computer Graphics Lecture 37 - Orthographic Projections II - Part 7
Link NOC:Engineering Drawing and Computer Graphics Lecture 38 - Orthographic Projections II - Part 8
Link NOC:Engineering Drawing and Computer Graphics Lecture 39 - Orthographic Projections II - Part 9
Link NOC:Engineering Drawing and Computer Graphics Lecture 40 - Orthographic Projections II - Part 10
Link NOC:Engineering Drawing and Computer Graphics Lecture 41 - Orthographic Projections II - Part 11
Link NOC:Engineering Drawing and Computer Graphics Lecture 42 - Projection of Solids - I
Link NOC:Engineering Drawing and Computer Graphics Lecture 43 - Projection of Solids - II
Link NOC:Engineering Drawing and Computer Graphics Lecture 44 - Projection of Solids - III
Link NOC:Engineering Drawing and Computer Graphics Lecture 45 - Sections and Sectional Views
Link NOC:Engineering Drawing and Computer Graphics Lecture 46 - Sections and Sectional Views (Continued...)
Link NOC:Engineering Drawing and Computer Graphics Lecture 47 - Sections and Sectional Views (Continued...)
Link NOC:Engineering Drawing and Computer Graphics Lecture 48 - Isometric Projections
Link NOC:Engineering Drawing and Computer Graphics Lecture 49 - Isometric Projections (Continued...)
Link NOC:Engineering Drawing and Computer Graphics Lecture 50 - Isometric Projections (Continued...)
Link NOC:Engineering Drawing and Computer Graphics Lecture 51 - Overview of Computer Graphics - I
Link NOC:Engineering Drawing and Computer Graphics Lecture 52 - Overview of Computer Graphics - II
Link NOC:Engineering Drawing and Computer Graphics Lecture 53 - Overview of Computer Graphics - III
Link NOC:Engineering Drawing and Computer Graphics Lecture 54 - Overview of Computer Graphics - IV
Link NOC:Engineering Drawing and Computer Graphics Lecture 55 - Solidworks
Link NOC:Engineering Drawing and Computer Graphics Lecture 56 - Solidworks (Continued...)
Link NOC:Engineering Drawing and Computer Graphics Lecture 57 - Solidworks (Continued...)
Link NOC:Engineering Drawing and Computer Graphics Lecture 58 - Solidworks (Continued...)
Link NOC:Engineering Drawing and Computer Graphics Lecture 59 - Solidworks (Continued...)
Link NOC:Engineering Drawing and Computer Graphics Lecture 60 - Solidworks (Continued...)
Link NOC:Engineering Drawing and Computer Graphics Lecture 61 - Assembly Drawing
Link NOC:Engineering Drawing and Computer Graphics Lecture 62 - Assembly Drawing (Continued...)
Link NOC:Engineering Drawing and Computer Graphics Lecture 63 - Assembly Drawing (Continued...)
Link NOC:Engineering Drawing and Computer Graphics Lecture 64 - Assembly Drawing (Continued...)
Link NOC:Engineering Drawing and Computer Graphics Lecture 65 - Assembly Drawing (Continued...)
Link NOC:Tools in Scientific Computing Lecture 1 - Preliminaries and Data types
Link NOC:Tools in Scientific Computing Lecture 2 - Loops and Conditionals Implementation of bubble sort
Link NOC:Tools in Scientific Computing Lecture 3 - Commonly used Functions
Link NOC:Tools in Scientific Computing Lecture 4 - Matrix Manipulations Mohr's circle
Link NOC:Tools in Scientific Computing Lecture 5 - Nonlinear algebraic equations - Visualizing convergence
Link NOC:Tools in Scientific Computing Lecture 6 - Nonlinear algebraic equations - system of equation and Newton's basin of attraction
Link NOC:Tools in Scientific Computing Lecture 7 - Overview of Jupyterlab, Octave GUI, Spyder GUI
Link NOC:Tools in Scientific Computing Lecture 8 - Interactivity with Python - Ipywidgets
Link NOC:Tools in Scientific Computing Lecture 9 - Geometric Interpretations of ODEs
Link NOC:Tools in Scientific Computing Lecture 10 - Bifurcation: Saddle node bifurcation
Link NOC:Tools in Scientific Computing Lecture 11 - Bifurcation: Transcritical bifurcation
Link NOC:Tools in Scientific Computing Lecture 12 - Bifurcation: Pitchfork bifurcation
Link NOC:Tools in Scientific Computing Lecture 13 - Imperfect bifurcations and catastrophies
Link NOC:Tools in Scientific Computing Lecture 14 - 2D flows - linear systems
Link NOC:Tools in Scientific Computing Lecture 15 - 2D flows - Trajectories: spirals, star and degeneracy
Link NOC:Tools in Scientific Computing Lecture 16 - Phase portraits - nonlinear systems
Link NOC:Tools in Scientific Computing Lecture 17 - 2D phase portraits - limit cycles
Link NOC:Tools in Scientific Computing Lecture 18 - Bifurcations and 3D flows
Link NOC:Tools in Scientific Computing Lecture 19 - 1D Maps
Link NOC:Tools in Scientific Computing Lecture 20 - Probability density functions and sampling
Link NOC:Tools in Scientific Computing Lecture 21 - Monte-carlo simulations: Darts and Buffon's needle
Link NOC:Tools in Scientific Computing Lecture 22 - 1D Random walks
Link NOC:Tools in Scientific Computing Lecture 23 - 2D Random walks
Link NOC:Tools in Scientific Computing Lecture 24 - Boundary Value Problems - Part 1
Link NOC:Tools in Scientific Computing Lecture 25 - Boundary Value Problems - Part 2
Link NOC:Tools in Scientific Computing Lecture 26 - Regular Perturbation for ODE
Link NOC:Tools in Scientific Computing Lecture 27 - Singular Perturbation for ODE
Link NOC:Tools in Scientific Computing Lecture 28 - 2D Boundary Values Problems
Link NOC:Tools in Scientific Computing Lecture 29 - PETSc and MPI basics
Link NOC:Tools in Scientific Computing Lecture 30 - PETSc - Creating Vectors and Matrices
Link NOC:Tools in Scientific Computing Lecture 31 - KSP object and solving a system
Link NOC:Tools in Scientific Computing Lecture 32 - Poisson equation in PETSc
Link NOC:Tools in Scientific Computing Lecture 33 - Nonlinear Solver of PETSc
Link NOC:Tools in Scientific Computing Lecture 34 - Nonlinear solver with Jacobian in PETSc
Link NOC:Tools in Scientific Computing Lecture 35 - Reaction-diffusion system in PETSc
Link NOC:Tools in Scientific Computing Lecture 36 - Time stepping in PETSc
Link NOC:Tools in Scientific Computing Lecture 37 - Heat transport using PETSc
Link NOC:Tools in Scientific Computing Lecture 38 - Solving nonlinear PDE on a periodic domain yielding different patterns
Link NOC:Tools in Scientific Computing Lecture 39 - Audio analysis - Determine motor RPM
Link NOC:Tools in Scientific Computing Lecture 40 - Spectrogram and Doppler shift
Link NOC:Tools in Scientific Computing Lecture 41 - Image processing - Preliminaries
Link NOC:Tools in Scientific Computing Lecture 42 - Balloon problem and viscous fingers
Link NOC:Tools in Scientific Computing Lecture 43 - Analyzing data files and 2D interpolation
Link NOC:Advanced Dynamics Lecture 1 - Coordinate Systems - I
Link NOC:Advanced Dynamics Lecture 2 - Coordinate Systems - II
Link NOC:Advanced Dynamics Lecture 3 - Relative Motion - I
Link NOC:Advanced Dynamics Lecture 4 - Relative Motion - II
Link NOC:Advanced Dynamics Lecture 5 - Relative Motion - III
Link NOC:Advanced Dynamics Lecture 6 - Particle kinetics - I
Link NOC:Advanced Dynamics Lecture 7 - Particle kinetics - II
Link NOC:Advanced Dynamics Lecture 8 - Particle kinetics - III
Link NOC:Advanced Dynamics Lecture 9 - Particle kinetics - IV
Link NOC:Advanced Dynamics Lecture 10 - Particle kinetics - V
Link NOC:Advanced Dynamics Lecture 11 - Work-energy relation - I
Link NOC:Advanced Dynamics Lecture 12 - Work-energy relation - II
Link NOC:Advanced Dynamics Lecture 13 - Impulse-momentum relation - I
Link NOC:Advanced Dynamics Lecture 14 - Impulse-momentum relation - II
Link NOC:Advanced Dynamics Lecture 15 - Particle impact - I
Link NOC:Advanced Dynamics Lecture 16 - Particle impact - II
Link NOC:Advanced Dynamics Lecture 17 - Central force motion - I
Link NOC:Advanced Dynamics Lecture 18 - Central force motion - II
Link NOC:Advanced Dynamics Lecture 19 - Central force motion - III
Link NOC:Advanced Dynamics Lecture 20 - Central force motion - IV
Link NOC:Advanced Dynamics Lecture 21 - Systems with Mass Flow - I
Link NOC:Advanced Dynamics Lecture 22 - Systems with Mass Flow - II
Link NOC:Advanced Dynamics Lecture 23 - Kinetics of a System of Particles - I
Link NOC:Advanced Dynamics Lecture 24 - Kinetics of a System of Particles - II
Link NOC:Advanced Dynamics Lecture 25 - Kinetics of a System of Particles - III
Link NOC:Advanced Dynamics Lecture 26 - Kinetics of a System of Particles: Extension to Rigid Bodies
Link NOC:Advanced Dynamics Lecture 27 - Planar Kinetics of Rigid Bodies - I
Link NOC:Advanced Dynamics Lecture 28 - Planar Kinetics of Rigid Bodies - II
Link NOC:Advanced Dynamics Lecture 29 - Planar Kinetics: Work-Energy Relations - I
Link NOC:Advanced Dynamics Lecture 30 - Planar Kinetics: Work-Energy Relations - II
Link NOC:Advanced Dynamics Lecture 31 - Planar kinetics: impulse-momentum relations - I
Link NOC:Advanced Dynamics Lecture 32 - Planar kinetics: impulse-momentum relations - II
Link NOC:Advanced Dynamics Lecture 33 - Spatial kinematics of rigid bodies - I
Link NOC:Advanced Dynamics Lecture 34 - Spatial kinematics of rigid bodies - II
Link NOC:Advanced Dynamics Lecture 35 - Spatial kinetics of rigid bodies - I
Link NOC:Advanced Dynamics Lecture 36 - Spatial kinetics of rigid bodies - II
Link NOC:Advanced Dynamics Lecture 37 - Spatial kinetics of rigid bodies - III
Link NOC:Advanced Dynamics Lecture 38 - Gyroscopic motion - I
Link NOC:Advanced Dynamics Lecture 39 - Gyroscopic motion - II
Link NOC:Advanced Dynamics Lecture 40 - Gyroscopic motion - III
Link NOC:Advanced Dynamics Lecture 41 - Kinematics of rotation - I
Link NOC:Advanced Dynamics Lecture 42 - Kinematics of rotation - II
Link NOC:Advanced Dynamics Lecture 43 - Kinematics of rotation - III
Link NOC:Advanced Dynamics Lecture 44 - Kinematics of rotation - IV
Link NOC:Advanced Dynamics Lecture 45 - Kinematics of rotation - V
Link NOC:Advanced Dynamics Lecture 46 - Introduction to Analytical Dynamics: generalized coordinates - I
Link NOC:Advanced Dynamics Lecture 47 - Introduction to Analytical Dynamics: generalized coordinates - II
Link NOC:Advanced Dynamics Lecture 48 - Hamilton's principle and Lagrange's equation of motion - I
Link NOC:Advanced Dynamics Lecture 49 - Hamilton's principle and Lagrange's equation of motion - II
Link NOC:Advanced Dynamics Lecture 50 - Hamilton's principle and Lagrange's equation of motion - III
Link NOC:Advanced Dynamics Lecture 51 - Hamilton's principle and Lagrange's equation of motion - IV
Link NOC:Advanced Dynamics Lecture 52 - Systems with constraints - I
Link NOC:Advanced Dynamics Lecture 53 - Systems with constraints - II
Link NOC:Advanced Dynamics Lecture 54 - Systems with constraints - III
Link NOC:Advanced Dynamics Lecture 55 - Systems with constraints - IV
Link NOC:Advanced Dynamics Lecture 56 - Symmetries and conservation laws - I
Link NOC:Advanced Dynamics Lecture 57 - Symmetries and conservation laws - II
Link NOC:Advanced Dynamics Lecture 58 - Symmetries and conservation laws - III
Link NOC:Advanced Dynamics Lecture 59 - Symmetries and conservation laws - IV
Link NOC:Advanced Dynamics Lecture 60 - Intermediate axis theorem
Link NOC:Biomechanics of Joints and Orthopaedic Implants Lecture 1 - General Introduction to the Course
Link NOC:Biomechanics of Joints and Orthopaedic Implants Lecture 2 - Musculoskeletal System
Link NOC:Biomechanics of Joints and Orthopaedic Implants Lecture 3 - Synovial Joints
Link NOC:Biomechanics of Joints and Orthopaedic Implants Lecture 4 - The Hip Joint
Link NOC:Biomechanics of Joints and Orthopaedic Implants Lecture 5 - The Knee Joint
Link NOC:Biomechanics of Joints and Orthopaedic Implants Lecture 6 - The Shoulder and Elbow Joints
Link NOC:Biomechanics of Joints and Orthopaedic Implants Lecture 7 - The Spine
Link NOC:Biomechanics of Joints and Orthopaedic Implants Lecture 8 - Biomechanics of the Hip Joint
Link NOC:Biomechanics of Joints and Orthopaedic Implants Lecture 9 - Biomechanics of the Knee Joint
Link NOC:Biomechanics of Joints and Orthopaedic Implants Lecture 10 - Biomechanics of the Shoulder Joint
Link NOC:Biomechanics of Joints and Orthopaedic Implants Lecture 11 - Biomechanics of the Elbow Joint - Part I
Link NOC:Biomechanics of Joints and Orthopaedic Implants Lecture 12 - Biomechanics of the Elbow Joint - Part II
Link NOC:Biomechanics of Joints and Orthopaedic Implants Lecture 13 - Biomechanics of the Spine
Link NOC:Biomechanics of Joints and Orthopaedic Implants Lecture 14 - Gait Cycle
Link NOC:Biomechanics of Joints and Orthopaedic Implants Lecture 15 - Gait Analysis and Abnormalities
Link NOC:Biomechanics of Joints and Orthopaedic Implants Lecture 16 - Measurement Techniques of Gait Analysis - Part I
Link NOC:Biomechanics of Joints and Orthopaedic Implants Lecture 17 - Measurement Techniques of Gait Analysis - Part II
Link NOC:Biomechanics of Joints and Orthopaedic Implants Lecture 18 - Motion Capture System
Link NOC:Biomechanics of Joints and Orthopaedic Implants Lecture 19 - Fundamentals of Joint Kinematics
Link NOC:Biomechanics of Joints and Orthopaedic Implants Lecture 20 - Joint Kinematics and Kinetics
Link NOC:Biomechanics of Joints and Orthopaedic Implants Lecture 21 - Introduction to Musculoskeletal Modelling
Link NOC:Biomechanics of Joints and Orthopaedic Implants Lecture 22 - Inverse Dynamics in Musculoskeletal Modelling
Link NOC:Biomechanics of Joints and Orthopaedic Implants Lecture 23 - Muscle Force Estimation Using Static Optimization
Link NOC:Biomechanics of Joints and Orthopaedic Implants Lecture 24 - Concepts of Stress and Strain
Link NOC:Biomechanics of Joints and Orthopaedic Implants Lecture 25 - Stress Transformation
Link NOC:Biomechanics of Joints and Orthopaedic Implants Lecture 26 - Bone Structure and Mechanical Behaviour
Link NOC:Biomechanics of Joints and Orthopaedic Implants Lecture 27 - Bone Adaptation and Viscoelastic Behaviour
Link NOC:Biomechanics of Joints and Orthopaedic Implants Lecture 28 - Anisotropic Nature of Bone
Link NOC:Biomechanics of Joints and Orthopaedic Implants Lecture 29 - Implant Classification and Failure Mechanisms
Link NOC:Biomechanics of Joints and Orthopaedic Implants Lecture 30 - Introduction to Finite Element Modelling of Bone and Implant
Link NOC:Biomechanics of Joints and Orthopaedic Implants Lecture 31 - Finite Element Modelling and Analysis of Hip and Shoulder
Link NOC:Biomechanics of Joints and Orthopaedic Implants Lecture 32 - Modelling and Analysis of Intact and Implanted Lumbar Spine
Link NOC:Biomechanics of Joints and Orthopaedic Implants Lecture 33 - Experimental Validation of Pre-Clinical Analysis
Link NOC:Biomechanics of Joints and Orthopaedic Implants Lecture 34 - Adaptive Bone Remodelling
Link NOC:Biomechanics of Joints and Orthopaedic Implants Lecture 35 - Bone Remodelling Around Resurfaced Femur and Pelvic Bone
Link NOC:Biomechanics of Joints and Orthopaedic Implants Lecture 36 - Design Optimization of HIP Implant
Link NOC:Biomechanics of Joints and Orthopaedic Implants Lecture 37 - Orthotropic Bone Remodelling
Link NOC:Biomechanics of Joints and Orthopaedic Implants Lecture 38 - Biomaterials and Design of Orthopaedic Implants
Link NOC:Biomechanics of Joints and Orthopaedic Implants Lecture 39 - Bone Fracture Healing
Link NOC:Biomechanics of Joints and Orthopaedic Implants Lecture 40 - Bone Ingrowth and Mechanoregulatory Principles
Link NOC:Biomechanics of Joints and Orthopaedic Implants Lecture 41 - Mathematical Modelling of Tissue Differentiation
Link NOC:Biomechanics of Joints and Orthopaedic Implants Lecture 42 - Bone Ingrowth around Porous Coated Femoral Implant
Link NOC:Biomechanics of Joints and Orthopaedic Implants Lecture 43 - Tissue Differentiation around Porous Coated Acetabular Implant
Link NOC:Biomechanics of Joints and Orthopaedic Implants Lecture 44 - Concluding Remarks
Link NOC:Elements of Metal Cutting, Machine tools, Gear Cutting and CNC Machining Lecture 1 - Introduction
Link NOC:Elements of Metal Cutting, Machine tools, Gear Cutting and CNC Machining Lecture 2 - Geometry of single point turning tools - 1
Link NOC:Elements of Metal Cutting, Machine tools, Gear Cutting and CNC Machining Lecture 3 - Geometry of turning tools - 2
Link NOC:Elements of Metal Cutting, Machine tools, Gear Cutting and CNC Machining Lecture 4 - Geometry of single point turning tools -3
Link NOC:Elements of Metal Cutting, Machine tools, Gear Cutting and CNC Machining Lecture 5 - Geometry of cutting tools and numerical problems
Link NOC:Elements of Metal Cutting, Machine tools, Gear Cutting and CNC Machining Lecture 6 - Different types of tools and mcq
Link NOC:Elements of Metal Cutting, Machine tools, Gear Cutting and CNC Machining Lecture 7 - Mechanism of chip formation
Link NOC:Elements of Metal Cutting, Machine tools, Gear Cutting and CNC Machining Lecture 8 - Mechanics of material removal
Link NOC:Elements of Metal Cutting, Machine tools, Gear Cutting and CNC Machining Lecture 9 - Measurement Of Cutting Forces
Link NOC:Elements of Metal Cutting, Machine tools, Gear Cutting and CNC Machining Lecture 10 - Numerical problems and MCQ
Link NOC:Elements of Metal Cutting, Machine tools, Gear Cutting and CNC Machining Lecture 11 - Tool wear and Tool life
Link NOC:Elements of Metal Cutting, Machine tools, Gear Cutting and CNC Machining Lecture 12 - Wear and life of cutting tools - 2
Link NOC:Elements of Metal Cutting, Machine tools, Gear Cutting and CNC Machining Lecture 13 - The lathe
Link NOC:Elements of Metal Cutting, Machine tools, Gear Cutting and CNC Machining Lecture 14 - Calculations on mechanisms in machine tools
Link NOC:Elements of Metal Cutting, Machine tools, Gear Cutting and CNC Machining Lecture 15 - Numerical problems on lathe
Link NOC:Elements of Metal Cutting, Machine tools, Gear Cutting and CNC Machining Lecture 16 - milling machines
Link NOC:Elements of Metal Cutting, Machine tools, Gear Cutting and CNC Machining Lecture 17 - Milling machine - indexing
Link NOC:Elements of Metal Cutting, Machine tools, Gear Cutting and CNC Machining Lecture 18 - Gear cutting CNC and non traditional machining
Link NOC:Elements of Metal Cutting, Machine tools, Gear Cutting and CNC Machining Lecture 19 - CNC and non-traditional machining methods
Link NOC:Elements of Metal Cutting, Machine tools, Gear Cutting and CNC Machining Lecture 20 - Numerical problems for week 4
Link NOC:Elements of Metal Cutting, Machine tools, Gear Cutting and CNC Machining Lecture 21 - Introduction
Link NOC:Elements of Metal Cutting, Machine tools, Gear Cutting and CNC Machining Lecture 22 - Simple Gear Calculations
Link NOC:Elements of Metal Cutting, Machine tools, Gear Cutting and CNC Machining Lecture 23 - Gear Geometry
Link NOC:Elements of Metal Cutting, Machine tools, Gear Cutting and CNC Machining Lecture 24 - Helical Gear Problems
Link NOC:Elements of Metal Cutting, Machine tools, Gear Cutting and CNC Machining Lecture 25 - Numerical Problem MCQ
Link NOC:Elements of Metal Cutting, Machine tools, Gear Cutting and CNC Machining Lecture 26 - Numerical Problem Milling of Helical Gears
Link NOC:Elements of Metal Cutting, Machine tools, Gear Cutting and CNC Machining Lecture 27 - Simple and Compound Indexing
Link NOC:Elements of Metal Cutting, Machine tools, Gear Cutting and CNC Machining Lecture 28 - Differential Indexing
Link NOC:Elements of Metal Cutting, Machine tools, Gear Cutting and CNC Machining Lecture 29 - Helical Gear Cutting on Milling Machine
Link NOC:Elements of Metal Cutting, Machine tools, Gear Cutting and CNC Machining Lecture 30 - Numerical Problems on Gear Milling
Link NOC:Elements of Metal Cutting, Machine tools, Gear Cutting and CNC Machining Lecture 31 - Gear Shaping - I
Link NOC:Elements of Metal Cutting, Machine tools, Gear Cutting and CNC Machining Lecture 32 - Gear Shaping - II
Link NOC:Elements of Metal Cutting, Machine tools, Gear Cutting and CNC Machining Lecture 33 - Gear Shaping - III
Link NOC:Elements of Metal Cutting, Machine tools, Gear Cutting and CNC Machining Lecture 34 - Gear Shaping - IV
Link NOC:Elements of Metal Cutting, Machine tools, Gear Cutting and CNC Machining Lecture 35 - Gear Hobbing - I
Link NOC:Elements of Metal Cutting, Machine tools, Gear Cutting and CNC Machining Lecture 36 - Gear Hobbing - II
Link NOC:Elements of Metal Cutting, Machine tools, Gear Cutting and CNC Machining Lecture 37 - Gear Hobbing - III
Link NOC:Elements of Metal Cutting, Machine tools, Gear Cutting and CNC Machining Lecture 38 - Gear Hobbing - IV
Link NOC:Elements of Metal Cutting, Machine tools, Gear Cutting and CNC Machining Lecture 39 - Gear Hobbing - V
Link NOC:Elements of Metal Cutting, Machine tools, Gear Cutting and CNC Machining Lecture 40 - Gear Hobbing - VI
Link NOC:Elements of Metal Cutting, Machine tools, Gear Cutting and CNC Machining Lecture 41 - Introduction to computer control role of computers in automation
Link NOC:Elements of Metal Cutting, Machine tools, Gear Cutting and CNC Machining Lecture 42 - Introduction (Continued...) binary logic and logic gates
Link NOC:Elements of Metal Cutting, Machine tools, Gear Cutting and CNC Machining Lecture 43 - Classification of Computer numerical control (CNC) Point to point and continuous control
Link NOC:Elements of Metal Cutting, Machine tools, Gear Cutting and CNC Machining Lecture 44 - Classification (Continued...) : Closed loop and open loop control
Link NOC:Elements of Metal Cutting, Machine tools, Gear Cutting and CNC Machining Lecture 45 - Tutorial involving simple calculations on different aspects of CNC controls
Link NOC:Elements of Metal Cutting, Machine tools, Gear Cutting and CNC Machining Lecture 46 - Questions, MCQ Discussions on Motors, Encoders, Decoders and Programming Practice
Link NOC:Elements of Metal Cutting, Machine tools, Gear Cutting and CNC Machining Lecture 47 - Stepper motors, Permanent magnet DC motors
Link NOC:Elements of Metal Cutting, Machine tools, Gear Cutting and CNC Machining Lecture 48 - Binary circuits and decoders
Link NOC:Elements of Metal Cutting, Machine tools, Gear Cutting and CNC Machining Lecture 49 - Tachogenerator, printed circuit motors, Encoders
Link NOC:Elements of Metal Cutting, Machine tools, Gear Cutting and CNC Machining Lecture 50 - Programming Practice - I
Link NOC:Elements of Metal Cutting, Machine tools, Gear Cutting and CNC Machining Lecture 51 - Programming Practice - 1I
Link NOC:Elements of Metal Cutting, Machine tools, Gear Cutting and CNC Machining Lecture 52 - Computer Aided Offline Programming
Link NOC:Elements of Metal Cutting, Machine tools, Gear Cutting and CNC Machining Lecture 53 - Interpolators - Linear
Link NOC:Elements of Metal Cutting, Machine tools, Gear Cutting and CNC Machining Lecture 54 - Interpolators - Curvilinear
Link NOC:Elements of Metal Cutting, Machine tools, Gear Cutting and CNC Machining Lecture 55 - Questions on Programming and Interpolation
Link NOC:Elements of Metal Cutting, Machine tools, Gear Cutting and CNC Machining Lecture 56 - 3-D Machining - Basic Concepts
Link NOC:Elements of Metal Cutting, Machine tools, Gear Cutting and CNC Machining Lecture 57 - Curved Surface Geometry
Link NOC:Elements of Metal Cutting, Machine tools, Gear Cutting and CNC Machining Lecture 58 - Cutter Path Generation for Curved Surfaces
Link NOC:Elements of Metal Cutting, Machine tools, Gear Cutting and CNC Machining Lecture 59 - Cutter Path Generation (Concluding Part) and Current Status - CNC Machining and Related Processes
Link NOC:Elements of Metal Cutting, Machine tools, Gear Cutting and CNC Machining Lecture 60 - Questions and Discussions on Curved Surface Machining
Link NOC:Finite Element Method Lecture 1 - Introduction
Link NOC:Finite Element Method Lecture 2 - Introduction (Continued...)
Link NOC:Finite Element Method Lecture 3 - Introduction (Continued...)
Link NOC:Finite Element Method Lecture 4 - Introduction (Continued...)
Link NOC:Finite Element Method Lecture 5 - Introduction (Continued...)
Link NOC:Finite Element Method Lecture 6 - Elements of Calculation of Variations - I
Link NOC:Finite Element Method Lecture 7 - Elements of Calculation of Variations - II
Link NOC:Finite Element Method Lecture 8 - Elements of Calculation of Variations - III
Link NOC:Finite Element Method Lecture 9 - Strong Form and Weak Form
Link NOC:Finite Element Method Lecture 10 - Rayleigh - Ritz Method - I
Link NOC:Finite Element Method Lecture 11 - Rayleigh - Ritz Method - II
Link NOC:Finite Element Method Lecture 12 - Weighted Residual Method
Link NOC:Finite Element Method Lecture 13 - Weighted Residual Method - Example
Link NOC:Finite Element Method Lecture 14 - Concepts of Element and Axial Bar Problem
Link NOC:Finite Element Method Lecture 15 - Axial Bar Problem
Link NOC:Finite Element Method Lecture 16 - Axial Bar - II
Link NOC:Finite Element Method Lecture 17 - Beam Formulation
Link NOC:Finite Element Method Lecture 18 - Beam Stiffness Matrix
Link NOC:Finite Element Method Lecture 19 - Problems
Link NOC:Finite Element Method Lecture 20 - Beam Column
Link NOC:Finite Element Method Lecture 21 - Problem
Link NOC:Finite Element Method Lecture 22 - Share Deformable Beam Theory
Link NOC:Finite Element Method Lecture 23 - Weak Form and Discretization
Link NOC:Finite Element Method Lecture 24 - Reduced Integration Based Stiffness Matrix
Link NOC:Finite Element Method Lecture 25 - Problem
Link NOC:Finite Element Method Lecture 26 - Problem (Continued...)
Link NOC:Finite Element Method Lecture 27 - Element of Formulation
Link NOC:Finite Element Method Lecture 28 - Analysis of Plane Truss
Link NOC:Finite Element Method Lecture 29 - Analysis of Plane Truss (Computer Implementation)
Link NOC:Finite Element Method Lecture 30 - Analysis of Euler-Bernoulli Beam (Computer Implementation)
Link NOC:Finite Element Method Lecture 31 - Analysis of Plane Frame (Computer Implementation)
Link NOC:Finite Element Method Lecture 32 - Introduction to FEM in 2D
Link NOC:Finite Element Method Lecture 33 - Continuity and Completeness
Link NOC:Finite Element Method Lecture 34 - Shape Functions
Link NOC:Finite Element Method Lecture 35 - Numerical Integration (Gaussian Quadrature)
Link NOC:Finite Element Method Lecture 36 - Gaussian Quadrature in two dimension
Link NOC:Finite Element Method Lecture 37 - Weak Form
Link NOC:Finite Element Method Lecture 38 - Example
Link NOC:Finite Element Method Lecture 39 - Iso-Parametric Formulation
Link NOC:Finite Element Method Lecture 40 - Example with Quadrilateral Element
Link NOC:Finite Element Method Lecture 41 - Computer Implementation
Link NOC:Finite Element Method Lecture 42 - 2D Elasticity and Weak Form
Link NOC:Finite Element Method Lecture 43 - Weak Form and Matrix Formulation
Link NOC:Finite Element Method Lecture 44 - Weak Form to Matrix Form
Link NOC:Finite Element Method Lecture 45 - Problems
Link NOC:Finite Element Method Lecture 46 - Thermoelastic Problem
Link NOC:Finite Element Method Lecture 47 - Torsion
Link NOC:Finite Element Method Lecture 48 - Triangular Elements
Link NOC:Finite Element Method Lecture 49 - Triangular Elements (Continued...)
Link NOC:Finite Element Method Lecture 50 - Examples and Computer Implementation
Link NOC:Finite Element Method Lecture 51 - Examples and Computer Implementation (Continued...)
Link NOC:Finite Element Method Lecture 52 - Shear Locking
Link NOC:Finite Element Method Lecture 53 - Selective reduced Integration and Modes of Q4 Element
Link NOC:Finite Element Method Lecture 54 - Incompatible Elements
Link NOC:Finite Element Method Lecture 55 - Nearly Incompressible Material
Link NOC:Finite Element Method Lecture 56
Link NOC:Finite Element Method Lecture 57 - B-Bar Method
Link NOC:Finite Element Method Lecture 58 - Different Elements
Link NOC:Finite Element Method Lecture 59 - Iso-parametric Formulation and Guass Quadrature
Link NOC:Finite Element Method Lecture 60 - Closure
Link NOC:Product Engineering and Design Thinking Lecture 1 - Introduction to product engineering
Link NOC:Product Engineering and Design Thinking Lecture 2 - Introduction to Product design
Link NOC:Product Engineering and Design Thinking Lecture 3 - Introduction to Design Thinking
Link NOC:Product Engineering and Design Thinking Lecture 4 - Conceptual Design
Link NOC:Product Engineering and Design Thinking Lecture 5 - Design Planning and Innovation Engineering
Link NOC:Product Engineering and Design Thinking Lecture 6 - FFE Interface with HLD and DT
Link NOC:Product Engineering and Design Thinking Lecture 7 - High Level Design in the Context of Front End Innovation
Link NOC:Product Engineering and Design Thinking Lecture 8 - Functional and Physical Decomposition and QFD
Link NOC:Product Engineering and Design Thinking Lecture 9 - Product Design Specification
Link NOC:Product Engineering and Design Thinking Lecture 10 - FAST in Functional Design
Link NOC:Product Engineering and Design Thinking Lecture 11 - Design Thinking and Product Conceptualization and Development
Link NOC:Product Engineering and Design Thinking Lecture 12 - Product specification and related methods
Link NOC:Product Engineering and Design Thinking Lecture 13 - Conceptual design stemmed from Idea generation
Link NOC:Product Engineering and Design Thinking Lecture 14 - Conceptual design: tools and techniques
Link NOC:Product Engineering and Design Thinking Lecture 15 - Quality Function Deployment (QFD): Example
Link NOC:Product Engineering and Design Thinking Lecture 16 - Kano Model and Analysis
Link NOC:Product Engineering and Design Thinking Lecture 17 - Concept Generation methods
Link NOC:Product Engineering and Design Thinking Lecture 18 - Concept evaluation methods
Link NOC:Product Engineering and Design Thinking Lecture 19 - Concept testing methods
Link NOC:Product Engineering and Design Thinking Lecture 20 - Morphological Design Concept
Link NOC:Product Engineering and Design Thinking Lecture 21 - Embodiment, Architectural, Configuration, and Parametric Design
Link NOC:Product Engineering and Design Thinking Lecture 22 - Pugh Method (Concept Selection leading to Embodiment Design)
Link NOC:Product Engineering and Design Thinking Lecture 23 - Introduction to Sustainability
Link NOC:Product Engineering and Design Thinking Lecture 24 - Sustainability and Eco-design
Link NOC:Product Engineering and Design Thinking Lecture 25 - LCA and design thinking on LCA
Link NOC:Product Engineering and Design Thinking Lecture 26 - Introduction to Additive Manufacturing
Link NOC:Product Engineering and Design Thinking Lecture 27 - Design for Rapid prototyping, DFAM
Link NOC:Product Engineering and Design Thinking Lecture 28 - Introduction to Design for Manufacturing (DFM) and Assembly (DFA)
Link NOC:Product Engineering and Design Thinking Lecture 29 - Rapid: Digital Prototyping
Link NOC:Product Engineering and Design Thinking Lecture 30 - A Primer on Design for Quality: Robust and Reliability Engineering
Link NOC:Product Engineering and Design Thinking Lecture 31 - Tolerance Design: Taguchi Robust Engineering
Link NOC:Product Engineering and Design Thinking Lecture 32 - Complexity Mitigation in Multidisciplinary, System: Concurrent Engineering Precepts
Link NOC:Product Engineering and Design Thinking Lecture 33 - Design Thinking steps
Link NOC:Product Engineering and Design Thinking Lecture 34 - Design Thinking Methodologies and Tools
Link NOC:Product Engineering and Design Thinking Lecture 35 - Frugal Engineering-A Disruptive Innovation Paradigm in Product Design and Development
Link NOC:Product Engineering and Design Thinking Lecture 36 - Design-Driven Innovation
Link NOC:Product Engineering and Design Thinking Lecture 37 - User interface and Experience (UI/UX) Design in Product Engineering
Link NOC:Product Engineering and Design Thinking Lecture 38 - Industrial Design: Aesthetics and Ergonomics
Link NOC:Product Engineering and Design Thinking Lecture 39 - Design Thinking in Industrial Design - Case Studies
Link NOC:Product Engineering and Design Thinking Lecture 40 - Product Engineering'- Led Technology Entrepreneurship
Link NOC:Microfluidics and Nanofluidics Lecture 1 - Introduction to Microfluidics
Link NOC:Microfluidics and Nanofluidics Lecture 2 - Introduction to Microfluidics (Continued...)
Link NOC:Microfluidics and Nanofluidics Lecture 3 - Introduction to Microfluidics (Continued...)
Link NOC:Microfluidics and Nanofluidics Lecture 4 - Introduction to Microfluidics (Continued...)
Link NOC:Microfluidics and Nanofluidics Lecture 5 - Introduction to Microfluidics (Continued...)
Link NOC:Microfluidics and Nanofluidics Lecture 6 - Introduction to Microfluidics (Continued...)
Link NOC:Microfluidics and Nanofluidics Lecture 7 - Introduction to Microfluidics (Continued...)
Link NOC:Microfluidics and Nanofluidics Lecture 8 - Introduction to Microfluidics (Continued...)
Link NOC:Microfluidics and Nanofluidics Lecture 9 - Introduction to Microfluidics (Continued...)
Link NOC:Microfluidics and Nanofluidics Lecture 10 - Introduction to Microfluidics (Continued...)
Link NOC:Microfluidics and Nanofluidics Lecture 11 - Introduction to Microfluidics (Continued...)
Link NOC:Microfluidics and Nanofluidics Lecture 12 - Foundations of Fluid Dynamics
Link NOC:Microfluidics and Nanofluidics Lecture 13 - Foundations of Fluid Dynamics (Continued...)
Link NOC:Microfluidics and Nanofluidics Lecture 14 - Foundations of Fluid Dynamics (Continued...)
Link NOC:Microfluidics and Nanofluidics Lecture 15 - Foundations of Fluid Dynamics (Continued...)
Link NOC:Microfluidics and Nanofluidics Lecture 16 - Foundations of Fluid Dynamics (Continued...)
Link NOC:Microfluidics and Nanofluidics Lecture 17 - Foundations of Fluid Dynamics (Continued...)
Link NOC:Microfluidics and Nanofluidics Lecture 18 - Foundations of Fluid Dynamics (Continued...)
Link NOC:Microfluidics and Nanofluidics Lecture 19 - Foundations of Fluid Dynamics (Continued...)
Link NOC:Microfluidics and Nanofluidics Lecture 20 - Foundations of Fluid Dynamics (Continued...)
Link NOC:Microfluidics and Nanofluidics Lecture 21 - Foundations of Fluid Dynamics (Continued...)
Link NOC:Microfluidics and Nanofluidics Lecture 22 - Pressure-driven Microchannel Flows
Link NOC:Microfluidics and Nanofluidics Lecture 23 - Pressure-driven Microchannel Flows (Continued...)
Link NOC:Microfluidics and Nanofluidics Lecture 24 - Pressure-driven Microchannel Flows (Continued...)
Link NOC:Microfluidics and Nanofluidics Lecture 25 - Pressure-driven Microchannel Flows (Continued...)
Link NOC:Microfluidics and Nanofluidics Lecture 26 - Pressure-driven Microchannel Flows (Continued...)
Link NOC:Microfluidics and Nanofluidics Lecture 27 - Insights on Inertia-free Flows
Link NOC:Microfluidics and Nanofluidics Lecture 28 - Inertia-free Flow in Circular Capillaries and Generalizing the Force balance
Link NOC:Microfluidics and Nanofluidics Lecture 29 - Inertia-free flows for general fluids - Concepts for Microelectric Materials
Link NOC:Microfluidics and Nanofluidics Lecture 30 - Microelectric Fluid Flow through Microchannel
Link NOC:Microfluidics and Nanofluidics Lecture 31 - Fluid Flow through Deformable Microchanels
Link NOC:Microfluidics and Nanofluidics Lecture 32 - Fluid Flow through Deformable Microchanels (Continued...)
Link NOC:Microfluidics and Nanofluidics Lecture 33 - Lubrication Theory
Link NOC:Microfluidics and Nanofluidics Lecture 34 - Lubrication Theory (Continued...)
Link NOC:Microfluidics and Nanofluidics Lecture 35 - Lubrication Theory (Continued...)
Link NOC:Microfluidics and Nanofluidics Lecture 36 - Lubrication Theory (Continued...)
Link NOC:Microfluidics and Nanofluidics Lecture 37 - Lubrication Theory (Continued...)
Link NOC:Microfluidics and Nanofluidics Lecture 38 - Lubrication Theory - 2 Dimensional Problems
Link NOC:Microfluidics and Nanofluidics Lecture 39 - Unsteady Flows
Link NOC:Microfluidics and Nanofluidics Lecture 40 - Unsteady Flows (Continued...)
Link NOC:Microfluidics and Nanofluidics Lecture 41 - Unsteady Flows: Stoke's 1st problem (Continued...)
Link NOC:Microfluidics and Nanofluidics Lecture 42 - Unsteady Flows: Stoke's 1st problem (Continued...)
Link NOC:Microfluidics and Nanofluidics Lecture 43 - Unsteady Flows: Stoke's 2nd Problem
Link NOC:Microfluidics and Nanofluidics Lecture 44 - Unsteady Flows: Stoke's 2nd Problem (Continued...)
Link NOC:Microfluidics and Nanofluidics Lecture 45 - Unsteady Flows: Stoke's 2nd Problem (Continued...)
Link NOC:Microfluidics and Nanofluidics Lecture 46 - Stokes Flow Past a Sphere
Link NOC:Microfluidics and Nanofluidics Lecture 47 - Stokes Flow Past a Sphere
Link NOC:Microfluidics and Nanofluidics Lecture 48 - Stokes Flow Past a Sphere - The Drag Force
Link NOC:Microfluidics and Nanofluidics Lecture 49 - Surface Tension and Its Implications in Mircrofluidics
Link NOC:Microfluidics and Nanofluidics Lecture 50 - Equilibrium of a Droplet
Link NOC:Microfluidics and Nanofluidics Lecture 51 - Equilibrium of a Droplet (Continued...)
Link NOC:Microfluidics and Nanofluidics Lecture 52 - Capillary Rise
Link NOC:Microfluidics and Nanofluidics Lecture 53 - Capillary Filling Dynamics
Link NOC:Microfluidics and Nanofluidics Lecture 54 - Capillary Filling Dynamics (Continued...)
Link NOC:Microfluidics and Nanofluidics Lecture 55 - Capillary Filling Dynamics (Continued...)
Link NOC:Microfluidics and Nanofluidics Lecture 56 - Capillary Filling Dynamics (Continued...)
Link NOC:Microfluidics and Nanofluidics Lecture 57 - Factors affecting Capillary and Wetting
Link NOC:Microfluidics and Nanofluidics Lecture 58 - Electrowetting
Link NOC:Microfluidics and Nanofluidics Lecture 59 - Slip Boundary Condition
Link NOC:Microfluidics and Nanofluidics Lecture 60 - Apparent Slip
Link NOC:Microfluidics and Nanofluidics Lecture 61 - Thin Film Flows
Link NOC:Microfluidics and Nanofluidics Lecture 62 - Thin Film Flows (Continued...)
Link NOC:Microfluidics and Nanofluidics Lecture 63 - Electrokinetics and Electric Double Layer
Link NOC:Microfluidics and Nanofluidics Lecture 64 - Equilibrium within Electrical Double Layer Poisson Boltzmann model
Link NOC:Microfluidics and Nanofluidics Lecture 65 - Poisson - Nernst - Plank Model
Link NOC:Microfluidics and Nanofluidics Lecture 66 - Maxwell Stress and Electroosmosis
Link NOC:Microfluidics and Nanofluidics Lecture 67 - Electroosmosis
Link NOC:Microfluidics and Nanofluidics Lecture 68 - Electrophoresis and Streaming Potential
Link NOC:Industrial Robotics: Theories for Implementation Lecture 1 - Introduction to and Industrial Robots
Link NOC:Industrial Robotics: Theories for Implementation Lecture 2 - Anatomy of an Industrial Robot
Link NOC:Industrial Robotics: Theories for Implementation Lecture 3 - Technical Specifications of an Industrial Robot
Link NOC:Industrial Robotics: Theories for Implementation Lecture 4 - Classification of Robots
Link NOC:Industrial Robotics: Theories for Implementation Lecture 5 - Fixed Installation Robots - Serial and Parallel Robots
Link NOC:Industrial Robotics: Theories for Implementation Lecture 6 - Introduction to Industrial Controllers, Drives and Systems
Link NOC:Industrial Robotics: Theories for Implementation Lecture 7 - DC Motors/Actuators and Drives
Link NOC:Industrial Robotics: Theories for Implementation Lecture 8 - Stepper Motors
Link NOC:Industrial Robotics: Theories for Implementation Lecture 9 - Brushless DC Motors/Actuators
Link NOC:Industrial Robotics: Theories for Implementation Lecture 10 - AC Servo Motors
Link NOC:Industrial Robotics: Theories for Implementation Lecture 11 - Introduction to Sensor and Transducers, Position Sensors
Link NOC:Industrial Robotics: Theories for Implementation Lecture 12 - Position Sensors: Potentiometers, and Hall-effect. Velocity Sensors
Link NOC:Industrial Robotics: Theories for Implementation Lecture 13 - Acceleration Sensors, AC Sensors (Resolvers and Synchros)
Link NOC:Industrial Robotics: Theories for Implementation Lecture 14 - Non-contact (Inductive and Capacitive), Force/Torque Sensors
Link NOC:Industrial Robotics: Theories for Implementation Lecture 15 - Limit Switches, Classification and Characteristics of Sensors
Link NOC:Industrial Robotics: Theories for Implementation Lecture 16 - Degrees of Freedom and Kinematic Transformations : Translation
Link NOC:Industrial Robotics: Theories for Implementation Lecture 17 - Pure Rotation, Arbitrary Axis Rotations, Euler Angles
Link NOC:Industrial Robotics: Theories for Implementation Lecture 18 - Link and Joint Parameters (DH Notations), 2 and 3 DoF Robots
Link NOC:Industrial Robotics: Theories for Implementation Lecture 19 - 3 DoF Cylindrical Robot (Spatial), SphericalWrist, Cylindrical Robot with Wrist
Link NOC:Industrial Robotics: Theories for Implementation Lecture 20 - Forward Kinematics of 6-DoF Industrial Robot
Link NOC:Industrial Robotics: Theories for Implementation Lecture 21 - Inverse Kinematics: 2 and 3 DoF Planar Manipulator
Link NOC:Industrial Robotics: Theories for Implementation Lecture 22 - Spatial Robots - 3R, Cylindrical (RPP), 4-DoF SCARA Robot
Link NOC:Industrial Robotics: Theories for Implementation Lecture 23 - Inverse Kinematics of a 6-DoF Industrial Robot
Link NOC:Industrial Robotics: Theories for Implementation Lecture 24 - Differential Motion Analysis, Velocity, and Robot Jacobian
Link NOC:Industrial Robotics: Theories for Implementation Lecture 25 - Jacobian (2R), Jacobian Inverse, Singularity, and Acceleration Analysis
Link NOC:Industrial Robotics: Theories for Implementation Lecture 26 - Installing the Mechanical Arm and Test Run
Link NOC:Industrial Robotics: Theories for Implementation Lecture 27 - Mastering an Industrial Robot
Link NOC:Industrial Robotics: Theories for Implementation Lecture 28 - TCP Calibration using 4-Point method and External reference method
Link NOC:Industrial Robotics: Theories for Implementation Lecture 29 - TCP Orientation Calibration using World Frame and Two-Point method
Link NOC:Industrial Robotics: Theories for Implementation Lecture 30 - Worksurface Calibration
Link NOC:Industrial Robotics: Theories for Implementation Lecture 31 - Fixed Tool Calibration: External TCP and Workpiece Calibration
Link NOC:Industrial Robotics: Theories for Implementation Lecture 32 - Base Linear Track and External Turn-Table Calibration
Link NOC:Industrial Robotics: Theories for Implementation Lecture 33 - Link Forces and Moments
Link NOC:Industrial Robotics: Theories for Implementation Lecture 34 - Gravity Compensation and External Forces/Torques
Link NOC:Industrial Robotics: Theories for Implementation Lecture 35 - Kinetostatic Measures for Robot Design
Link NOC:Industrial Robotics: Theories for Implementation Lecture 36 - Introduction to Dynamics, LE Approach, Dynamics of 1DoF System
Link NOC:Industrial Robotics: Theories for Implementation Lecture 37 - Equation of Motion (EoM) for a Two-Link Manipulator using LE
Link NOC:Industrial Robotics: Theories for Implementation Lecture 38 - Newton-Euler (NE) Approach
Link NOC:Industrial Robotics: Theories for Implementation Lecture 39 - Equation of motion of a Two-Link manipulator using NE Approach
Link NOC:Industrial Robotics: Theories for Implementation Lecture 40 - Payload and Supplementary Load Calibration
Link NOC:Industrial Robotics: Theories for Implementation Lecture 41 - Identification Experiments
Link NOC:Industrial Robotics: Theories for Implementation Lecture 42 - Repeatability Tests and ISO 9283:1998
Link NOC:Industrial Robotics: Theories for Implementation Lecture 43 - Introduction to Control, Linear Control, Second Order System
Link NOC:Industrial Robotics: Theories for Implementation Lecture 44 - Response of a Second Order Linear System
Link NOC:Industrial Robotics: Theories for Implementation Lecture 45 - Transfer Function and State-space representation, ODE
Link NOC:Industrial Robotics: Theories for Implementation Lecture 46 - A Robot Joint : DC Motor Model
Link NOC:Industrial Robotics: Theories for Implementation Lecture 47 - Feedback control of a robot arm, PID Control, Gain Tuning
Link NOC:Industrial Robotics: Theories for Implementation Lecture 48 - Workspace and Operator Safety
Link NOC:Industrial Robotics: Theories for Implementation Lecture 49 - Industrial Robot Programming
Link NOC:Industrial Robotics: Theories for Implementation Lecture 50 - Course Conclusion and Suggestions
Link NOC:Cryogenic Hydrogen Technology Lecture 1 - Introduction
Link NOC:Cryogenic Hydrogen Technology Lecture 2 - Hydrogen Properties
Link NOC:Cryogenic Hydrogen Technology Lecture 3 - Slush Hydrogen, Ortho-Para H2
Link NOC:Cryogenic Hydrogen Technology Lecture 4 - Ortho-Para H2 Conversion
Link NOC:Cryogenic Hydrogen Technology Lecture 5 - Deuterium Production
Link NOC:Cryogenic Hydrogen Technology Lecture 6 - Hydrogen Production - 1
Link NOC:Cryogenic Hydrogen Technology Lecture 7 - Hydrogen Production - 2
Link NOC:Cryogenic Hydrogen Technology Lecture 8 - Hydrogen Production - 3
Link NOC:Cryogenic Hydrogen Technology Lecture 9 - Hydrogen Production
Link NOC:Cryogenic Hydrogen Technology Lecture 10 - Hydrogen Production
Link NOC:Cryogenic Hydrogen Technology Lecture 11 - Hydrogen Production (Electrolysis)
Link NOC:Cryogenic Hydrogen Technology Lecture 12 - Electrolytic Hydrogen
Link NOC:Cryogenic Hydrogen Technology Lecture 13 - Electrolytic Hydrogen
Link NOC:Cryogenic Hydrogen Technology Lecture 14 - SPE Water Electrolyser
Link NOC:Cryogenic Hydrogen Technology Lecture 15 - Thermochemical Process
Link NOC:Cryogenic Hydrogen Technology Lecture 16 - Hydrogen Storage: Overview
Link NOC:Cryogenic Hydrogen Technology Lecture 17 - Compressed Hydrogen Storage
Link NOC:Cryogenic Hydrogen Technology Lecture 18 - Compressed Hydrogen Storage
Link NOC:Cryogenic Hydrogen Technology Lecture 19 - Overview on Hydrogen Storage
Link NOC:Cryogenic Hydrogen Technology Lecture 20 - Adsorption Storage of Hydrogen
Link NOC:Cryogenic Hydrogen Technology Lecture 21 - Basics of Cryogenic Liquefaction
Link NOC:Cryogenic Hydrogen Technology Lecture 22 - Coefficient of Expansion
Link NOC:Cryogenic Hydrogen Technology Lecture 23 - Cryogenic Liquefaction Cycles
Link NOC:Cryogenic Hydrogen Technology Lecture 24 - Cryogenic Liquefaction (Continued...)
Link NOC:Cryogenic Hydrogen Technology Lecture 25 - Hydrogen Liquefaction
Link NOC:Cryogenic Hydrogen Technology Lecture 26 - Cryogenic Liquefaction (Continued...)
Link NOC:Cryogenic Hydrogen Technology Lecture 27 - Cryogenic Liquefaction - Numerical
Link NOC:Cryogenic Hydrogen Technology Lecture 28 - Cryogenic Liquefaction - Numerical
Link NOC:Cryogenic Hydrogen Technology Lecture 29 - Cryogenic Liquefaction (Continued...)
Link NOC:Cryogenic Hydrogen Technology Lecture 30 - Cryogenic Liquefaction (Continued...)
Link NOC:Cryogenic Hydrogen Technology Lecture 31 - Cryo Hydrogen Storage
Link NOC:Cryogenic Hydrogen Technology Lecture 32 - Cryo Hydrogen Storage
Link NOC:Cryogenic Hydrogen Technology Lecture 33 - Cryo Hydrogen Storage
Link NOC:Cryogenic Hydrogen Technology Lecture 34 - Cryogenic Liquid Level Measurement
Link NOC:Cryogenic Hydrogen Technology Lecture 35 - Flow Rate/Fluid Quality Measurement
Link NOC:Cryogenic Hydrogen Technology Lecture 36 - Temperature Measurement
Link NOC:Cryogenic Hydrogen Technology Lecture 37 - Application: Fuel Cell
Link NOC:Cryogenic Hydrogen Technology Lecture 38 - Fuel Cell (Continued...)
Link NOC:Cryogenic Hydrogen Technology Lecture 39 - Cryogenic Rocket Propulsion
Link NOC:Cryogenic Hydrogen Technology Lecture 40 - Hydrogen Safety
Link NOC:Industrial Hydraulics and Automation Lecture 1 - Introduction to power hydraulics
Link NOC:Industrial Hydraulics and Automation Lecture 2 - Fundamental theory of power hydraulics
Link NOC:Industrial Hydraulics and Automation Lecture 3 - Fundamental theory of power hydraulics (Continued...)
Link NOC:Industrial Hydraulics and Automation Lecture 4 - Hydraulic fluids
Link NOC:Industrial Hydraulics and Automation Lecture 5 - Hydraulic fluids (Continued...)
Link NOC:Industrial Hydraulics and Automation Lecture 6 - Introduction to hydraulic pumps
Link NOC:Industrial Hydraulics and Automation Lecture 7 - Introduction to hydraulic pumps (Continued...)
Link NOC:Industrial Hydraulics and Automation Lecture 8 - Construction, operation and application of hydraulic pumps
Link NOC:Industrial Hydraulics and Automation Lecture 9 - Construction, operation and application of hydraulic pumps (Continued...)
Link NOC:Industrial Hydraulics and Automation Lecture 10 - Construction, operation and application of hydraulic pumps (Continued...)
Link NOC:Industrial Hydraulics and Automation Lecture 11 - Performance characteristics of hydraulic pumps
Link NOC:Industrial Hydraulics and Automation Lecture 12 - Performance characteristics of hydraulic pumps (Continued...)
Link NOC:Industrial Hydraulics and Automation Lecture 13 - Performance characteristics of hydraulic pumps (Continued...)
Link NOC:Industrial Hydraulics and Automation Lecture 14 - Performance characteristics of hydraulic pumps (Continued...)
Link NOC:Industrial Hydraulics and Automation Lecture 15 - Performance characteristics of hydraulic pumps (Continued...)
Link NOC:Industrial Hydraulics and Automation Lecture 16 - Introduction to hydraulic actuators
Link NOC:Industrial Hydraulics and Automation Lecture 17 - Introduction to hydraulic actuators (Continued...)
Link NOC:Industrial Hydraulics and Automation Lecture 18 - Rotary actuators
Link NOC:Industrial Hydraulics and Automation Lecture 19 - Rotary actuators (Continued...)
Link NOC:Industrial Hydraulics and Automation Lecture 20 - Rotary actuators (Continued...)
Link NOC:Industrial Hydraulics and Automation Lecture 21 - Linear actuators
Link NOC:Industrial Hydraulics and Automation Lecture 22 - Linear actuators (Continued...)
Link NOC:Industrial Hydraulics and Automation Lecture 23 - Performance characteristics of hydraulic actuators
Link NOC:Industrial Hydraulics and Automation Lecture 24 - Performance characteristics of hydraulic actuators (Continued...)
Link NOC:Industrial Hydraulics and Automation Lecture 25 - Performance characteristics of hydraulic actuators (Continued...)
Link NOC:Industrial Hydraulics and Automation Lecture 26 - Introduction to hydraulic valves
Link NOC:Industrial Hydraulics and Automation Lecture 27 - Theory of control valves - I
Link NOC:Industrial Hydraulics and Automation Lecture 28 - Theory of control valves - I (Continued...)
Link NOC:Industrial Hydraulics and Automation Lecture 29 - Theory of control valves - II
Link NOC:Industrial Hydraulics and Automation Lecture 30 - Theory of control valves - III
Link NOC:Industrial Hydraulics and Automation Lecture 31 - Theory of control valves - IV
Link NOC:Industrial Hydraulics and Automation Lecture 32 - Theory of control valves - IV (Continued...)
Link NOC:Industrial Hydraulics and Automation Lecture 33 - Theory of proportional valves
Link NOC:Industrial Hydraulics and Automation Lecture 34 - Theory of servo valves
Link NOC:Industrial Hydraulics and Automation Lecture 35 - Numerical on operation of control valves
Link NOC:Industrial Hydraulics and Automation Lecture 36 - Introduction to hydraulic accessories
Link NOC:Industrial Hydraulics and Automation Lecture 37 - Hydraulic accumulator
Link NOC:Industrial Hydraulics and Automation Lecture 38 - Hydraulic reservoirs
Link NOC:Industrial Hydraulics and Automation Lecture 39 - Hoses, Filters and Coolers
Link NOC:Industrial Hydraulics and Automation Lecture 40 - Performance analysis of hydraulic accumulators and hydraulic reservoirs
Link NOC:Industrial Hydraulics and Automation Lecture 41 - Hydrostatic Transmission System (HST)
Link NOC:Industrial Hydraulics and Automation Lecture 42 - Hydraulic system for industrial equipment - I
Link NOC:Industrial Hydraulics and Automation Lecture 43 - Hydraulic system for industrial equipment - I (Continued...)
Link NOC:Industrial Hydraulics and Automation Lecture 44 - Hydraulic system for industrial equipment - I (Continued...)
Link NOC:Industrial Hydraulics and Automation Lecture 45 - Hydraulic system for industrial equipment - I (Continued...)
Link NOC:Industrial Hydraulics and Automation Lecture 46 - Hydraulic system for industrial equipment - II
Link NOC:Industrial Hydraulics and Automation Lecture 47 - Hydraulic system for industrial equipment - II (Continued...)
Link NOC:Industrial Hydraulics and Automation Lecture 48 - Hydraulic system for industrial equipment - II (Continued...)
Link NOC:Industrial Hydraulics and Automation Lecture 49 - Performance evaluation of hydraulic systems
Link NOC:Industrial Hydraulics and Automation Lecture 50 - Performance evaluation of hydraulic systems (Continued...)
Link NOC:Industrial Hydraulics and Automation Lecture 51 - Introduction to control system
Link NOC:Industrial Hydraulics and Automation Lecture 52 - Introduction to control system (Continued...)
Link NOC:Industrial Hydraulics and Automation Lecture 53 - Control system analysis - I
Link NOC:Industrial Hydraulics and Automation Lecture 54 - Control system analysis - I (Continued...)
Link NOC:Industrial Hydraulics and Automation Lecture 55 - Control system analysis - I (Continued...)
Link NOC:Industrial Hydraulics and Automation Lecture 56 - Control system analysis - II
Link NOC:Industrial Hydraulics and Automation Lecture 57 - Control system analysis - II (Continued...)
Link NOC:Industrial Hydraulics and Automation Lecture 58 - Control system analysis - II (Continued...)
Link NOC:Industrial Hydraulics and Automation Lecture 59 - Digital hydraulics
Link NOC:Industrial Hydraulics and Automation Lecture 60 - Digital hydraulics (Continued...)
Link Advanced Gas Dynamics Lecture 1 - Introduction to Gas Dynamics & Review of Basic Thermodynamics
Link Advanced Gas Dynamics Lecture 2 - Review of Basic Thermodynamics Continued
Link Advanced Gas Dynamics Lecture 3 - An introduction to Normal Shocks
Link Advanced Gas Dynamics Lecture 4 - The Mach Number and Compressible Flow
Link Advanced Gas Dynamics Lecture 5 - The relation of physical properties across a normal shock
Link Advanced Gas Dynamics Lecture 6 - Normal Shock in a duct: Throat and Reservoir conditions
Link Advanced Gas Dynamics Lecture 7 - Example Problems in Normal Shocks
Link Advanced Gas Dynamics Lecture 8 - An introduction to Oblique Shocks
Link Advanced Gas Dynamics Lecture 9 - The relation of physical properties across an oblique shock
Link Advanced Gas Dynamics Lecture 10 - Example Problems in Oblique Shocks
Link Advanced Gas Dynamics Lecture 11 - Pressure - Deflection relationship of Shocks
Link Advanced Gas Dynamics Lecture 12 - An introduction to Expansion waves
Link Advanced Gas Dynamics Lecture 13 - Area - Mach Relationship
Link Advanced Gas Dynamics Lecture 14 - Unsteady Shock Waves: The Shock Tube
Link Advanced Gas Dynamics Lecture 15 - The Shock Tube: Propagating Normal Shock and its reflection from end wall
Link Advanced Gas Dynamics Lecture 16 - A review of wave propagation
Link Advanced Gas Dynamics Lecture 17 - Wave propagation: Small Perturbation Theory
Link Advanced Gas Dynamics Lecture 18 - Finite Wave Theory: An introduction to the Method of Characteristics
Link Advanced Gas Dynamics Lecture 19 - The Shock Tube: Propagating Expansion Fan
Link Advanced Gas Dynamics Lecture 20 - The Method of Characteristics
Link Advanced Gas Dynamics Lecture 21 - Application of The Method of Characteristics: Design of a minimum length nozzle
Link Advanced Gas Dynamics Lecture 22 - Application of The Method of Characteristics: Flow through a diverging channel
Link Advanced Gas Dynamics Lecture 23 - Flow over a Wavy wall: Formulation using Perturbation Theory
Link Advanced Gas Dynamics Lecture 24 - Subsonic Flow over a Wavy wall
Link Advanced Gas Dynamics Lecture 25 - Supersonic Flow over a Wavy wall
Link Advanced Gas Dynamics Lecture 26 - Supersonic Flow past a 3D Cone: Axisymmetric/Quasi 2D Flow
Link Advanced Gas Dynamics Lecture 27 - Quasi 2D Flow - I
Link Advanced Gas Dynamics Lecture 28 - Quasi 2D Flow - II
Link Advanced Gas Dynamics Lecture 29 - Similarity Rules and Transformed Coordinate System
Link Advanced Gas Dynamics Lecture 30 - Critical Mach Number and Thin Airfoil Theory
Link Advanced Gas Dynamics Lecture 31 - Example Problem using Thin Airfoil Theory
Link Advanced Gas Dynamics Lecture 32 - Example Problems - 1
Link Advanced Gas Dynamics Lecture 33 - Example Problems - 2
Link Advanced Gas Dynamics Lecture 34 - Example Problems - 3
Link Advanced Gas Dynamics Lecture 35 - Supersonic Flow past a 3D Cone at an angle of attack
Link Advanced Gas Dynamics Lecture 36 - Supersonic Flow past a 3D Cone at an angle of attack: Flow Visualization - I
Link Advanced Gas Dynamics Lecture 37 - Supersonic Flow past a 3D Cone at an angle of attack: Flow Visualization - II
Link Advanced Gas Dynamics Lecture 38 - Supersonic Flow past a 3D Cone at an angle of attack: Governing Equations
Link Advanced Gas Dynamics Lecture 39 - Supersonic Flow past a 3D Cone at an angle of attack: Numerical Procedure
Link Advanced Gas Dynamics Lecture 40 - Supersonic Flow past a 3D Bluff Body at an angle of attack
Link Design and Optimization of Energy systems Lecture 1 - Introduction to Optimization
Link Design and Optimization of Energy systems Lecture 2 - System Design and Analysis
Link Design and Optimization of Energy systems Lecture 3 - Workable system
Link Design and Optimization of Energy systems Lecture 4 - System simulation
Link Design and Optimization of Energy systems Lecture 5 - Information flow diagrams
Link Design and Optimization of Energy systems Lecture 6 - Successive substitution method
Link Design and Optimization of Energy systems Lecture 7 - Successive substitution method (Continued.)
Link Design and Optimization of Energy systems Lecture 8 - Successive substitution method and Newton-Raphson method
Link Design and Optimization of Energy systems Lecture 9 - Newton-Raphson method (Continued.)
Link Design and Optimization of Energy systems Lecture 10 - Convergence characteristics of Newton-Raphson method
Link Design and Optimization of Energy systems Lecture 11 - Newton-Raphson method for multiple variables
Link Design and Optimization of Energy systems Lecture 12 - Solution of system of linear equations
Link Design and Optimization of Energy systems Lecture 13 - Introduction to Curve fitting
Link Design and Optimization of Energy systems Lecture 14 - Example for Lagrange interpolation
Link Design and Optimization of Energy systems Lecture 15 - Lagrange interpolation (Continued.)
Link Design and Optimization of Energy systems Lecture 16 - Best fit
Link Design and Optimization of Energy systems Lecture 17 - Least Square Regression
Link Design and Optimization of Energy systems Lecture 18 - Least Square Regression (Continued.)
Link Design and Optimization of Energy systems Lecture 19 - Least Square Regression (Continued.)
Link Design and Optimization of Energy systems Lecture 20 - Non-linear Regression (Gauss - Newton Algorithm)
Link Design and Optimization of Energy systems Lecture 21 - Optimization- Basic ideas
Link Design and Optimization of Energy systems Lecture 22 - Properties of objective function and cardinal ideas in optimization
Link Design and Optimization of Energy systems Lecture 23 - Unconstrained optimization
Link Design and Optimization of Energy systems Lecture 24 - Constrained optimization problems
Link Design and Optimization of Energy systems Lecture 25 - Mathematical proof of the Lagrange multiplier method
Link Design and Optimization of Energy systems Lecture 26 - Test for Maxima / Minima
Link Design and Optimization of Energy systems Lecture 27 - Handling in-equality constraints
Link Design and Optimization of Energy systems Lecture 28 - Kuhn-Tucker conditions (Continued.)
Link Design and Optimization of Energy systems Lecture 29 - Uni-modal function and search methods
Link Design and Optimization of Energy systems Lecture 30 - Dichotomous search
Link Design and Optimization of Energy systems Lecture 31 - Fibonacci search method
Link Design and Optimization of Energy systems Lecture 32 - Reduction ratio of Fibonacci search method
Link Design and Optimization of Energy systems Lecture 33 - Introduction to multi-variable optimization
Link Design and Optimization of Energy systems Lecture 34 - The Conjugate gradient method
Link Design and Optimization of Energy systems Lecture 35 - The Conjugate gradient method (Continued.)
Link Design and Optimization of Energy systems Lecture 36 - Linear programming
Link Design and Optimization of Energy systems Lecture 37 - Dynamic programming
Link Design and Optimization of Energy systems Lecture 38 - Genetic Algorithms
Link Design and Optimization of Energy systems Lecture 39 - Genetic Algorithms (Continued.)
Link Design and Optimization of Energy systems Lecture 40 - Simulated Annealing and Summary
Link Engineering Fracture Mechanics Lecture 1 - EFM Course Outline
Link Engineering Fracture Mechanics Lecture 2 - Spectacular Failures
Link Engineering Fracture Mechanics Lecture 3 - Lessons from Spectacular Failures
Link Engineering Fracture Mechanics Lecture 4 - LEFM and EPFM
Link Engineering Fracture Mechanics Lecture 5 - Fracture Mechanics is Holistic
Link Engineering Fracture Mechanics Lecture 6 - Fatigue Crack Growth Model
Link Engineering Fracture Mechanics Lecture 7 - Crack Growth and Fracture Mechanisms
Link Engineering Fracture Mechanics Lecture 8 - Elastic Strain Energy
Link Engineering Fracture Mechanics Lecture 9 - Fracture Strength by Griffith
Link Engineering Fracture Mechanics Lecture 10 - Energy Release Rate
Link Engineering Fracture Mechanics Lecture 11 - Utility of Energy Release Rate
Link Engineering Fracture Mechanics Lecture 12 - Pop-in Phenomenon
Link Engineering Fracture Mechanics Lecture 13 - Displacement and Stress Formulations
Link Engineering Fracture Mechanics Lecture 14 - Forms of Stress Functions
Link Engineering Fracture Mechanics Lecture 15 - Airy’s Stress Function for Mode-I
Link Engineering Fracture Mechanics Lecture 16 - Westergaard Solution of Stress Field for Mode-I
Link Engineering Fracture Mechanics Lecture 17 - Displacement Field for Mode-I
Link Engineering Fracture Mechanics Lecture 18 - Relation between KI and GI
Link Engineering Fracture Mechanics Lecture 19 - Stress Field in Mode-II
Link Engineering Fracture Mechanics Lecture 20 - Generalised Westergaard Approach
Link Engineering Fracture Mechanics Lecture 21 - William’s Eigen Function Approach
Link Engineering Fracture Mechanics Lecture 22 - Multi-parameter Stress Field Equations
Link Engineering Fracture Mechanics Lecture 23 - Validation of Multi-parameter Field Equations
Link Engineering Fracture Mechanics Lecture 24 - Discussion Session - I
Link Engineering Fracture Mechanics Lecture 25 - Evaluation of SIF for Various Geometries
Link Engineering Fracture Mechanics Lecture 26 - SIF for Embedded Cracks
Link Engineering Fracture Mechanics Lecture 27 - SIF for Surface Cracks
Link Engineering Fracture Mechanics Lecture 28 - Modeling of Plastic Deformation
Link Engineering Fracture Mechanics Lecture 29 - Irwin’s Model
Link Engineering Fracture Mechanics Lecture 30 - Dugdale Model
Link Engineering Fracture Mechanics Lecture 31 - Fracture Toughness Testing
Link Engineering Fracture Mechanics Lecture 32 - Plane Strain Fracture Toughness Testing
Link Engineering Fracture Mechanics Lecture 33 - Plane Stress Fracture Toughness Testing
Link Engineering Fracture Mechanics Lecture 34 - Paris Law and Sigmoidal Curve
Link Engineering Fracture Mechanics Lecture 35 - Crack Closure
Link Engineering Fracture Mechanics Lecture 36 - Crack Growth Models
Link Engineering Fracture Mechanics Lecture 37 - J-Integral
Link Engineering Fracture Mechanics Lecture 38 - HRR Field and CTOD
Link Engineering Fracture Mechanics Lecture 39 - FAD and Mixed Mode Fracture
Link Engineering Fracture Mechanics Lecture 40 - Crack Arrest and Repair Methodologies
Link Engineering Fracture Mechanics Lecture 41 - Discussion Session - II
Link Experimental Stress Analysis Lecture 1 - Overview of Experimental Stress Analysis
Link Experimental Stress Analysis Lecture 2 - Optical Methods Work as Optical Computers
Link Experimental Stress Analysis Lecture 3 - Stress, Strain and Displacement Fields
Link Experimental Stress Analysis Lecture 4 - Physical Principle of Strain Gauges, Photoelasticity and Moiré
Link Experimental Stress Analysis Lecture 5 - Introduction to Moiré, Brittle Coatings and Holography
Link Experimental Stress Analysis Lecture 6 - Hologram Interferometry, Speckle Methods
Link Experimental Stress Analysis Lecture 7 - Introduction to Shearography, TSA, DIC and Caustics
Link Experimental Stress Analysis Lecture 8 - Fringe Patterns – Richness of Qualitative Information
Link Experimental Stress Analysis Lecture 9 - Multi-Scale Analysis in Experimental Mechanics
Link Experimental Stress Analysis Lecture 10 - Selection of an Experimental Technique
Link Experimental Stress Analysis Lecture 11 - Introduction to Transmission Photoelasticity
Link Experimental Stress Analysis Lecture 12 - Ordinary and Extraordinary Rays
Link Experimental Stress Analysis Lecture 13 - Light Ellipse, Passage of Light Through a Crystal Plate
Link Experimental Stress Analysis Lecture 14 - Retardation Plates, Stress-optic Law
Link Experimental Stress Analysis Lecture 15 - Plane Polariscope
Link Experimental Stress Analysis Lecture 16 - Jones Calculus
Link Experimental Stress Analysis Lecture 17 - Circular Polariscope
Link Experimental Stress Analysis Lecture 18 - Determination of Photoelastic Parameters at an Arbitrary Point
Link Experimental Stress Analysis Lecture 19 - Tardy’s Method of Compensation
Link Experimental Stress Analysis Lecture 20 - Calibration of Photo elastic Materials
Link Experimental Stress Analysis Lecture 21 - Fringe Thinning Methodologies
Link Experimental Stress Analysis Lecture 22 - Fringe Ordering in Photoelasticity
Link Experimental Stress Analysis Lecture 23 - Miscellaneous Topics in Transmission Photoelasticity
Link Experimental Stress Analysis Lecture 24 - Three Dimensional Photoelasticity
Link Experimental Stress Analysis Lecture 25 - Overview of Digital Photoelasticity
Link Experimental Stress Analysis Lecture 26 - Introduction to Photoelastic Coatings
Link Experimental Stress Analysis Lecture 27 - Correction Factors for Photoelastic Coatings
Link Experimental Stress Analysis Lecture 28 - Coating Materials, Selection of Coating Thickness, Industrial Application of Photoelastic Coatings
Link Experimental Stress Analysis Lecture 29 - Calibration of Photoelastic Coatings, Introduction to Brittle Coatings
Link Experimental Stress Analysis Lecture 30 - Analysis of Brittle Coatings
Link Experimental Stress Analysis Lecture 31 - Introduction to Strain Gauges
Link Experimental Stress Analysis Lecture 32 - Strain Sensitivity of a Strain Gauge, Bridge Sensitivity, Rosettes
Link Experimental Stress Analysis Lecture 33 - Strain Gauge Alloys, Carriers and Adhesives
Link Experimental Stress Analysis Lecture 34 - Performance of Strain Gauge System
Link Experimental Stress Analysis Lecture 35 - Temperature Compensation, Two-wire and Three-wire Circuits
Link Experimental Stress Analysis Lecture 36 - Strain Gauge Selection
Link Experimental Stress Analysis Lecture 37 - Bonding of a Strain Gauge
Link Experimental Stress Analysis Lecture 38 - Soldering, Accounting for Transverse Sensitivity Effects
Link Experimental Stress Analysis Lecture 39 - Correction Factors for Special Applications
Link Experimental Stress Analysis Lecture 40 - Special Gauges
Link Experimental Stress Analysis Lecture 41 - Questions and Answers
Link Rocket Propulsion Lecture 1 - Introduction
Link Rocket Propulsion Lecture 2 - Motion in Space
Link Rocket Propulsion Lecture 3 - Rotational Frame of Reference and Orbital Velocities
Link Rocket Propulsion Lecture 4 - Velocity Requirements
Link Rocket Propulsion Lecture 5 - Theory of Rocket Propulsion
Link Rocket Propulsion Lecture 6 - Rocket Equation and Staging of Rockets
Link Rocket Propulsion Lecture 7 - Review of Rocket Principles; Propulsion Efficiency
Link Rocket Propulsion Lecture 8 - Examples Illustrating Theory of Rocket Propulsion and Introduction to Nozzles
Link Rocket Propulsion Lecture 9 - Theory of Nozzles
Link Rocket Propulsion Lecture 10 - Nozzle Shape
Link Rocket Propulsion Lecture 11 - Area Ratio of Nozzles; Under-expansion and Over-expansion
Link Rocket Propulsion Lecture 12 - Characteristic Velocity and Thrust Coefficient
Link Rocket Propulsion Lecture 13 - Divergence Loss in Conical Nozzles and the Bell Nozzle
Link Rocket Propulsion Lecture 14 - Unconventional Nozzles and Problems in Nozzles
Link Rocket Propulsion Lecture 15 - Criterion for Choice of Chemical Propellants
Link Rocket Propulsion Lecture 16 - Choice of Fuel-Rich Propellants
Link Rocket Propulsion Lecture 17 - Performance Prediction Analysis
Link Rocket Propulsion Lecture 18 - Dissociation of Products of Combustion
Link Rocket Propulsion Lecture 19 - Shifting Equilibrium and Frozen Flow in Nozzles
Link Rocket Propulsion Lecture 20 - Factors Influencing Choice of Chemical Propellants
Link Rocket Propulsion Lecture 21 - Low Energy Liquid Propellants and Hybrid Propellants
Link Rocket Propulsion Lecture 22 - Introduction to Solid Propellant Rockets
Link Rocket Propulsion Lecture 23 - Burn Rate of Solid Propellants and Equilibrium Pressure in Solid Propellant Rockets
Link Rocket Propulsion Lecture 24 - Design Aspects of Solid Propellant Rockets
Link Rocket Propulsion Lecture 25 - Burning Surface Area of Solid Propellant Grains
Link Rocket Propulsion Lecture 26 - Ignition of Solid Propellant Rockets
Link Rocket Propulsion Lecture 27 - Review of Solid Propellant Rockets
Link Rocket Propulsion Lecture 28 - Feed Systems for Liquid Propellant Rockets
Link Rocket Propulsion Lecture 29 - Feed System Cycles for Pump Fed Liquid Propellant Rockets
Link Rocket Propulsion Lecture 30 - Analysis of Gas Generator and Staged Combustion Cycles and Introduction to Injectors
Link Rocket Propulsion Lecture 31 - Injectors, Cooling of Chamber and Mixture Ratio Distribution
Link Rocket Propulsion Lecture 32 - Efficiencies due to Mixture Ratio Distribution and Incomplete Vaporization
Link Rocket Propulsion Lecture 33 - Pumps and Turbines; Propellant Feed System at Zero “g” Conditions
Link Rocket Propulsion Lecture 34 - Review of Liquid Bi-propellant Rockets and Introduction to Mono-propellant Rockets
Link Rocket Propulsion Lecture 35 - Introduction to Hybrid Rockets and a Simple Illustration of Combustion Instability in Liquid Propellant Rockets
Link Rocket Propulsion Lecture 36 - Combustion Instability in Solid Propellant and Liquid Propellant Rockets – Bulk and Wave Modes
Link Rocket Propulsion Lecture 37 - Wave modes of Oscillation
Link Rocket Propulsion Lecture 38 - Mechanisms Causing Instabilities and Strategies for Avoiding Combustion Instability
Link Rocket Propulsion Lecture 39 - Electric and Magnetic Fields and the Electrostatic Thruster
Link Rocket Propulsion Lecture 40 - Electrical Thrusters
Link Rocket Propulsion Lecture 41 - Advances in Rocket Propulsion
Link Advanced Finite Elements Analysis Lecture 1 - Advanced Finite Elements Analysis
Link Advanced Finite Elements Analysis Lecture 2 - Advanced Finite Elements Analysis
Link Advanced Finite Elements Analysis Lecture 3 - Advanced Finite Elements Analysis
Link Advanced Finite Elements Analysis Lecture 4 - Advanced Finite Elements Analysis
Link Advanced Finite Elements Analysis Lecture 5 - Advanced Finite Elements Analysis
Link Advanced Finite Elements Analysis Lecture 6 - Advanced Finite Elements Analysis
Link Advanced Finite Elements Analysis Lecture 7 - Advanced Finite Elements Analysis
Link Advanced Finite Elements Analysis Lecture 8 - Advanced Finite Elements Analysis
Link Advanced Finite Elements Analysis Lecture 9 - Advanced Finite Elements Analysis
Link Advanced Finite Elements Analysis Lecture 10 - Advanced Finite Elements Analysis
Link Advanced Finite Elements Analysis Lecture 11 - Advanced Finite Elements Analysis
Link Advanced Finite Elements Analysis Lecture 12 - Advanced Finite Elements Analysis
Link Advanced Finite Elements Analysis Lecture 13 - Advanced Finite Elements Analysis
Link Advanced Finite Elements Analysis Lecture 14 - Advanced Finite Elements Analysis
Link Advanced Finite Elements Analysis Lecture 15 - Advanced Finite Elements Analysis
Link Advanced Finite Elements Analysis Lecture 16 - Advanced Finite Elements Analysis
Link Advanced Finite Elements Analysis Lecture 17 - Advanced Finite Elements Analysis
Link Advanced Finite Elements Analysis Lecture 18 - Advanced Finite Elements Analysis
Link Advanced Finite Elements Analysis Lecture 19 - Advanced Finite Elements Analysis
Link Advanced Finite Elements Analysis Lecture 20 - Advanced Finite Elements Analysis
Link Advanced Finite Elements Analysis Lecture 21 - Advanced Finite Elements Analysis
Link Advanced Finite Elements Analysis Lecture 22 - Advanced Finite Elements Analysis
Link Advanced Finite Elements Analysis Lecture 23 - Advanced Finite Elements Analysis
Link Advanced Finite Elements Analysis Lecture 24 - Advanced Finite Elements Analysis
Link Advanced Finite Elements Analysis Lecture 25 - Advanced Finite Elements Analysis
Link Advanced Finite Elements Analysis Lecture 26 - Advanced Finite Elements Analysis
Link Advanced Finite Elements Analysis Lecture 27 - Advanced Finite Elements Analysis
Link Advanced Finite Elements Analysis Lecture 28 - Advanced Finite Elements Analysis
Link Advanced Finite Elements Analysis Lecture 29 - Advanced Finite Elements Analysis
Link Advanced Finite Elements Analysis Lecture 30 - Advanced Finite Elements Analysis
Link Advanced Operations Research Lecture 1 - Introduction and Linear Programming
Link Advanced Operations Research Lecture 2 - Revised Simplex Algorithm
Link Advanced Operations Research Lecture 3 - Simplex Method for Bounded Variables
Link Advanced Operations Research Lecture 4 - One Dimensional Cutting Stock Problem
Link Advanced Operations Research Lecture 5 - One Dimensional Cutting Stock Problem (Continued.)
Link Advanced Operations Research Lecture 6 - Dantzig-Wolfe Decomposition Algorithm
Link Advanced Operations Research Lecture 7 - Dantzig-Wolfe Decomposition Algorithm Primal-Dual Algorithm
Link Advanced Operations Research Lecture 8 - Primal-Dual Algorithm
Link Advanced Operations Research Lecture 9 - Goal Programming-Formulations
Link Advanced Operations Research Lecture 10 - Goal Programming Solutions Complexity of Simplex Algorithm
Link Advanced Operations Research Lecture 11 - Complexity of Simplex Algorithm (Continued.) Integer Programming
Link Advanced Operations Research Lecture 12 - Integer Programming-Formulations
Link Advanced Operations Research Lecture 13 - Solving Zero-One Problems
Link Advanced Operations Research Lecture 14 - Solving Zero-One Problems (Continued.)
Link Advanced Operations Research Lecture 15 - Branch And Bond Algorithm For Integer Programming
Link Advanced Operations Research Lecture 16 - Cutting Plane Algorithm
Link Advanced Operations Research Lecture 17 - All Integer Primal Algorithm
Link Advanced Operations Research Lecture 18 - All Integer Dual Algorithm
Link Advanced Operations Research Lecture 19 - Network Models
Link Advanced Operations Research Lecture 20 - Shortest Path Problem
Link Advanced Operations Research Lecture 21 - Successive Shortest Path Problem
Link Advanced Operations Research Lecture 22 - Maximum Flow Problem
Link Advanced Operations Research Lecture 23 - Minimum Cost Flow Problem
Link Advanced Operations Research Lecture 24 - Traveling Salesman Problem (TSP)
Link Advanced Operations Research Lecture 25 - Branch and Bound Algorithms for TSP
Link Advanced Operations Research Lecture 26 - Heuristics for TSP
Link Advanced Operations Research Lecture 27 - Heuristics for TSP (Continued.)
Link Advanced Operations Research Lecture 28 - Chinese Postman Problem
Link Advanced Operations Research Lecture 29 - Vehicle Routeing Problem
Link Advanced Operations Research Lecture 30 - Queueing Models
Link Advanced Operations Research Lecture 31 - Single Server Queueing Models
Link Advanced Operations Research Lecture 32 - Multiple Server Queueing Models
Link Advanced Operations Research Lecture 33 - Game Theory
Link Advanced Operations Research Lecture 34 - Critical Path Method
Link Advanced Operations Research Lecture 35 - Quadratic Programming
Link Advanced Operations Research Lecture 36 - Integer Programming (Continued.)
Link Advanced Operations Research Lecture 37 - All Integer Dual Algorithm
Link Advanced Operations Research Lecture 38 - Mixed Integer Linear Programming
Link Advanced Operations Research Lecture 39 - Benders Partitioning Algorithm
Link Fundamentals of Operations Research Lecture 1 - Introduction to Linear Programming Formulations
Link Fundamentals of Operations Research Lecture 2 - Linear Programming Formulations (Continued...)
Link Fundamentals of Operations Research Lecture 3 - Linear Programming Solutions- Graphical Methods
Link Fundamentals of Operations Research Lecture 4 - Linear Programming Solutions - Simplex Algorithm
Link Fundamentals of Operations Research Lecture 5 - Simplex Algorithm-Minimization Problems
Link Fundamentals of Operations Research Lecture 6 - Simplex Algorithm - Initialization and Iteration
Link Fundamentals of Operations Research Lecture 7 - Simplex Algorithm - Termination
Link Fundamentals of Operations Research Lecture 8 - Introduction to Duality
Link Fundamentals of Operations Research Lecture 9 - Primal Dual Relationships, Duality Theorems
Link Fundamentals of Operations Research Lecture 10 - Dual Variables and the Simplex Tables
Link Fundamentals of Operations Research Lecture 11 - Simplex Algorithm in Matrix Form Introduction to Sensitivity Analysis
Link Fundamentals of Operations Research Lecture 12 - Sensitivity Analysis Transportation Problem (Introduction)
Link Fundamentals of Operations Research Lecture 13 - Transportation Problem, Methods for Initial Basic Feasible Solutions
Link Fundamentals of Operations Research Lecture 14 - Transportation Problem-Optimal Solutions
Link Fundamentals of Operations Research Lecture 15 - Transportation Problem - Other Issues
Link Fundamentals of Operations Research Lecture 16 - Assignment Problem - Hungarian Algorithm
Link Fundamentals of Operations Research Lecture 17 - Assignment Problem - Other Issues Introduction to Dynamic Programming
Link Fundamentals of Operations Research Lecture 18 - Dynamic Programming - Examples Involving Discrete Variables
Link Fundamentals of Operations Research Lecture 19 - Dynamic Programming - Continuous Variables
Link Fundamentals of Operations Research Lecture 20 - Dynamic Programming - Examples to Solve Linear & Integer Programming Problems
Link Fundamentals of Operations Research Lecture 21 - Inventory Models - Deterministic Models
Link Fundamentals of Operations Research Lecture 22 - Inventory Models - Discount Models, Constrained Inventory Problems, Lagrangean Multipliers, Conclusions
Link Introduction to Finite Element Method Lecture 1 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 2 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 3 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 4 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 5 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 6 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 7 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 8 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 9 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 10 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 11 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 12 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 13 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 14 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 15 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 16 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 17 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 18 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 19 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 20 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 21 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 22 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 23 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 24 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 25 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 26 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 27 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 28 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 29 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 30 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 31 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 32 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 33 - Introduction to Finite Element Method
Link Mechanical Measurements and Metrology Lecture 1 - Introduction to the Study of Mechanical Measurement
Link Mechanical Measurements and Metrology Lecture 2 - Errors in Measurement
Link Mechanical Measurements and Metrology Lecture 3 - Errors in Measurement (Continued...)
Link Mechanical Measurements and Metrology Lecture 4 - Propagation of Errors
Link Mechanical Measurements and Metrology Lecture 5 - Regression Analysis
Link Mechanical Measurements and Metrology Lecture 6 - Regression Analysis (Continued...)
Link Mechanical Measurements and Metrology Lecture 7 - Design of Experiments
Link Mechanical Measurements and Metrology Lecture 8 - Design of Experiments (Continued...)
Link Mechanical Measurements and Metrology Lecture 9 - Temperature Measurement
Link Mechanical Measurements and Metrology Lecture 10 - Overview of Thermometry
Link Mechanical Measurements and Metrology Lecture 11 - Thermoelectric Thermometry
Link Mechanical Measurements and Metrology Lecture 12 - Thermoelectric Thermometry (Continued...)
Link Mechanical Measurements and Metrology Lecture 13 - Measurement of Temperature Under Various Conditions
Link Mechanical Measurements and Metrology Lecture 14 - Errors in Temperature Measurement
Link Mechanical Measurements and Metrology Lecture 15 - Measurement of Transient Temperature and Resistance Thermometry
Link Mechanical Measurements and Metrology Lecture 16 - Resistance Thermometry (Continued...)
Link Mechanical Measurements and Metrology Lecture 17 - Resistance Thermometry (Continued...) and pyrometry
Link Mechanical Measurements and Metrology Lecture 18 - pyrometry (Continued...)
Link Mechanical Measurements and Metrology Lecture 19 - pyrometry (Continued...)
Link Mechanical Measurements and Metrology Lecture 20 - Pressure Measurement (Continued...)
Link Mechanical Measurements and Metrology Lecture 21 - Pressure Measurement (Continued...)
Link Mechanical Measurements and Metrology Lecture 22 - Pressure Measurement (Continued...)
Link Mechanical Measurements and Metrology Lecture 23 - Pressure Measurement (Continued...)
Link Mechanical Measurements and Metrology Lecture 24 - Transient Response of Pressure Transducers
Link Mechanical Measurements and Metrology Lecture 25 - Transient Response of Pressure Transducers
Link Mechanical Measurements and Metrology Lecture 26 - Measurement of High Vacuum
Link Mechanical Measurements and Metrology Lecture 27 - Measurement of Fluid Velocity
Link Mechanical Measurements and Metrology Lecture 28 - Hot Wire Anemometry and Laser Doppler Velocimetry
Link Mechanical Measurements and Metrology Lecture 29 - Laser Doppler Velocimetry and Ultrasonic Methods
Link Mechanical Measurements and Metrology Lecture 30 - Measurement of Heat Flux
Link Mechanical Measurements and Metrology Lecture 31 - Measurement of Heat Flux (Continued...)
Link Mechanical Measurements and Metrology Lecture 32 - Transient Method of Heat Flux Measurement
Link Mechanical Measurements and Metrology Lecture 33 - Measurement of Volume and Mass Flow Rate of Fluid
Link Mechanical Measurements and Metrology Lecture 34 - Flow Measuring Devices
Link Mechanical Measurements and Metrology Lecture 35 - Measurement of Stagnation and Bulk Mean Temperature
Link Mechanical Measurements and Metrology Lecture 36 - Measurement of Thermo-Physical Properties
Link Mechanical Measurements and Metrology Lecture 37 - Measurement of Thermal Conductivity
Link Mechanical Measurements and Metrology Lecture 38 - Measurement of Heat Capacity and Heating Value
Link Mechanical Measurements and Metrology Lecture 39 - Measurement of Viscosity
Link Mechanical Measurements and Metrology Lecture 40 - Measurement of Viscosity (Continued...)
Link Mechanical Measurements and Metrology Lecture 41 - Integrating Sphere and Measurement of Emissivity
Link Mechanical Measurements and Metrology Lecture 42 - Measurements of Gas Composition
Link Mechanical Measurements and Metrology Lecture 43 - Measurements of Gas Composition (Continued...)
Link Mechanical Measurements and Metrology Lecture 44 - Measurements of Gas Composition and Smoke
Link Mechanical Measurements and Metrology Lecture 45 - Measurement of Force
Link Mechanical Measurements and Metrology Lecture 46 - Force Measurement
Link Mechanical Measurements and Metrology Lecture 47 - Vibration and Acceleration Measurement
Link Mechanical Measurements and Metrology Lecture 48 - Laser Doppler Accelerometer,Speed,Torque
Link Mechanical Measurements and Metrology Lecture 49 - General Issues in Mechanical Measurement
Link Mechanical Measurements and Metrology Lecture 50 - Case Studies
Link Principles of Mechanical Measurements Lecture 1 - Principles Of Mechanical Measurements
Link Principles of Mechanical Measurements Lecture 2 - Principles Of Mechanical Measurements
Link Principles of Mechanical Measurements Lecture 3 - Principles Of Mechanical Measurements
Link Principles of Mechanical Measurements Lecture 4 - Principles Of Mechanical Measurements
Link Principles of Mechanical Measurements Lecture 5 - Principles Of Mechanical Measurements
Link Principles of Mechanical Measurements Lecture 6 - Principles Of Mechanical Measurements
Link Principles of Mechanical Measurements Lecture 7 - Principles Of Mechanical Measurements
Link Principles of Mechanical Measurements Lecture 8 - Principles Of Mechanical Measurements
Link Principles of Mechanical Measurements Lecture 9 - Principles Of Mechanical Measurements
Link Principles of Mechanical Measurements Lecture 10 - Principles of Mechanical Measurements
Link Principles of Mechanical Measurements Lecture 11 - Principles Of Mechanical Measurements
Link Principles of Mechanical Measurements Lecture 12 - Principles Of Mechanical Measurements
Link Principles of Mechanical Measurements Lecture 13 - Principles Of Mechanical Measurements
Link Principles of Mechanical Measurements Lecture 14 - Principles Of Mechanical Measurements
Link Principles of Mechanical Measurements Lecture 15 - Principles Of Mechanical Measurements
Link Principles of Mechanical Measurements Lecture 16 - Principles Of Mechanical Measurements
Link Principles of Mechanical Measurements Lecture 17 - Principles Of Mechanical Measurements
Link Principles of Mechanical Measurements Lecture 18 - Principles Of Mechanical Measurements
Link Principles of Mechanical Measurements Lecture 19 - Principles Of Mechanical Measurements
Link Principles of Mechanical Measurements Lecture 20 - Principles Of Mechanical Measurements
Link Principles of Mechanical Measurements Lecture 21 - Principles Of Mechanical Measurements
Link Principles of Mechanical Measurements Lecture 22 - Principles Of Mechanical Measurements
Link Principles of Mechanical Measurements Lecture 23 - Principles Of Mechanical Measurements
Link Principles of Mechanical Measurements Lecture 24 - Principles Of Mechanical Measurements
Link Principles of Mechanical Measurements Lecture 25 - Principles Of Mechanical Measurements
Link Principles of Mechanical Measurements Lecture 26 - Principles Of Mechanical Measurements
Link Spray Theory and Applications Lecture 1 - Introduction to sprays and their applications
Link Spray Theory and Applications Lecture 2 - Spatial versus Temporal Sampling
Link Spray Theory and Applications Lecture 3 - Spatial Vs Temporal Sampling example problem
Link Spray Theory and Applications Lecture 4 - Steady vs unsteady spray
Link Spray Theory and Applications Lecture 5 - Statistical measures on spray
Link Spray Theory and Applications Lecture 6 - Discussion on pdf and moments
Link Spray Theory and Applications Lecture 7 - Size velocity correlation
Link Spray Theory and Applications Lecture 8 - Discussion on Interfacial tension
Link Spray Theory and Applications Lecture 9 - Introduction to Atomizers and their design - 1
Link Spray Theory and Applications Lecture 10 - Introduction to Atomizers and their design - 2
Link Spray Theory and Applications Lecture 11 - Simple measurement techniques
Link Spray Theory and Applications Lecture 12 - Selection of atomizers
Link Spray Theory and Applications Lecture 13 - Spray measurement characteristics
Link Spray Theory and Applications Lecture 14 - Spray measurements techniques
Link Spray Theory and Applications Lecture 15 - Non-intrusive spray measurements techniques
Link Spray Theory and Applications Lecture 16 - Non-intrusive spray measurements techniques
Link Spray Theory and Applications Lecture 17 - Linear stability analysis – Introduction
Link Spray Theory and Applications Lecture 18 - Linear stability analysis- Kelvin-Helmhotz instability - 1
Link Spray Theory and Applications Lecture 19 - Linear stability analysis- Kelvin-Helmhotz instability - 2
Link Spray Theory and Applications Lecture 20 - Linear stability analysis- Kelvin-Helmhotz instability - 3
Link Spray Theory and Applications Lecture 21 - Linear stability analysis procedure
Link Spray Theory and Applications Lecture 22 - Linear stability analysis - Cylindrial jet instability - 1
Link Spray Theory and Applications Lecture 23 - Linear stability analysis - Cylindrial jet instability - 2
Link Spray Theory and Applications Lecture 24 - Linear stability analysis - Planar Liquid Sheet instability - 1
Link Spray Theory and Applications Lecture 25 - Linear stability analysis - Planar Liquid Sheet instability - 2
Link Spray Theory and Applications Lecture 26 - Design of pressure swirl atomizer - 1
Link Spray Theory and Applications Lecture 27 - Design of pressure swirl atomizer - 2
Link Spray Theory and Applications Lecture 28 - Design of pressure swirl atomizer - 3
Link Spray Theory and Applications Lecture 29 - Design of pressure swirl atomizer - 4
Link Spray Theory and Applications Lecture 30 - Secondary atomization-Dimensionless parameters
Link Spray Theory and Applications Lecture 31 - Secondary atomization-Modes of breakup - 1
Link Spray Theory and Applications Lecture 32 - Secondary atomization-Modes of breakup - 2
Link Spray Theory and Applications Lecture 33 - Multiphase modelling
Link Spray Theory and Applications Lecture 34 - Multiphase modelling
Link Spray Theory and Applications Lecture 35 - Multiphase flow modelling basics
Link Spray Theory and Applications Lecture 36 - Multiphase modelling – Selection of model - 1
Link Spray Theory and Applications Lecture 37 - Multiphase modelling – Selection of model - 2
Link Spray Theory and Applications Lecture 38 - Multiphase modelling - Governing equations
Link Spray Theory and Applications Lecture 39 - Droplet evaporation
Link Spray Theory and Applications Lecture 40 - Droplet combustion
Link Spray Theory and Applications Lecture 41 - Spray combustion
Link Conduction And Radiation Lecture 1 - Importance of Thermal Radiation
Link Conduction And Radiation Lecture 2 - Blackbody definition
Link Conduction And Radiation Lecture 3 - Solid angle, spectral radiation intensity
Link Conduction And Radiation Lecture 4 - Radiation pressure and radiation energy density
Link Conduction And Radiation Lecture 5 - Relationship between “I” and “T” and Candidate blackbody distribution functions
Link Conduction And Radiation Lecture 6 - Candidate blackbody distribution functions (Continued...)
Link Conduction And Radiation Lecture 7 - Planck's blackbody radiation distribution function
Link Conduction And Radiation Lecture 8 - Planck's distribution and Wien's displacement law
Link Conduction And Radiation Lecture 9 - Universal blackbody function
Link Conduction And Radiation Lecture 10 - Emissivity
Link Conduction And Radiation Lecture 11 - Emissivity (Continued...)
Link Conduction And Radiation Lecture 12 - Emissivity (Continued...)
Link Conduction And Radiation Lecture 13 - Kirchoff law, Absorptivity
Link Conduction And Radiation Lecture 14 - Kirchoff law, Absorptivity (Continued...)
Link Conduction And Radiation Lecture 15 - Problems on emissivity, absorptivity
Link Conduction And Radiation Lecture 16 - Reflectivity
Link Conduction And Radiation Lecture 17 - Transmissivity
Link Conduction And Radiation Lecture 18 - Problems on reflectivity and transmissivity
Link Conduction And Radiation Lecture 19 - Radiation heat transfer between surfaces
Link Conduction And Radiation Lecture 20 - View factor
Link Conduction And Radiation Lecture 21 - View factor (Continued...)
Link Conduction And Radiation Lecture 22 - View factor (Continued...)
Link Conduction And Radiation Lecture 23 - Enclosure analysis
Link Conduction And Radiation Lecture 24 - Enclosure analysis (Continued...)
Link Conduction And Radiation Lecture 25 - Enclosure analysis - Gray surface
Link Conduction And Radiation Lecture 26 - Enclosure analysis - Non gray surfaces
Link Conduction And Radiation Lecture 27 - Radiation in participating media
Link Conduction And Radiation Lecture 28 - Solution to the RTE
Link Conduction And Radiation Lecture 29 - Concept of mean beam length
Link Conduction And Radiation Lecture 30 - Enclosure analysis in the presence of absorbing / emitting gas
Link Conduction And Radiation Lecture 31 - Emissivities and absorptivities of Gas mixtures
Link Conduction And Radiation Lecture 32 - Conduction - Introduction
Link Conduction And Radiation Lecture 33 - Conduction - Energy equation
Link Conduction And Radiation Lecture 34 - Conduction - 1D, steady state
Link Conduction And Radiation Lecture 35 - Conduction - 1D, heat generation
Link Conduction And Radiation Lecture 36 - Fin heat transfer - I
Link Conduction And Radiation Lecture 37 - Fin heat transfer - II
Link Conduction And Radiation Lecture 38 - Conduction - Cylindrical and Spherical geometries
Link Conduction And Radiation Lecture 39 - Transient conduction
Link Conduction And Radiation Lecture 40 - Transient conduction (Continued...)
Link Conduction And Radiation Lecture 41 - Two dimensional steady state conduction
Link Conduction And Radiation Lecture 42 - Analytical solution for Laplace equation
Link Conduction And Radiation Lecture 43 - Numerical methods in conduction
Link Conduction And Radiation Lecture 44 - Numerical methods in conduction (Continued...)
Link Conduction And Radiation Lecture 45 - Conduction with change of phase
Link Conduction And Radiation Lecture 46 - Conduction with change of phase (Continued...)
Link Gas Dynamics and Propulsion Lecture 1 - Introduction
Link Gas Dynamics and Propulsion Lecture 2 - Introduction / Fundamental Ideas
Link Gas Dynamics and Propulsion Lecture 3 - Fundamental Ideas
Link Gas Dynamics and Propulsion Lecture 4 - Fundamental Ideas
Link Gas Dynamics and Propulsion Lecture 5 - Fundamental Ideas / Normal Shock Waves
Link Gas Dynamics and Propulsion Lecture 6 - Normal Shock Waves
Link Gas Dynamics and Propulsion Lecture 7 - Normal Shock Waves / Rayleigh Flow
Link Gas Dynamics and Propulsion Lecture 8 - Rayleigh Flow
Link Gas Dynamics and Propulsion Lecture 9 - Rayleigh Flow
Link Gas Dynamics and Propulsion Lecture 10 - Rayleigh Flow / Fanno Flow
Link Gas Dynamics and Propulsion Lecture 11 - Fanno Flow
Link Gas Dynamics and Propulsion Lecture 12 - Fanno Flow
Link Gas Dynamics and Propulsion Lecture 13 - Fanno Flow / Quasi One Dimensional Flows
Link Gas Dynamics and Propulsion Lecture 14 - Quasi One Dimensional Flows
Link Gas Dynamics and Propulsion Lecture 15 - Quasi One Dimensional Flows
Link Gas Dynamics and Propulsion Lecture 16 - Quasi One Dimensional Flows
Link Gas Dynamics and Propulsion Lecture 17 - Quasi One Dimensional Flows
Link Gas Dynamics and Propulsion Lecture 18 - Quasi One Dimensional Flows
Link Gas Dynamics and Propulsion Lecture 19 - Quasi One Dimensional Flows
Link Gas Dynamics and Propulsion Lecture 20 - Oblique Shock Waves
Link Gas Dynamics and Propulsion Lecture 21 - Oblique Shock Waves
Link Gas Dynamics and Propulsion Lecture 22 - Oblique Shock Waves
Link Gas Dynamics and Propulsion Lecture 23 - Oblique Shock Waves / Prandtl Meyer Waves
Link Gas Dynamics and Propulsion Lecture 24 - Prandtl Meyer Waves
Link Gas Dynamics and Propulsion Lecture 25 - Prandtl Meyer Waves
Link Gas Dynamics and Propulsion Lecture 26 - Propulsion - an Introduction
Link Gas Dynamics and Propulsion Lecture 27 - Components of the Gas Turbine Engine
Link Gas Dynamics and Propulsion Lecture 28 - Components of the Gas Turbine Engine
Link Gas Dynamics and Propulsion Lecture 29 - Components of the Gas Turbine Engine
Link Gas Dynamics and Propulsion Lecture 30 - Components of the Gas Turbine Engine
Link Gas Dynamics and Propulsion Lecture 31 - Components of the Gas Turbine Engine / Thermodynamic Analysis of the Engine
Link Gas Dynamics and Propulsion Lecture 32 - Thermodynamic Analysis of the Engine
Link Gas Dynamics and Propulsion Lecture 33 - Thermodynamic Analysis of the Engine
Link Gas Dynamics and Propulsion Lecture 34 - Calculations for Thrust and Fuel Consumption
Link Gas Dynamics and Propulsion Lecture 35 - Calculations for Thrust and Fuel Consumption
Link Gas Dynamics and Propulsion Lecture 36 - Calculations for Thrust and Fuel Consumption / Emerging Trends
Link Gas Dynamics and Propulsion Lecture 37 - Emerging Trends / Ramjets
Link Gas Dynamics and Propulsion Lecture 38 - Ramjets
Link Gas Dynamics and Propulsion Lecture 39 - Ramjets / Scramjets
Link Gas Dynamics and Propulsion Lecture 40 - Scramjets
Link Microfluidics Lecture 1 - Introduction and Scaling
Link Microfluidics Lecture 2 - Scaling
Link Microfluidics Lecture 3 - Micro-scale fluid mechanics
Link Microfluidics Lecture 4 - Micro-scale fluid mechanics (Continued...)
Link Microfluidics Lecture 5 - Micro-scale fluid mechanics (Continued...)
Link Microfluidics Lecture 6 - Micro-scale fluid mechanics (Continued...)
Link Microfluidics Lecture 7 - Micro-scale fluid mechanics (Continued...)
Link Microfluidics Lecture 8 - Micro-scale fluid mechanics (Continued...)
Link Microfluidics Lecture 9 - Micro-scale fluid mechanics (Continued...)
Link Microfluidics Lecture 10 - Micro-scale fluid mechanics (Continued...)
Link Microfluidics Lecture 11 - Capillary Flows
Link Microfluidics Lecture 12 - Capillary Flows (Continued...)
Link Microfluidics Lecture 13 - Capillary Flows and Electrokinetics
Link Microfluidics Lecture 14 - Electrokinetics
Link Microfluidics Lecture 15 - Electrokinetics (Continued...)
Link Microfluidics Lecture 16 - Electrokinetics (Continued...)
Link Microfluidics Lecture 17 - Electrokinetics (Continued...)
Link Microfluidics Lecture 18 - Electrokinetics (Continued...)
Link Microfluidics Lecture 19 - Electrokinetics (Continued...)
Link Microfluidics Lecture 20 - Electrokinetics and Magnetophoresis
Link Microfluidics Lecture 21 - Microfabrication Techniques
Link Microfluidics Lecture 22 - Microfabrication Techniques (Continued...)
Link Microfluidics Lecture 23 - Microfabrication Techniques (Continued...)
Link Microfluidics Lecture 24 - Microfabrication Techniques (Continued...)
Link Microfluidics Lecture 25 - Microfabrication Techniques (Continued...)
Link Microfluidics Lecture 26 - Microfabrication Techniques (Continued...)
Link Microfluidics Lecture 27 - Microfabrication Techniques (Continued...)
Link Microfluidics Lecture 28 - Microfabrication Techniques (Continued...)
Link Microfluidics Lecture 29 - Micropump
Link Microfluidics Lecture 30 - Micropump (Continued...)
Link Microfluidics Lecture 31 - Microvalve
Link Microfluidics Lecture 32 - Microvalve (Continued...)
Link Microfluidics Lecture 33 - Microvalve (Continued...)
Link Microfluidics Lecture 34 - Micro Flow Sensor and Micro mixers
Link Microfluidics Lecture 35 - Micro mixers
Link Microfluidics Lecture 36 - Micro mixers (Continued...)
Link Microfluidics Lecture 37 - Micro droplets
Link Microfluidics Lecture 38 - Micro reactors (Continued...)
Link Microfluidics Lecture 39 - Micro needles and Microparticle separation
Link Microfluidics Lecture 40 - Few applications of microfluidics
Link Microfluidics Lecture 41 - Lab Demo
Link Convective Heat Transfer Lecture 1 - Introduction to convective heat transfer - Part 1
Link Convective Heat Transfer Lecture 2 - Introduction to convective heat transfer - Part 2
Link Convective Heat Transfer Lecture 3 - Continuity Equation
Link Convective Heat Transfer Lecture 4 - Momentum and Energy Equations
Link Convective Heat Transfer Lecture 5 - Energy Equation
Link Convective Heat Transfer Lecture 6 - Reynolds Transport Theorem
Link Convective Heat Transfer Lecture 7 - Entrophy Generation and streamfunction-vorticity formulation
Link Convective Heat Transfer Lecture 8 - Couette flow - Part 1
Link Convective Heat Transfer Lecture 9 - Couette flow - Part 2
Link Convective Heat Transfer Lecture 10 - Couette flow - Part 3
Link Convective Heat Transfer Lecture 11 - Boundary layer approximation
Link Convective Heat Transfer Lecture 12 - Laminar External flow past flat plate (Blasius Similarity Solution)
Link Convective Heat Transfer Lecture 13 - Numerical solution to the Blasius equation and similarity solution to heat transfer
Link Convective Heat Transfer Lecture 14 - Pohlhausen similarity solution and flows including pressure gradient (Falkner-Skan)
Link Convective Heat Transfer Lecture 15 - Falkner skan solutions for heat transfer
Link Convective Heat Transfer Lecture 16 - Similarity solution for flow and heat transfer with transpiration at walls
Link Convective Heat Transfer Lecture 17 - Thermal boundary layer in high speed flows
Link Convective Heat Transfer Lecture 18 - Approximate(Integral) methods for laminar external flow and heat transfer
Link Convective Heat Transfer Lecture 19 - Integral method for laminar external thermal boundary layer over isothermal surface
Link Convective Heat Transfer Lecture 20 - Integral method for flows with pressure gradient (von Karman-Pohlhausen method)
Link Convective Heat Transfer Lecture 21 - Integral method with pressure gradient: heat transfer
Link Convective Heat Transfer Lecture 22 - Heat transfer across a circular cylinder: Walz approximation
Link Convective Heat Transfer Lecture 23 - Duhamel's method for varying surface temperature
Link Convective Heat Transfer Lecture 24 - Laminar External heat transfer with non uniform surface temperature
Link Convective Heat Transfer Lecture 25 - Laminar internal forced convection - fundamentals
Link Convective Heat Transfer Lecture 26 - Hydrodynamically and thermally fully developed internal laminar flows
Link Convective Heat Transfer Lecture 27 - Fully developed laminar internal flow and heat transfer
Link Convective Heat Transfer Lecture 28 - Shooting method for fully developed heat transfer and thermal entry length problem
Link Convective Heat Transfer Lecture 29 - Thermal entry length problem with plug velocity profile: Graetz problem
Link Convective Heat Transfer Lecture 30 - Extended Graetz problem for parabolic velocity profile
Link Convective Heat Transfer Lecture 31 - Extended Graetz problem
Link Convective Heat Transfer Lecture 32 - Extended Graetz problem with wall flux boundary condition
Link Convective Heat Transfer Lecture 33 - Approximate method for laminar internal flows
Link Convective Heat Transfer Lecture 34 - Integral method for thermal entry length problem
Link Convective Heat Transfer Lecture 35 - Introduction to Natural Convection Heat Transfer
Link Convective Heat Transfer Lecture 36 - Similarity Solution in Natural Convection for Vertical isothermal Plate - Part 1
Link Convective Heat Transfer Lecture 37 - Similarity Solution in Natural Convection for Vertical isothermal Plate - Part 2
Link Convective Heat Transfer Lecture 38 - Similarity Solution in Natural Convection for Vertical isoflux Plate
Link Convective Heat Transfer Lecture 39 - Approximate Method in Natural Convection Heat Transfer
Link Convective Heat Transfer Lecture 40 - Natural Convection in Other Configurations
Link Convective Heat Transfer Lecture 41 - Turbulent Convective Heat Transfer : RANS Equations - Part 1
Link Convective Heat Transfer Lecture 42 - Turbulent Convective Heat Transfer : RANS Equations - Part 2
Link Convective Heat Transfer Lecture 43 - Analogies in Turbulent Convective Heat Transfer - Part 1
Link Convective Heat Transfer Lecture 44 - Analogies in Turbulent Convective Heat Transfer - Part 2
Link Introduction to Explosions and Explosion Safety Lecture 1 - Loud Bang and Disruption
Link Introduction to Explosions and Explosion Safety Lecture 2 - Blast Wave in an Explosion: Predictions from Dimensional Considerations
Link Introduction to Explosions and Explosion Safety Lecture 3 - Typical Examples of Explosions and Classification
Link Introduction to Explosions and Explosion Safety Lecture 4 - Shock Hugoniot and Rayleigh Line
Link Introduction to Explosions and Explosion Safety Lecture 5 - Properties behind a Constant Velocity Shock
Link Introduction to Explosions and Explosion Safety Lecture 6 - Blast waves:Concentration of Mass at the Front,Snow Plow Approximation,Energy conservation ina Blast wave
Link Introduction to Explosions and Explosion Safety Lecture 7 - Blast waves: Decay of a strong Blast wave,Explosion Length, Sach's Scaling,Over pressure,Cranz Hopkinson Scaling law of Overpressure
Link Introduction to Explosions and Explosion Safety Lecture 8 - Blast Waves: Overpressure and Impulse in the Near and Far Field, Examples,Introduction to Impulse
Link Introduction to Explosions and Explosion Safety Lecture 9 - Blast Waves: Non-dimensional Impulse, Cranz -Hopkinson Scaling, Missiles, Fragments and Shrapnel, Craters, Examples
Link Introduction to Explosions and Explosion Safety Lecture 10 - Blast Waves: Interaction with Objects, Reflection and Transmission of Blast Waves, Impedance
Link Introduction to Explosions and Explosion Safety Lecture 11 - Blast Waves: Amplification of Reflected Blast Waves; Role of Impedance, Spalling, Damage to Organs containing Air, Mushroom Cloud in an Explosion, Examples
Link Introduction to Explosions and Explosion Safety Lecture 12 - Blast Waves: Damage from Blast Waves, Examples, Multiple Spikes in an Impulse, Iso-damage Curve on an Overpressure- Impulse Diagram, Complex Structures
Link Introduction to Explosions and Explosion Safety Lecture 13 - Energy Release in a Chemical Reaction: Moles, Internal Chemical Energy, Standard Heats of Formation
Link Introduction to Explosions and Explosion Safety Lecture 14 - Energy Release: Stoichiometry, Equivalence Ratio and Heat Release in Fuel Rich and Oxidizer Rich Compounds
Link Introduction to Explosions and Explosion Safety Lecture 15 - Energy Release: Examples of Energy Release Calculations, Higher and Lower Calorific Values, Internal Energy of Formation
Link Introduction to Explosions and Explosion Safety Lecture 16 - Rate of Energy Release: Concentration, Activation Energy, Energy Release Profile
Link Introduction to Explosions and Explosion Safety Lecture 17 - Thermal Theory of Explosion
Link Introduction to Explosions and Explosion Safety Lecture 18 - Thermal Theory
Link Introduction to Explosions and Explosion Safety Lecture 19 - Role of Chain Carriers in an Explosion
Link Introduction to Explosions and Explosion Safety Lecture 20 - Combustion - I
Link Introduction to Explosions and Explosion Safety Lecture 21 - Combustion - II
Link Introduction to Explosions and Explosion Safety Lecture 22 - Case Histories of Explosions involving Volatile Liquids
Link Introduction to Explosions and Explosion Safety Lecture 23 - Detonation
Link Introduction to Explosions and Explosion Safety Lecture 24 - Structure of Detonations
Link Introduction to Explosions and Explosion Safety Lecture 25 - Realizable States in a Detonation
Link Introduction to Explosions and Explosion Safety Lecture 26 - One Dimensional Model of Detonation
Link Introduction to Explosions and Explosion Safety Lecture 27 - Case Histories of Explosions involving Detonation or Quasi-Detonation
Link Introduction to Explosions and Explosion Safety Lecture 28 - Explosions in Confined and Unconfined Geometries
Link Introduction to Explosions and Explosion Safety Lecture 29 - Dust Explosions - I
Link Introduction to Explosions and Explosion Safety Lecture 30 - Dust Explosions - II
Link Introduction to Explosions and Explosion Safety Lecture 31 - Physical Explosions
Link Introduction to Explosions and Explosion Safety Lecture 32 - Rupture of Cryogenic Storage Vessels and Pressure Vessels
Link Introduction to Explosions and Explosion Safety Lecture 33 - Condensed Phased Explosives Based on Hydrocarbons
Link Introduction to Explosions and Explosion Safety Lecture 34 - Condensed Phase Explosives and their Properties
Link Introduction to Explosions and Explosion Safety Lecture 35 - TNT Equivalence and Yield of an Explosion
Link Introduction to Explosions and Explosion Safety Lecture 36 - Atmospheric Dispersion
Link Introduction to Explosions and Explosion Safety Lecture 37 - Modeling Atmospheric Dispersion
Link Introduction to Explosions and Explosion Safety Lecture 38 - Explosions Involving Atmospheric Dispersion
Link Introduction to Explosions and Explosion Safety Lecture 39 - Quantification of Damages in an Explosion
Link Introduction to Explosions and Explosion Safety Lecture 40 - Risk Analysis for an Explosion
Link Metrology Lecture 1 - Introduction to Metrology
Link Metrology Lecture 2 - Metrology terminologies
Link Metrology Lecture 3 - Measurement errors
Link Metrology Lecture 4 - Linear measuring instruments – 1 (Angle plate, steel rule, spring calipers)
Link Metrology Lecture 5 - Linear measuring instruments – 2 (Combination set, Vernier calipers)
Link Metrology Lecture 6 - Linear measuring instruments – 3 (Height gauge, Micrometers – 1)
Link Metrology Lecture 7 - Linear measuring instruments – 4 (Micrometers – 2, Bore gauge)
Link Metrology Lecture 8 - Linear measuring instruments – 5 (Dial indicators, thickness gauges, depth gauges)
Link Metrology Lecture 9 - Manufacturing tolerances and fits
Link Metrology Lecture 10 - Terminologies of limits fits and tolerances
Link Metrology Lecture 11 - Numerical problems on fit and tolerances
Link Metrology Lecture 12 - Selection of fits, Geometrical tolerances
Link Metrology Lecture 13 - Positional tolerances
Link Metrology Lecture 14 - Limit gauging - 1
Link Metrology Lecture 15 - Limit gauging - 2
Link Metrology Lecture 16 - Design of limit gauges
Link Metrology Lecture 17 - Measurement of straightness, flatness and squareness
Link Metrology Lecture 18 - Perpendicularity measurement
Link Metrology Lecture 19 - Basics of surface roughness
Link Metrology Lecture 20 - Surface finish parameters
Link Metrology Lecture 21 - Stylus type surface finish measuring instruments
Link Metrology Lecture 22 - Non-contact type surface finish measuring instruments
Link Metrology Lecture 23 - Screw thread production and terminology
Link Metrology Lecture 24 - Measurement of screw thread elements
Link Metrology Lecture 25 - Introduction to gears
Link Metrology Lecture 26 - Measurement of gear elements
Link Metrology Lecture 27 - Angle measurement - 1
Link Metrology Lecture 28 - Angle measurement - 2
Link Metrology Lecture 29 - Radius measurement, Contact angle measurement
Link Metrology Lecture 30 - Basics of interferometry
Link Metrology Lecture 31 - Interferometers
Link Metrology Lecture 32 - Introduction to comparators, Mechanical comparators
Link Metrology Lecture 33 - Electrical and electronic comparators, Optical comparators
Link Metrology Lecture 34 - Pneumatic comparators
Link Metrology Lecture 35 - Geometrical tests on lathe
Link Metrology Lecture 36 - Geometrical tests on pillar type drilling machine
Link Metrology Lecture 37 - Universal measuring machine (UMM) and Coordinate measuring machine (CMM)
Link Metrology Lecture 38 - CMM probes and CMM software
Link Metrology Lecture 39 - Feature measurement using CMM, Laser vision
Link Metrology Lecture 40 - In-process gauging and control
Link Metrology Lecture 41 - Stage position metrology
Link Metrology Lecture 42 - Micro and Nano stages, Nano technology instrumentation
Link Metrology Lecture 43 - Optical system design
Link Metrology Lecture 44 - Complex opto- mechanical assemblies, Metrology testing and certification services
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 1 - Introduction to the course
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 2 - Newton's laws
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 3 - Equilibrium
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 4 - Example 1 - Statics
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 5 - Example 2 - Rigid Body Systems
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 6 - Example 3 - Rigid Body Systems
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 7 - Structural Systems with rigid bodies
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 8 - Types of 1-D Structural Elements
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 9 - Axial members
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 10 - Analysis of the truss system
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 11 - Stability of Structural systems
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 12 - Beams - Example 1
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 13 - Beams - BMD and SFD
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 14 - Beams - Loading, Shear and Bending Moment Relations
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 15 - Static Friction
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 16 - Friction - Solving Problems
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 17 - Particle Kinematics - 1
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 18 - Particle Kinematics - 2 (Example)
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 19 - Particle Kinematics - Curvilinear Coordinates
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 20 - Rigid Body Kinematics
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 21 - Rotational Motion (Example 1)
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 22 - Rotational Motion (Example 2)
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 23 - Dynamics (Introduction)
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 24 - Dynamics - Example 1
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 25 - Dynamics - Example 2
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 26 - Dynamics - Example 3
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 27 - Dynamics - Example 4
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 28 - Center of Percussion - Example
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 29 - Impulse / Momentum - Example 1
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 30 - Impulse / Momentum - Example 2
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 31 - Impulse / Momentum - Example 3
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 32 - Impulse / Momentum - Example 4
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 33 - Work Energy Methods - Example 1
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 34 - Work Energy Methods - Example 2
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 35 - Work Energy Methods - Example 3
Link NOC:Foundation of Computational Fluid Dynamics Week 1 - Module-1
Link NOC:Foundation of Computational Fluid Dynamics Week 1 - Module-2
Link NOC:Foundation of Computational Fluid Dynamics Week 1 - Module-3
Link NOC:Foundation of Computational Fluid Dynamics Week 1 - Module-4
Link NOC:Foundation of Computational Fluid Dynamics Week 1 - Module-5
Link NOC:Foundation of Computational Fluid Dynamics Week 2 - Module-1
Link NOC:Foundation of Computational Fluid Dynamics Week 2 - Module-2
Link NOC:Foundation of Computational Fluid Dynamics Week 2 - Module-3
Link NOC:Foundation of Computational Fluid Dynamics Week 2 - Module-4
Link NOC:Foundation of Computational Fluid Dynamics Week 2 - Module-5
Link NOC:Foundation of Computational Fluid Dynamics Week 3 - Module-1
Link NOC:Foundation of Computational Fluid Dynamics Week 3 - Module-2
Link NOC:Foundation of Computational Fluid Dynamics Week 3 - Module-3
Link NOC:Foundation of Computational Fluid Dynamics Week 3 - Module-4
Link NOC:Foundation of Computational Fluid Dynamics Week 3 - Module-5
Link NOC:Foundation of Computational Fluid Dynamics Week 4 - Module-1
Link NOC:Foundation of Computational Fluid Dynamics Week 4 - Module-2
Link NOC:Foundation of Computational Fluid Dynamics Week 4 - Module-3
Link NOC:Foundation of Computational Fluid Dynamics Week 4 - Module-4
Link NOC:Foundation of Computational Fluid Dynamics Week 4 - Module-5
Link NOC:Foundation of Computational Fluid Dynamics Week 5 - Module-1
Link NOC:Foundation of Computational Fluid Dynamics Week 5 - Module-2
Link NOC:Foundation of Computational Fluid Dynamics Week 5 - Module-3
Link NOC:Foundation of Computational Fluid Dynamics Week 5 - Module-4
Link NOC:Foundation of Computational Fluid Dynamics Week 5 - Module-5
Link NOC:Foundation of Computational Fluid Dynamics Week 5 - Module-6
Link NOC:Foundation of Computational Fluid Dynamics Week 6 - Module-1
Link NOC:Foundation of Computational Fluid Dynamics Week 6 - Module-2 - Part 1
Link NOC:Foundation of Computational Fluid Dynamics Week 6 - Module-2 - Part 2
Link NOC:Foundation of Computational Fluid Dynamics Week 6 - Module-3
Link NOC:Foundation of Computational Fluid Dynamics Week 6 - Module-4
Link NOC:Foundation of Computational Fluid Dynamics Week 6 - Module-5
Link NOC:Foundation of Computational Fluid Dynamics Week 7 - Module-1
Link NOC:Foundation of Computational Fluid Dynamics Week 7 - Module-2
Link NOC:Foundation of Computational Fluid Dynamics Week 7 - Module-3
Link NOC:Foundation of Computational Fluid Dynamics Week 7 - Module-4
Link NOC:Foundation of Computational Fluid Dynamics Week 7 - Module-5
Link NOC:Foundation of Computational Fluid Dynamics Week 8 - Module-1
Link NOC:Foundation of Computational Fluid Dynamics Week 8 - Module-2
Link NOC:Foundation of Computational Fluid Dynamics Week 8 - Module-3
Link NOC:Foundation of Computational Fluid Dynamics Week 8 - Module-4
Link NOC:Foundation of Computational Fluid Dynamics Week 8 - Module-5
Link NOC:Foundation of Computational Fluid Dynamics Week 8 - Module-6
Link NOC:Foundation of Computational Fluid Dynamics Conclusion
Link NOC:Introduction to Boundary Layers Lecture 1 - Review of fundamentals of fluid mechanics - I
Link NOC:Introduction to Boundary Layers Lecture 2 - Review of fundamentals of fluid mechanics - II
Link NOC:Introduction to Boundary Layers Lecture 3 - Concept of a Boundary Layer (BL) - I
Link NOC:Introduction to Boundary Layers Lecture 4 - Concept of a Boundary Layer (BL) - II
Link NOC:Introduction to Boundary Layers Lecture 5 - Concepts of BL thickness (?)
Link NOC:Introduction to Boundary Layers Lecture 6 - Concepts of BL displacement thickness (?*) and BL momentum thickness (?)
Link NOC:Introduction to Boundary Layers Lecture 7 - Control Volume approach to derive expressions for ?* over a flat plate
Link NOC:Introduction to Boundary Layers Lecture 8 - Control Volume approach to derive expressions for ? over a flat plate
Link NOC:Introduction to Boundary Layers Lecture 9 - Concept of wall friction
Link NOC:Introduction to Boundary Layers Lecture 10 - Concept of friction drag
Link NOC:Introduction to Boundary Layers Lecture 11 - Skin Friction Coefficient - I
Link NOC:Introduction to Boundary Layers Lecture 12 - Skin Friction Coefficient - II
Link NOC:Introduction to Boundary Layers Lecture 13 - Derivation of Prandtls Laminar BL Equations - I
Link NOC:Introduction to Boundary Layers Lecture 14 - Derivation of Prandtls Laminar BL Equations - II
Link NOC:Introduction to Boundary Layers Lecture 15 - Derivation of Prandtls Laminar BL Equations - III
Link NOC:Introduction to Boundary Layers Lecture 16 - Derivation of Prandtls Laminar BL Equations - IV
Link NOC:Introduction to Boundary Layers Lecture 17 - Similarity Solutions to the BL Equations Applied to a Flat Plate - I
Link NOC:Introduction to Boundary Layers Lecture 18 - Similarity Solutions to the BL Equations Applied to a Flat Plate - II
Link NOC:Introduction to Boundary Layers Lecture 19 - Similarity Solutions to the BL Equations Applied to a Flat Plate - III
Link NOC:Introduction to Boundary Layers Lecture 20 - Runge-Kutta Method to Numerically Solve the BL Equations Applied to a Flat Plate
Link NOC:Introduction to Boundary Layers Lecture 21 - Description of the Numerical Code to Solve the BL Equations Applied to a Flat Plate
Link NOC:Introduction to Boundary Layers Lecture 22 - Similarity Solutions to the BL Equations (other than flat plate) - I
Link NOC:Introduction to Boundary Layers Lecture 23 - Similarity Solutions to the BL Equations (other than flat plate) - II
Link NOC:Introduction to Boundary Layers Lecture 24 - Similarity Solutions to the BL Equations (other than flat plate) - III
Link NOC:Introduction to Boundary Layers Lecture 25 - Similarity Solutions to the BL Equations (other than flat plate) - IV
Link NOC:Introduction to Boundary Layers Lecture 26 - Description of the Numerical Code to Solve the BL Equations (other than flat plate)
Link NOC:Introduction to Boundary Layers Lecture 27 - The Energy Equation - I
Link NOC:Introduction to Boundary Layers Lecture 28 - The Energy Equation - II
Link NOC:Introduction to Boundary Layers Lecture 29 - Similarity Solutions to Thermal BL - I
Link NOC:Introduction to Boundary Layers Lecture 30 - Similarity Solutions to Thermal BL - II
Link NOC:Introduction to Boundary Layers Lecture 31 - Similarity Solutions to Thermal BL - III
Link NOC:Introduction to Boundary Layers Lecture 32 - BL Separation with Pressure-Gradient - I
Link NOC:Introduction to Boundary Layers Lecture 33 - BL Separation with Pressure Gradient - II
Link NOC:Introduction to Boundary Layers Lecture 34 - Effect of Prandtl Number in Thermal BL - I
Link NOC:Introduction to Boundary Layers Lecture 35 - Effect of Prandtl Number in Thermal BL - II
Link NOC:Introduction to Boundary Layers Lecture 36 - Effect of Prandtl Number in Thermal BL - III
Link NOC:Introduction to Boundary Layers Lecture 37 - Effect of Dissipation in Thermal BL - I
Link NOC:Introduction to Boundary Layers Lecture 38 - Effect of Dissipation in Thermal BL - II
Link NOC:Introduction to Boundary Layers Lecture 39 - Effect of Dissipation in Thermal BL - III
Link NOC:Introduction to Boundary Layers Lecture 40 - Similarity Solutions to Thermal BL - An Overview
Link NOC:Fundamentals of Gas Dynamics Lecture 1 - Introduction
Link NOC:Fundamentals of Gas Dynamics Lecture 2 - Basics of Thermodynamics
Link NOC:Fundamentals of Gas Dynamics Lecture 3 - Tutorial 1
Link NOC:Fundamentals of Gas Dynamics Lecture 4 - Control Volume Approach
Link NOC:Fundamentals of Gas Dynamics Lecture 5 - Conservation Equations
Link NOC:Fundamentals of Gas Dynamics Lecture 6 - Tutorial 2
Link NOC:Fundamentals of Gas Dynamics Lecture 7 - Energy Equation
Link NOC:Fundamentals of Gas Dynamics Lecture 8 - Concept of stagnation
Link NOC:Fundamentals of Gas Dynamics Lecture 9 - Discussion on stagnation
Link NOC:Fundamentals of Gas Dynamics Lecture 10 - Velocity of sound
Link NOC:Fundamentals of Gas Dynamics Lecture 11 - Discussion on velocity of sound and mach number
Link NOC:Fundamentals of Gas Dynamics Lecture 12 - Wave propagation
Link NOC:Fundamentals of Gas Dynamics Lecture 13 - Mach wave
Link NOC:Fundamentals of Gas Dynamics Lecture 14 - Mach number relations
Link NOC:Fundamentals of Gas Dynamics Lecture 15 - Variable Area Adiabatic flow
Link NOC:Fundamentals of Gas Dynamics Lecture 16 - Variable Area Adiabatic flow (Continued...)
Link NOC:Fundamentals of Gas Dynamics Lecture 17 - * reference quantities and their relations
Link NOC:Fundamentals of Gas Dynamics Lecture 18 - Importance of stagnation temperature in relation to v
Link NOC:Fundamentals of Gas Dynamics Lecture 19 - Discussion on variable area adiabaic flow and * reference quantities
Link NOC:Fundamentals of Gas Dynamics Lecture 20 - Gas tables
Link NOC:Fundamentals of Gas Dynamics Lecture 21 - Converging nozzle
Link NOC:Fundamentals of Gas Dynamics Lecture 22 - Condition of choked flow and associated properties
Link NOC:Fundamentals of Gas Dynamics Lecture 23 - Area ratio and pressure ratio in converging nozzles
Link NOC:Fundamentals of Gas Dynamics Lecture 24 - Discussion on converging nozzles
Link NOC:Fundamentals of Gas Dynamics Lecture 25 - Converging - Diverging (C-D) nozzles
Link NOC:Fundamentals of Gas Dynamics Lecture 26 - More on C-D nozzles
Link NOC:Fundamentals of Gas Dynamics Lecture 27 - Discussion on C-D nozzles - 1
Link NOC:Fundamentals of Gas Dynamics Lecture 28 - Discussion on C-D nozzles - 2
Link NOC:Fundamentals of Gas Dynamics Lecture 29 - Examples and applications of flow through C-D nozzles
Link NOC:Fundamentals of Gas Dynamics Lecture 30 - Introduction to normal shocks
Link NOC:Fundamentals of Gas Dynamics Lecture 31 - Normal shock relations - 1
Link NOC:Fundamentals of Gas Dynamics Lecture 32 - Normal shock relations - 2
Link NOC:Fundamentals of Gas Dynamics Lecture 33 - Rankine-Hugoniot equation
Link NOC:Fundamentals of Gas Dynamics Lecture 34 - Discussion on Normal Shocks - 1
Link NOC:Fundamentals of Gas Dynamics Lecture 35 - Discussion on Normal Shocks - 2
Link NOC:Fundamentals of Gas Dynamics Lecture 36 - Normal shocks in C-D nozzles
Link NOC:Fundamentals of Gas Dynamics Lecture 37 - Normal shocks in C-D nozzles (Continued...)
Link NOC:Fundamentals of Gas Dynamics Lecture 38 - Moving Normal Shocks
Link NOC:Fundamentals of Gas Dynamics Lecture 39 - Discussion on moving normal shocks
Link NOC:Fundamentals of Gas Dynamics Lecture 40 - Oblique shocks
Link NOC:Fundamentals of Gas Dynamics Lecture 41 - Oblique shock relations
Link NOC:Fundamentals of Gas Dynamics Lecture 42 - Discussion on oblique shocks
Link NOC:Fundamentals of Gas Dynamics Lecture 43 - Reflection of oblique shocks
Link NOC:Fundamentals of Gas Dynamics Lecture 44 - Discussion on reflection of oblique shocks
Link NOC:Fundamentals of Gas Dynamics Lecture 45 - Prandtl-Meyer flow
Link NOC:Fundamentals of Gas Dynamics Lecture 46 - Prandtl-Meyer flow (Continued...)
Link NOC:Fundamentals of Gas Dynamics Lecture 47 - Discussion on Prandtl-Meyer expansion
Link NOC:Fundamentals of Gas Dynamics Lecture 48 - Shock Polar diagram and Prandtl-Meyer relation for Oblique shocks
Link NOC:Experimental Stress Analysis - An Overview Lecture 1 - Introduction to Stress Analysis – Analytical and Numerical Approaches
Link NOC:Experimental Stress Analysis - An Overview Lecture 2 - Introduction to Stress Analysis - Experimental Approaches
Link NOC:Experimental Stress Analysis - An Overview Lecture 3 - Optical Methods Work as Optical Computers
Link NOC:Experimental Stress Analysis - An Overview Lecture 4 - Basic information provided by various experimental methods
Link NOC:Experimental Stress Analysis - An Overview Lecture 5 - Visual Appreciation of Field Information - Part 1
Link NOC:Experimental Stress Analysis - An Overview Lecture 6 - Visual Appreciation of Field Information - Part 2
Link NOC:Experimental Stress Analysis - An Overview Lecture 7 - Visual Appreciation of Field Information - Part 3
Link NOC:Experimental Stress Analysis - An Overview Lecture 8 - Visual Appreciation of Field Information - Part 4
Link NOC:Experimental Stress Analysis - An Overview Lecture 9 - Visual Appreciation of Field Information - Part 5
Link NOC:Experimental Stress Analysis - An Overview Lecture 10 - Completeness of a Numerical Solution
Link NOC:Experimental Stress Analysis - An Overview Lecture 11 - Principle of Strain Gauges
Link NOC:Experimental Stress Analysis - An Overview Lecture 12 - Overview of Strain Gauge Measurements
Link NOC:Experimental Stress Analysis - An Overview Lecture 13 - Elegance of Photoelasticity
Link NOC:Experimental Stress Analysis - An Overview Lecture 14 - Introduction to Photoelasticity
Link NOC:Experimental Stress Analysis - An Overview Lecture 15 - Different Polariscopes
Link NOC:Experimental Stress Analysis - An Overview Lecture 16 - Principles of Moiré
Link NOC:Experimental Stress Analysis - An Overview Lecture 17 - Introduction to Moiré
Link NOC:Experimental Stress Analysis - An Overview Lecture 18 - Introduction to Brittle Coatings
Link NOC:Experimental Stress Analysis - An Overview Lecture 19 - Introduction to Holography
Link NOC:Experimental Stress Analysis - An Overview Lecture 20 - Introduction to Hologram Interferometry
Link NOC:Experimental Stress Analysis - An Overview Lecture 21 - Introduction to Double exposure hologram interferometry
Link NOC:Experimental Stress Analysis - An Overview Lecture 22 - Introduction to Speckle Methods
Link NOC:Experimental Stress Analysis - An Overview Lecture 23 - Introduction to Speckle Interferometry Techniques
Link NOC:Experimental Stress Analysis - An Overview Lecture 24 - Introduction to TSA and DIC
Link NOC:Experimental Stress Analysis - An Overview Lecture 25 - Introduction to Caustics
Link NOC:Experimental Stress Analysis - An Overview Lecture 26 - Introduction to Coherent Gradient Sensor
Link NOC:Experimental Stress Analysis - An Overview Lecture 27 - Naming of Experimental Methods
Link NOC:Experimental Stress Analysis - An Overview Lecture 28 - Fringe Patterns - Richness of Qualitative Information
Link NOC:Experimental Stress Analysis - An Overview Lecture 29 - Key technologies that have influenced Experimental Mechanics
Link NOC:Experimental Stress Analysis - An Overview Lecture 30 - Multiscale analysis and trends in experimental mechanics
Link NOC:Experimental Stress Analysis - An Overview Lecture 31 - Selection of an experimental technique - Part 1
Link NOC:Experimental Stress Analysis - An Overview Lecture 32 - Selection of an experimental technique - Part 2
Link NOC:Fluid Dynamics and Turbomachines Lecture 1 - Introduction to Fluid Flow
Link NOC:Fluid Dynamics and Turbomachines Lecture 2 - Flow field, Stresses on fluid element, Newtonian fluid
Link NOC:Fluid Dynamics and Turbomachines Lecture 3 - Non Newtonian fluid, Classification of flow, Analysis of flow
Link NOC:Fluid Dynamics and Turbomachines Lecture 4 - Tutorial
Link NOC:Fluid Dynamics and Turbomachines Lecture 5 - Lecture 1 - Integral analysis, Control volume, Generalised conservation equation
Link NOC:Fluid Dynamics and Turbomachines Lecture 6 - Lecture 2 - Mass and linear momentum conservation in CV
Link NOC:Fluid Dynamics and Turbomachines Lecture 7 - Lecture 3 - Angular momentum conservation, Non-inertial frame of reference
Link NOC:Fluid Dynamics and Turbomachines Lecture 8 - Lecture 4 - Tutorial
Link NOC:Fluid Dynamics and Turbomachines Lecture 9 - Lecture 1 - Differential Analysis
Link NOC:Fluid Dynamics and Turbomachines Lecture 10 - Lecture 2 - Navier-Stokes equation for 2D incompressible flow
Link NOC:Fluid Dynamics and Turbomachines Lecture 11 - Lecture 3 - Vorticity, Stream function, Bernoulli's equation
Link NOC:Fluid Dynamics and Turbomachines Lecture 12 - Lecture 4 - Tutorial
Link NOC:Fluid Dynamics and Turbomachines Lecture 13 - Lecture 1 - External flows, Laminar and Turbulent Boundary Layer
Link NOC:Fluid Dynamics and Turbomachines Lecture 14 - Lecture 2 - Differential analysis of boundary layer, Blassius equation
Link NOC:Fluid Dynamics and Turbomachines Lecture 15 - Lecture 3 - Boundary Layer flow with pressure gradient, Flow separation
Link NOC:Fluid Dynamics and Turbomachines Lecture 16 - Lecture 4 - Internal flow, Pipe friction
Link NOC:Fluid Dynamics and Turbomachines Lecture 17 - Lecture 1 - Basic Thermodynamics
Link NOC:Fluid Dynamics and Turbomachines Lecture 18 - Lecture 2 - Turbomachines: Definition and classification
Link NOC:Fluid Dynamics and Turbomachines Lecture 19 - Lecture 3 - Dimensional Analysis
Link NOC:Fluid Dynamics and Turbomachines Lecture 20 - Lecture 4 - Tutorial
Link NOC:Fluid Dynamics and Turbomachines Lecture 21 - Lecture 1 - Representation of Turbomachines and Definition of velocity
Link NOC:Fluid Dynamics and Turbomachines Lecture 22 - Lecture 2 - Euler's energy equation
Link NOC:Fluid Dynamics and Turbomachines Lecture 23 - Lecture 3 - Real fluid flow and efficiency of turbomachine
Link NOC:Fluid Dynamics and Turbomachines Lecture 24 - Lecture 4 - Tutorial
Link NOC:Fluid Dynamics and Turbomachines Lecture 25 - Lecture 1 - Pumps
Link NOC:Fluid Dynamics and Turbomachines Lecture 26 - Lecture 2 - Pumping Systems
Link NOC:Fluid Dynamics and Turbomachines Lecture 27 - Lecture 3 - Hydraulic Turbines : Pelton Turbine
Link NOC:Fluid Dynamics and Turbomachines Lecture 28 - Lecture 4 - Hydraulic Turbines : Reaction Turbines
Link NOC:Fluid Dynamics and Turbomachines Lecture 29 - Lecture 5 - Cavitation in Hydroturbomachines
Link NOC:Fluid Dynamics and Turbomachines Lecture 30 - Lecture 6 - Tutorial
Link NOC:Fluid Dynamics and Turbomachines Lecture 31 - Lecture 1 - Introduction to compressible flow
Link NOC:Fluid Dynamics and Turbomachines Lecture 32 - Lecture 2 - Steam and Gas Turbine : Introduction and classification
Link NOC:Fluid Dynamics and Turbomachines Lecture 33 - Lecture 3 - Steam and Gas Turbine : h-s Plots and velocity triangle
Link NOC:Fluid Dynamics and Turbomachines Lecture 34 - Lecture 4 - Tutorial
Link NOC:Micro and Nano Scale Energy Transport Lecture 1 - Overview to Micro/Nanoscale energy transport - Part 1
Link NOC:Micro and Nano Scale Energy Transport Lecture 2 - Overview to Micro/Nanoscale energy transport - Part 2
Link NOC:Micro and Nano Scale Energy Transport Lecture 3 - Some applications of Micro/Nanoscale energy transport
Link NOC:Micro and Nano Scale Energy Transport Lecture 4 - Continuum heat transfer and its limitation
Link NOC:Micro and Nano Scale Energy Transport Lecture 5 - Energy carriers at Micro/Nanoscale and their attributes
Link NOC:Micro and Nano Scale Energy Transport Lecture 6 - Microscopic contributes to Internal energy of a systems
Link NOC:Micro and Nano Scale Energy Transport Lecture 7 - Fundamentals of Quantum mechanics - Part 1
Link NOC:Micro and Nano Scale Energy Transport Lecture 8 - Fundamentals of Quantum mechanics - Part 2
Link NOC:Micro and Nano Scale Energy Transport Lecture 9 - Fundamentals of Quantum mechanics - Part 3
Link NOC:Micro and Nano Scale Energy Transport Lecture 10 - Fundamentals of Quantum mechanics - Part 4
Link NOC:Micro and Nano Scale Energy Transport Lecture 11 - Fundamentals of Quantum mechanics - Part 5
Link NOC:Micro and Nano Scale Energy Transport Lecture 12 - Fundamentals of solid state physics - Part 1
Link NOC:Micro and Nano Scale Energy Transport Lecture 13 - Fundamentals of solid state physics - Part 2
Link NOC:Micro and Nano Scale Energy Transport Lecture 14 - Fundamentals of solid state physics - Part 3
Link NOC:Micro and Nano Scale Energy Transport Lecture 15 - Fundamentals of solid state physics - Part 4
Link NOC:Micro and Nano Scale Energy Transport Lecture 16 - Fundamentals of statistical thermodynamics - Part 1
Link NOC:Micro and Nano Scale Energy Transport Lecture 17 - Fundamentals of statistical thermodynamics - Part 2
Link NOC:Micro and Nano Scale Energy Transport Lecture 18 - Fundamentals of statistical thermodynamics - Part 3
Link NOC:Micro and Nano Scale Energy Transport Lecture 19 - Fundamentals of statistical thermodynamics - Part 4
Link NOC:Micro and Nano Scale Energy Transport Lecture 20 - Kinetic theory of energy carriers - Part 1
Link NOC:Micro and Nano Scale Energy Transport Lecture 21 - Kinetic theory of energy carriers - Part 2
Link NOC:Micro and Nano Scale Energy Transport Lecture 22 - Non-equilibrium energy transport at Nanoscales: Boltzmann Transport Equation (BTE)
Link NOC:Micro and Nano Scale Energy Transport Lecture 23 - Boltzmann Transport Equation under the relaxation time approximation
Link NOC:Micro and Nano Scale Energy Transport Lecture 24 - Derivation of Continuum laws from Boltzmann Transport Equation - Part 1
Link NOC:Micro and Nano Scale Energy Transport Lecture 25 - Derivation of Continuum laws from Boltzmann Transport Equation - Part 2
Link NOC:Micro and Nano Scale Energy Transport Lecture 26 - Derivation of Continuum laws from Boltzmann Transport Equation - Part 3
Link NOC:Micro and Nano Scale Energy Transport Lecture 27 - Nanoscale Energy transport in a Thin Film - Part 1
Link NOC:Micro and Nano Scale Energy Transport Lecture 28 - Nanoscale Energy transport in a Thin Film - Part 2
Link NOC:Micro and Nano Scale Energy Transport Lecture 29 - Nanoscale Energy transport in a Thin Film - Part 3
Link NOC:Micro and Nano Scale Energy Transport Lecture 30 - Gas flow and Heat transport in Microchannels - Part 1
Link NOC:Micro and Nano Scale Energy Transport Lecture 31 - Gas flow and Heat transport in Microchannels - Part 2
Link NOC:Micro and Nano Scale Energy Transport Lecture 32 - Single phase liquid flow and Heat transport in Microchannels - Part 1
Link NOC:Micro and Nano Scale Energy Transport Lecture 33 - Single phase liquid flow and Heat transport in Microchannels - Part 2
Link NOC:Micro and Nano Scale Energy Transport Lecture 34 - Fundamentals of Electro kinetics in Microchannels Part1
Link NOC:Micro and Nano Scale Energy Transport Lecture 35 - Fundamentals of Electro kinetics in Microchannels Part2
Link NOC:Micro and Nano Scale Energy Transport Lecture 36 - Fundamentals of Electro kinetics in Microchannels Part3
Link NOC:Micro and Nano Scale Energy Transport Lecture 37 - Two phase Heat transfer in Microchannels - Part 1
Link NOC:Micro and Nano Scale Energy Transport Lecture 38 - Two phase Heat transfer in Microchannels - Part 2
Link NOC:Micro and Nano Scale Energy Transport Lecture 39 - Nano fluid Heat transfer - Part 1
Link NOC:Micro and Nano Scale Energy Transport Lecture 40 - Nano fluid Heat transfer - Part 2
Link NOC:Micro and Nano Scale Energy Transport Lecture 41 - Measurement techniques in Micro and Nanoscale Heat transfer - Part 1
Link NOC:Micro and Nano Scale Energy Transport Lecture 42 - Measurement techniques in Micro and Nanoscale Heat transfer - Part 2
Link NOC:Electron Diffraction and Imaging Lecture 1 - 1D-2D-3D lattice
Link NOC:Electron Diffraction and Imaging Lecture 2 - Stereographic projection - 1
Link NOC:Electron Diffraction and Imaging Lecture 3 - Stereographic Projection - 2
Link NOC:Electron Diffraction and Imaging Lecture 4 - Symmetry in 1-D crystals
Link NOC:Electron Diffraction and Imaging Lecture 5 - Symmetry in 2-D crystals
Link NOC:Electron Diffraction and Imaging Lecture 6 - Symmetry in 3-D crystals
Link NOC:Electron Diffraction and Imaging Lecture 7 - Understanding IUCr tables
Link NOC:Electron Diffraction and Imaging Lecture 8 - Symmetry in 3-D Crystals
Link NOC:Electron Diffraction and Imaging Lecture 9 - Reciprocal lattice
Link NOC:Electron Diffraction and Imaging Lecture 10 - Directions Planes and zone axes
Link NOC:Electron Diffraction and Imaging Lecture 11 - Interplanar distances and angles
Link NOC:Electron Diffraction and Imaging Lecture 12 - Diffraction - 1
Link NOC:Electron Diffraction and Imaging Lecture 13 - Diffraction - 2
Link NOC:Electron Diffraction and Imaging Lecture 14 - Diffraction - Structure and Shape Factor
Link NOC:Electron Diffraction and Imaging Lecture 15 - Transformation of Indices
Link NOC:Electron Diffraction and Imaging Lecture 16 - Microscope - 1
Link NOC:Electron Diffraction and Imaging Lecture 17 - Microscope - 2
Link NOC:Electron Diffraction and Imaging Lecture 18 - Kikuchi Diffraction
Link NOC:Electron Diffraction and Imaging Lecture 19 - Double Diffraction and CBED
Link NOC:Electron Diffraction and Imaging Lecture 20 - CBED and Precession Electron Diffraction
Link NOC:Electron Diffraction and Imaging Lecture 21 - Indexing Diffraction Pattern
Link NOC:Electron Diffraction and Imaging Lecture 22 - Correlation of Diffraction Spots to Microstructure
Link NOC:Electron Diffraction and Imaging Lecture 23 - 3-Index to 4-Index System
Link NOC:Electron Diffraction and Imaging Lecture 24 - Kinematical and Dynamical Theory of Diffraction and Imaging
Link NOC:Electron Diffraction and Imaging Lecture 25 - Contrast from Planar Defects
Link NOC:Electron Diffraction and Imaging Lecture 26 - Contrast from Strain Fields
Link NOC:Electron Diffraction and Imaging Lecture 27 - Atomic Scattering Factor
Link NOC:Electron Diffraction and Imaging Lecture 28 - Coherence
Link NOC:Electron Diffraction and Imaging Lecture 29 - Lens Aberrations
Link NOC:Electron Diffraction and Imaging Lecture 30 - Phase Contrast Microscopy - 1
Link NOC:Electron Diffraction and Imaging Lecture 31 - Phase Contrast Microscopy - 2
Link NOC:Electron Diffraction and Imaging Lecture 32 - Phase Contrast Microscopy - 3
Link NOC:Electron Diffraction and Imaging Lecture 33 - STEM
Link NOC:Electron Diffraction and Imaging Lecture 34 - ELES and EDS
Link NOC:Electron Diffraction and Imaging Lecture 35 - Recent trends
Link NOC:Electron Diffraction and Imaging Lecture 36 - Energy dispersive Spectroscopy
Link NOC:Electron Diffraction and Imaging Lecture 37 - Revision - 1
Link NOC:Electron Diffraction and Imaging Lecture 38 - Revision - 2
Link NOC:Electron Diffraction and Imaging Lecture 39 - Revision of Recent trends in Microscopy
Link NOC:Electron Diffraction and Imaging Lecture 40 - Crystallography Revision
Link NOC:Acoustic and Noise Control Lecture 1 - Module 1 - Introduction - 1
Link NOC:Acoustic and Noise Control Lecture 2 - Module 1 - Introduction - 2
Link NOC:Acoustic and Noise Control Lecture 3 - Module 2 - Governing Equation - 1
Link NOC:Acoustic and Noise Control Lecture 4 - Module 2 - Governing Equation - 2
Link NOC:Acoustic and Noise Control Lecture 5 - Module 3 - Plane Wave - 1
Link NOC:Acoustic and Noise Control Lecture 6 - Module 3 - Plane Wave - 2
Link NOC:Acoustic and Noise Control Lecture 7 - Module 4 - Reflection Of Plane Waves - 1
Link NOC:Acoustic and Noise Control Lecture 8 - Module 4 - Reflection Of Plane Waves - 2
Link NOC:Acoustic and Noise Control Lecture 9 - Module 5 - Frequence Analysis - 1
Link NOC:Acoustic and Noise Control Lecture 10 - Module 5 - Frequence Analysis - 2
Link NOC:Acoustic and Noise Control Lecture 11 - Module 6 - Harmonic Plane Waves
Link NOC:Acoustic and Noise Control Lecture 12 - Module 7 - Travelling And Standing Waves
Link NOC:Acoustic and Noise Control Lecture 13 - Module 8 - Acoustic Mode Shapes, Reflection
Link NOC:Acoustic and Noise Control Lecture 14 - Module 9 - Plane Waves : Reflection and Intermission
Link NOC:Acoustic and Noise Control Lecture 15 - Module 10 - Flexural Waves, evanescent Waves
Link NOC:Acoustic and Noise Control Lecture 16 - Module 11 - Near Field Acoustic Waves
Link NOC:Acoustic and Noise Control Lecture 17 - Module 12 - cuton Waves in duct
Link NOC:Acoustic and Noise Control Lecture 18 - Module 13 - Power Calculation
Link NOC:Acoustic and Noise Control Lecture 19 - Module 14 - Decibel Scale
Link NOC:Acoustic and Noise Control Lecture 20 - Module 15 - Db Arithmetic
Link NOC:Acoustic and Noise Control Lecture 21 - Module 16 - Sound Power Level
Link NOC:Acoustic and Noise Control Lecture 22 - Module 17 - Human factors in Acoustic Engineering
Link NOC:Acoustic and Noise Control Lecture 23 - Module 18 - Microphone
Link NOC:Acoustic and Noise Control Lecture 24 - Module 19 - Acoustic Measurements
Link NOC:Acoustic and Noise Control Lecture 25 - Module 20 - Muffler Analysis
Link NOC:Acoustic and Noise Control Lecture 26 - Module 21 - Transfer Matrix Method
Link NOC:Acoustic and Noise Control Lecture 27 - Module 22 - Electro Mechanical Analogies - Part 1
Link NOC:Acoustic and Noise Control Lecture 28 - Module 23 - Electro Mechanical Analogies Simple Example
Link NOC:Acoustic and Noise Control Lecture 29 - Module 24 - Electro Mechanical Analogies Example
Link NOC:Acoustic and Noise Control Lecture 30 - Module 25 - Helmholtz Resonator
Link NOC:Acoustic and Noise Control Lecture 31 - Module 26 - Source Impedance
Link NOC:Acoustic and Noise Control Lecture 32 - Module 27 - Insertion Loss
Link NOC:Acoustic and Noise Control Lecture 33 - Module 28 - Analysis Of Industrial Mufflers
Link NOC:Acoustic and Noise Control Lecture 34 - Module 29 - Spherical Waves
Link NOC:Acoustic and Noise Control Lecture 35 - Module 30 - Monopole and Dipole
Link NOC:Acoustic and Noise Control Lecture 36 - Module 31 - Inhomogeneous Wave Equation
Link NOC:Acoustic and Noise Control Lecture 37 - Module 32 - Green's Function
Link NOC:Acoustic and Noise Control Lecture 38 - Module 33 - Kirchoff Helmholtz Integral Equation
Link NOC:Acoustic and Noise Control Lecture 39 - Tutorial 1
Link NOC:Acoustic and Noise Control Lecture 40 - Tutorial 2
Link NOC:Acoustic and Noise Control Lecture 41 - Tutorial 3
Link NOC:Acoustic and Noise Control Lecture 42 - Tutorial 4
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 1 - Concept of Steel Quality
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 2 - Control of Residuals and Impact on Quality
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 3 - Non-Metallic Inclusions
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 4 - Evaluation of Residuals and Inclusions
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 5 - Cleanliness Requirements for Different applications
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 6 - Limitation of Primary Steelmaking and Importance of secondary Refining
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 7 - Deoxidation
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 8 - Prevention of Slag carryover
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 9 - Desulphurisation
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 10 - Degassing
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 11 - Secondary Refining Processes
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 12 - Injection of Calcium
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 13 - Different Routes and Temperature Control
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 14 - Decarburisation
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 15 - Cleanliness Measures in Ladle and Tundish
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 16 - Cleanliness Measures in Mould
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 17 - Nature and Distribution of Entrapments in Casting
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 18 - Genesis of Entrapment
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 19 - Effect of Vertical vis-a-vis Curved Mould
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 20 - Quality of Cast Product
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 21 - Role of Concast Process, Caster Design and Steel Grade
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 22 - Primary Cooling in Caster Mould
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 23 - Heat Transfer in Mould
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 24 - Role of Mould Oscillation
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 25 - Cast Structure and Dendrite Size
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 26 - Role of Chemistry - Part I
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 27 - Role of Chemistry - Part II
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 28 - Role of Segregation - Part I
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 29 - Role of Segregation - Part II
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 30 - Deleterious Effect of Phosphorus
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 31 - Strength of Solidifying Strand
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 32 - Brittle Zone Near Solidus
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 33 - Strength and Toughness of Solid Shell
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 34 - Role of Chemistry on Solidification Behaviour
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 35 - Sticking vis-a-vis Depression Behaviour
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 36 - Role of Chemistry on Bulging or Depression Tendency - Part I
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 37 - Role of Chemistry on Bulging or Depression Tendency - Part II
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 38 - Effect of Cast Grain Size
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 39 - Brittle Temperature Regions
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 40 - Typical Cracks and Defects - Part I
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 41 - Typical Cracks and Defects - Part II
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 42 - Remedial Measures to Control Defects - Part I
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 43 - Remedial Measures to Control Defects - Part II
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 44 - Remedial Measures to Control Defects - Part III
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 45 - Grade - Specific Casting Parameters - Part I
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 46 - Grade - Specific Casting Parameters - Part II
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 47 - Identification of Genesis of Quality Problems Through Metallographic Investigation - Part I
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 48 - Identification of Genesis of Quality Problems Through Metallographic Investigation - Part II
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 49 - Identification of Genesis of Quality Problems Through Metallographic Investigation - Part III
Link NOC:X-ray Crystallography and Diffraction Lecture 1 - Geometry of Crystals
Link NOC:X-ray Crystallography and Diffraction Lecture 2 - Geometry of Crystals (Continued...)
Link NOC:X-ray Crystallography and Diffraction Lecture 3 - Tutorial-1
Link NOC:X-ray Crystallography and Diffraction Lecture 4 - Reciprocal Lattice
Link NOC:X-ray Crystallography and Diffraction Lecture 5 - Stereographic Projection
Link NOC:X-ray Crystallography and Diffraction Lecture 6 - Tutorial-2
Link NOC:X-ray Crystallography and Diffraction Lecture 7 - Point Groups and Space Groups
Link NOC:X-ray Crystallography and Diffraction Lecture 8 - Point Groups and Space Groups (Continued...)
Link NOC:X-ray Crystallography and Diffraction Lecture 9 - Tutorial-3
Link NOC:X-ray Crystallography and Diffraction Lecture 10 - Point Groups and Space Groups (Continued...)
Link NOC:X-ray Crystallography and Diffraction Lecture 11 - Basics of X-Rays
Link NOC:X-ray Crystallography and Diffraction Lecture 12 - Production and Detection of X-Rays
Link NOC:X-ray Crystallography and Diffraction Lecture 13 - Production and Detection of X-Rays (Continued...)
Link NOC:X-ray Crystallography and Diffraction Lecture 14 - Principles of X-Ray Diffraction
Link NOC:X-ray Crystallography and Diffraction Lecture 15 - X-Ray Diffraction Methods
Link NOC:X-ray Crystallography and Diffraction Lecture 16 - Debye Sherrer Camera
Link NOC:X-ray Crystallography and Diffraction Lecture 17 - Diffractometer Measurements
Link NOC:X-ray Crystallography and Diffraction Lecture 18 - Tutorial-4
Link NOC:X-ray Crystallography and Diffraction Lecture 19 - Intensity of Diffracted Beams
Link NOC:X-ray Crystallography and Diffraction Lecture 20 - Intensity of Diffracted Beams (Continued...)
Link NOC:X-ray Crystallography and Diffraction Lecture 21 - Determination of Crystal Structures
Link NOC:X-ray Crystallography and Diffraction Lecture 22 - Precise Lattice Parameter Determination
Link NOC:X-ray Crystallography and Diffraction Lecture 23 - XRD - Lab Demonstration
Link NOC:X-ray Crystallography and Diffraction Lecture 24 - Discussion - Based on Forum Queries - 1
Link NOC:X-ray Crystallography and Diffraction Lecture 25 - Phase Diagram Determination
Link NOC:X-ray Crystallography and Diffraction Lecture 26 - Ordered Disordered Transformation
Link NOC:X-ray Crystallography and Diffraction Lecture 27 - Ordered Disordered Transformation (Continued...)
Link NOC:X-ray Crystallography and Diffraction Lecture 28 - Qualitative Phase Analysis
Link NOC:X-ray Crystallography and Diffraction Lecture 29 - Quantitative Phase Analysis - 1
Link NOC:X-ray Crystallography and Diffraction Lecture 30 - Precise Lattice Parameter Determination - 1
Link NOC:X-ray Crystallography and Diffraction Lecture 31 - Chemical Analysis by X-Ray Flourescence
Link NOC:X-ray Crystallography and Diffraction Lecture 32 - Chemical Analysis by X-Ray Absorption
Link NOC:X-ray Crystallography and Diffraction Lecture 33 - Effect of Crystallite Size on Diffracted X-Ray Intensity
Link NOC:X-ray Crystallography and Diffraction Lecture 34 - Texture Determination by XRD
Link NOC:X-ray Crystallography and Diffraction Lecture 35 - Particle Size Determination by XRD
Link NOC:X-ray Crystallography and Diffraction Lecture 36 - Effect of Crystallite Size on Diffracted X-Ray Intensity
Link NOC:X-ray Crystallography and Diffraction Lecture 37 - Determination of Single Crystal Orientation by X-Rays
Link NOC:X-ray Crystallography and Diffraction Lecture 38 - Stress Analysis by X-Rays
Link NOC:X-ray Crystallography and Diffraction Lecture 39 - Factors Contributing to Peak Broadening
Link NOC:X-ray Crystallography and Diffraction Lecture 40 - Residual Stress Measurement by X-Rays
Link NOC:Transport Phenomena in Materials Lecture 1 - Subscript Notation - Part 1
Link NOC:Transport Phenomena in Materials Lecture 2 - Subscript Notation - Part 2
Link NOC:Transport Phenomena in Materials Lecture 3 - Coordinate Rotation
Link NOC:Transport Phenomena in Materials Lecture 4 - Introduction to Tensors
Link NOC:Transport Phenomena in Materials Lecture 5 - Symmetry of Properties
Link NOC:Transport Phenomena in Materials Lecture 6 - Material Derivative
Link NOC:Transport Phenomena in Materials Lecture 7 - Planar Flows
Link NOC:Transport Phenomena in Materials Lecture 8 - Reynolds Transport Theorem
Link NOC:Transport Phenomena in Materials Lecture 9 - Derivation of Navier-Stokes equation
Link NOC:Transport Phenomena in Materials Lecture 10 - Navier Stokes equations - Part 2
Link NOC:Transport Phenomena in Materials Lecture 11 - Flow problem statements
Link NOC:Transport Phenomena in Materials Lecture 12 - Simple cases in fluid flow : rectangular coordinate system
Link NOC:Transport Phenomena in Materials Lecture 13 - Simple cases in fluid flow : cylindrical coordinate system
Link NOC:Transport Phenomena in Materials Lecture 14 - Pipe flow and porous medium
Link NOC:Transport Phenomena in Materials Lecture 15 - Simple cases in fluid flow : spherical coordinate system
Link NOC:Transport Phenomena in Materials Lecture 16 - Friction factors and correlations
Link NOC:Transport Phenomena in Materials Lecture 17 - Energy Transport
Link NOC:Transport Phenomena in Materials Lecture 18 - Conduction cases - Steady state
Link NOC:Transport Phenomena in Materials Lecture 19 - Conduction cases - Transient state
Link NOC:Transport Phenomena in Materials Lecture 20 - Convective heat transfer
Link NOC:Transport Phenomena in Materials Lecture 21 - Mass Transfer Overview
Link NOC:Transport Phenomena in Materials Lecture 22 - Chemical Equilibrium
Link NOC:Transport Phenomena in Materials Lecture 23 - Reaction Equilibrium
Link NOC:Transport Phenomena in Materials Lecture 24 - Species Balance Equation
Link NOC:Transport Phenomena in Materials Lecture 25 - Solute Transfer Modelling - Part 1
Link NOC:Transport Phenomena in Materials Lecture 26 - Solute Transfer Modelling - Part 2
Link NOC:Transport Phenomena in Materials Lecture 27 - Solute Segregation Profile - Part 1
Link NOC:Transport Phenomena in Materials Lecture 28 - Solute Segregation Profile - Part 2
Link NOC:Transport Phenomena in Materials Lecture 29 - Problem Statements
Link NOC:Transport Phenomena in Materials Lecture 30 - Diffusion in Solid State
Link NOC:Transport Phenomena in Materials Lecture 31 - Transient Solute Diffusion in Solid State
Link NOC:Transport Phenomena in Materials Lecture 32 - Mass Transfer in Fluids
Link NOC:Transport Phenomena in Materials Lecture 33 - Similarity Across Transport Phenomena
Link NOC:Experimental Stress Analysis - An Overview Lecture 1 - Overview of Experimental Stress Analysis
Link NOC:Experimental Stress Analysis - An Overview Lecture 2 - Optical Methods Work as Optical Computers
Link NOC:Experimental Stress Analysis - An Overview Lecture 3 - Stress, Strain and Displacement Fields
Link NOC:Experimental Stress Analysis - An Overview Lecture 4 - Completeness of a numerical solution
Link NOC:Experimental Stress Analysis - An Overview Lecture 5 - Fringe Patterns - Richness of Qualitative Information
Link NOC:Experimental Stress Analysis - An Overview Lecture 6 - Multi-Scale Analysis in Experimental Mechanics
Link NOC:Experimental Stress Analysis - An Overview Lecture 7 - Selection of an Experimental Technique
Link NOC:Experimental Stress Analysis - An Overview Lecture 8 - Introduction to Transmission Photoelasticity
Link NOC:Experimental Stress Analysis - An Overview Lecture 9 - Ordinary and Extraordinary Rays
Link NOC:Experimental Stress Analysis - An Overview Lecture 10 - Light Ellipse, Passage of Light Through a Crystal Plate
Link NOC:Experimental Stress Analysis - An Overview Lecture 11 - Retardation Plates, Stress-optic Law
Link NOC:Experimental Stress Analysis - An Overview Lecture 12 - Plane Polariscope
Link NOC:Experimental Stress Analysis - An Overview Lecture 13 - Jones Calculus
Link NOC:Experimental Stress Analysis - An Overview Lecture 14 - Circular Polariscope
Link NOC:Experimental Stress Analysis - An Overview Lecture 15 - Determination of Photoelastic Parameters at an Arbitrary Point
Link NOC:Experimental Stress Analysis - An Overview Lecture 16 - Tardy’s Method of Compensation
Link NOC:Experimental Stress Analysis - An Overview Lecture 17 - Calibration of Photoelastic Materials
Link NOC:Experimental Stress Analysis - An Overview Lecture 18 - Fringe Thinning Methodologies
Link NOC:Experimental Stress Analysis - An Overview Lecture 19 - Fringe Ordering in Photoelasticity
Link NOC:Experimental Stress Analysis - An Overview Lecture 20 - Miscellaneous Topics in Transmission Photoelasticity
Link NOC:Experimental Stress Analysis - An Overview Lecture 21 - Three Dimensional Photoelasticity
Link NOC:Experimental Stress Analysis - An Overview Lecture 22 - Overview of Digital Photoelasticity
Link NOC:Experimental Stress Analysis - An Overview Lecture 23 - Introduction to Photoelastic Coatings
Link NOC:Experimental Stress Analysis - An Overview Lecture 24 - Correction Factors for Photoelastic Coatings
Link NOC:Experimental Stress Analysis - An Overview Lecture 25 - Coating Materials, Selection of Coating Thickness, Industrial Application of Photoelastic Coatings
Link NOC:Experimental Stress Analysis - An Overview Lecture 26 - Calibration of Photoelastic Coatings, Introduction to Brittle Coatings
Link NOC:Experimental Stress Analysis - An Overview Lecture 27 - Analysis of Brittle Coatings
Link NOC:Experimental Stress Analysis - An Overview Lecture 28 - Introduction to Strain Gauges
Link NOC:Experimental Stress Analysis - An Overview Lecture 29 - Strain Sensitivity of a Strain Gauge, Bridge Sensitivity, Rosettes
Link NOC:Experimental Stress Analysis - An Overview Lecture 30 - Strain Gauge Alloys, Carriers and Adhesives
Link NOC:Experimental Stress Analysis - An Overview Lecture 31 - Performance of Strain Gauge System
Link NOC:Experimental Stress Analysis - An Overview Lecture 32 - Temperature Compensation, Two-wire and Three-wire Circuits
Link NOC:Experimental Stress Analysis - An Overview Lecture 33 - Strain Gauge Selection
Link NOC:Experimental Stress Analysis - An Overview Lecture 34 - Bonding of a Strain Gauge
Link NOC:Experimental Stress Analysis - An Overview Lecture 35 - Soldering, Accounting for Transverse Sensitivity Effects
Link NOC:Experimental Stress Analysis - An Overview Lecture 36 - Correction Factors for Special Applications
Link NOC:Experimental Stress Analysis - An Overview Lecture 37 - Special Gauges
Link NOC:Mechanics of Human Movement Lecture 1 - Basic Terminologies
Link NOC:Mechanics of Human Movement Lecture 2 - Skeletal System
Link NOC:Mechanics of Human Movement Lecture 3 - Axial and Appendicular Skeleton
Link NOC:Mechanics of Human Movement Lecture 4 - Bones in the Human Body
Link NOC:Mechanics of Human Movement Lecture 5 - Types of Joints
Link NOC:Mechanics of Human Movement Lecture 6 - Movements about Joints
Link NOC:Mechanics of Human Movement Lecture 7 - Levers in the Human Body
Link NOC:Mechanics of Human Movement Lecture 8 - Skeletal Muscles: Functions
Link NOC:Mechanics of Human Movement Lecture 9 - Skeletal Muscles: Structure - Part I
Link NOC:Mechanics of Human Movement Lecture 10 - Skeletal Muscles: Structure - Part II
Link NOC:Mechanics of Human Movement Lecture 11 - Mechanics and Modeling of Muscles
Link NOC:Mechanics of Human Movement Lecture 12 - Muscle Action - Part I
Link NOC:Mechanics of Human Movement Lecture 13 - Muscle Action - Part II
Link NOC:Mechanics of Human Movement Lecture 14 - Principles of Statics
Link NOC:Mechanics of Human Movement Lecture 15 - Static Analysis of Elbow - Part I
Link NOC:Mechanics of Human Movement Lecture 16 - Static Analysis of Elbow - Part II
Link NOC:Mechanics of Human Movement Lecture 17 - Static Analysis of Shoulder - Part I
Link NOC:Mechanics of Human Movement Lecture 18 - Static Analysis of Shoulder - Part II
Link NOC:Mechanics of Human Movement Lecture 19 - Static Analysis of Spine - Part I
Link NOC:Mechanics of Human Movement Lecture 20 - Static Analysis of Spine - Part II
Link NOC:Mechanics of Human Movement Lecture 21 - Static Analysis of Spine - Part III
Link NOC:Mechanics of Human Movement Lecture 22 - Static Analysis of Hip - Part I
Link NOC:Mechanics of Human Movement Lecture 23 - Static Analysis of Hip - Part II
Link NOC:Mechanics of Human Movement Lecture 24 - Static Analysis of the Knee
Link NOC:Mechanics of Human Movement Lecture 25 - Static Analysis of the Knee and Ankle
Link NOC:Mechanics of Human Movement Lecture 26 - Kinetics: Linear Motion - Part I
Link NOC:Mechanics of Human Movement Lecture 27 - Kinetics: Linear Motion - Part II
Link NOC:Mechanics of Human Movement Lecture 28 - Kinetics: Linear Motion - Part III
Link NOC:Mechanics of Human Movement Lecture 29 - Kinetics: Angular Motion - Part I
Link NOC:Mechanics of Human Movement Lecture 30 - Kinetics: Angular Motion - Part II
Link NOC:Mechanics of Human Movement Lecture 31 - Kinetics: Angular Motion - Part III
Link NOC:Mechanics of Human Movement Lecture 32 - Kinetics: Angular Motion - Part IV
Link NOC:Mechanics of Human Movement Lecture 33 - Kinetics of Arm Swinging during Walking
Link NOC:Mechanics of Human Movement Lecture 34 - Inverse Dynamics Analysis
Link NOC:Mechanics of Human Movement Lecture 35 - Biomechanics of Balance - Part I
Link NOC:Mechanics of Human Movement Lecture 36 - Biomechanics of Balance - Part II
Link NOC:Mechanics of Human Movement Lecture 37 - Biomechanics of Balance - Part III
Link NOC:Mechanics of Human Movement Lecture 38 - Human Gait
Link NOC:Mechanics of Human Movement Lecture 39 - Human Gait Terminologies
Link NOC:Mechanics of Human Movement Lecture 40 - Characteristics of Normal Gait - Part I
Link NOC:Mechanics of Human Movement Lecture 41 - Characteristics of Normal Gait - Part II
Link NOC:Mechanics of Human Movement Lecture 42 - Characteristics of Normal Gait - Part III
Link NOC:Mechanics of Human Movement Lecture 43 - Pathological Gait - Part I
Link NOC:Mechanics of Human Movement Lecture 44 - Pathological Gait - Part II
Link NOC:Mechanics of Human Movement Lecture 45 - Pathological Gait - Part III
Link NOC:Mechanics of Human Movement Lecture 46 - Introduction to Assistive Devices for Mobility
Link NOC:Mechanics of Human Movement Lecture 47 - Design Considerations: Prosthetic Foot
Link NOC:Mechanics of Human Movement Lecture 48 - Design Considerations: Prosthesis and Orthosis
Link NOC:Mechanics of Human Movement Lecture 49 - Design Considerations: Prosthetic Knee
Link NOC:Mechanics of Human Movement Lecture 50 - Journey of Standing Wheelchair Development
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 1 - Introduction to DfX
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 2 - Introduction to Quality
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 3 - Introduction to Robustness
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 4 - Introduction to Six Sigma Concept
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 5 - Recap and clarifications of basic concepts
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 6 - Review of Six Sigma and Quality Loss Function (QLF)
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 7 - Types of QLF and SN Ratio
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 8 - Linking Quality and Robustness
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 9 - Design for Six Sigma - Stages, Design of Experiments
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 10 - Introduction To Design Of Experiments
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 11 - Need for DoE and basic DoE methods
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 12 - Factorial Design
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 13 - Orthogonal Array- L4 and L8 example
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 14 - Setting up an Orthogonal Array
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 15 - Confounding OA and Resolution Table
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 16 - Confounding Logic and Randomization of Experiments
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 17 - Paper Helicopter Case Study - Part I
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 18 - Paper Helicopter Case Study - Part II
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 19 - Introduction To Injection Molding Process, Materials, Terminologies Related To Plastic Parts and Design Guidelines
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 20 - Estimation of Mold Cost for Injection Molding (Dixon and Poli's Method)
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 21 - Estimation of Mold Cost for Injection Molding (Dixon and Poli's Method) (Continued...)
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 22 - Mold Cost Estimation - Tutorial
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 23 - Design for Additive Manufacturing
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 24 - Demo
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 25 - Introduction to Sustainable Development and Sustainability Indicators - Part 1
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 26 - Introduction to Sustainable Development and Sustainability Indicators - Part 2
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 27 - Introduction to design process
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 28 - Accounting for manufacturability and assembly in design - An overview
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 29 - DfMA in product design
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 30 - General design guidelines for manual assembly
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 31 - Systematic DFA methodology
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 32 - Alpha symmetry, Beta symmetry
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 33 - Quantification of part size and thickness
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 34 - Systematic DFA Case study - controller assembly
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 35 - DFA examples and discussion
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 36 - Xerox Producibility Index (XPI)
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 37 - High Speed and Robotic Assembly
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 38 - Sheet Metal Working
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 39 - Overview of DoE Workflow
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 40 - DFA Software
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 41 - DFM Software and Case Studies
Link NOC:Surrogates and Approximations in Engineering Design Lecture 1 - Overview and Motivation of Course
Link NOC:Surrogates and Approximations in Engineering Design Lecture 2 - Basic Optimization Problem Formulation
Link NOC:Surrogates and Approximations in Engineering Design Lecture 3 - Problem Formulation Example
Link NOC:Surrogates and Approximations in Engineering Design Lecture 4 - Calculus related to Optimization
Link NOC:Surrogates and Approximations in Engineering Design Lecture 5 - The big picture - Overview
Link NOC:Surrogates and Approximations in Engineering Design Lecture 6 - Introduction to DOE - 1
Link NOC:Surrogates and Approximations in Engineering Design Lecture 7 - Introduction to DOE - 2
Link NOC:Surrogates and Approximations in Engineering Design Lecture 8 - Types of DOE - 1
Link NOC:Surrogates and Approximations in Engineering Design Lecture 9 - Types of DOE - 2 and some examples
Link NOC:Surrogates and Approximations in Engineering Design Lecture 10 - Introduction to surrogate modeling
Link NOC:Surrogates and Approximations in Engineering Design Lecture 11 - Types of surrogate - Polynomial models
Link NOC:Surrogates and Approximations in Engineering Design Lecture 12 - Radial basis function - 1
Link NOC:Surrogates and Approximations in Engineering Design Lecture 13 - Radial basis function - 2
Link NOC:Surrogates and Approximations in Engineering Design Lecture 14 - Kriging - 1
Link NOC:Surrogates and Approximations in Engineering Design Lecture 15 - Kriging - 2
Link NOC:Surrogates and Approximations in Engineering Design Lecture 16 - Metamodels for Safe and Efficient Automotive Structures
Link NOC:Surrogates and Approximations in Engineering Design Lecture 17 - Exploration and Exploitation in Surrogates
Link NOC:Surrogates and Approximations in Engineering Design Lecture 18 - Errors Based Exploration
Link NOC:Surrogates and Approximations in Engineering Design Lecture 19 - Ensemble of Surrogates
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 1 - Concept of Steel Quality
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 2 - Typical Examples of Surface Defects
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 3 - Origin of Common Quality Problems
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 4 - Present Scenario on Quality Demands
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 5 - Control of Residuals and Impact on Quality
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 6 - Non-Metallic Inclusions
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 7 - Evaluation of Residuals and Inclusions
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 8 - Cleanliness Requirements for Different applications
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 9 - Limitation of Primary Steelmaking and Importance of secondary Refining
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 10 - Deoxidation
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 11 - Prevention of Slag carryover
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 12 - Desulphurisation
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 13 - Degassing
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 14 - Secondary Refining Processes
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 15 - Injection of Calcium
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 16 - Decarburisation
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 17 - Cleanliness Measures in Ladle and Tundish
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 18 - Cleanliness Measures in Mould
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 19 - Different Routes and Temperature Control
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 20 - Nature and Distribution of Entrapments in Casting
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 21 - Sources of Exogenous Entrapments
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 22 - Effect of Vertical vis-a-vis Curved Mould
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 23 - Quality of Cast Product
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 24 - Role of Concast Process, Caster Design and Steel Grade
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 25 - Primary Cooling in Caster Mould
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 26 - Heat Transfer in Mould
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 27 - Cast Structure and Dendrite Size
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 28 - Role of Mould Oscillation
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 29 - Role of Chemistry - Part I
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 30 - Role of Chemistry - Part II
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 31 - Role of Segregation - Part I
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 32 - Role of Segregation - Part II
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 33 - Deleterious Effect of Phosphorus
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 34 - Strength of Solidifying Strand
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 35 - Brittle Zone Near Solidus
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 36 - Strength and Toughness of Solid Shell
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 37 - Role of Chemistry on Solidification Behaviour
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 38 - Sticking vis-a-vis Depression Behaviour
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 39 - Role of Chemistry on Bulging or Depression Tendency - Part I
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 40 - Role of Chemistry on Bulging or Depression Tendency - Part II
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 41 - Effect of Cast Grain Size
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 42 - Brittle Temperature Regions
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 43 - Role of Secondary Cooling - Part 1
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 44 - Role of Secondary Cooling - Part 2
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 45 - Typical Cracks and Defects - Part I
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 46 - Typical Cracks and Defects - Part II
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 47 - Remedial Measures to Control Defects - Part I
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 48 - Remedial Measures to Control Defects - Part II
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 49 - Remedial Measures to Control Defects - Part III
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 50 - Grade - Specific Casting Parameters - Part I
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 51 - Grade - Specific Casting Parameters - Part II
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 52 - Identification of Genesis of Quality Problems Through Metallographic Investigation - Part I
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 53 - Identification of Genesis of Quality Problems Through Metallographic Investigation - Part II
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 54 - Identification of Genesis of Quality Problems Through Metallographic Investigation - Part III
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 55 - Some Examples of Quality Problems
Link Theory of Mechanism Lecture 1 - Review of Kinematics Fundamentals-I
Link Theory of Mechanism Lecture 2 - Links, Pairs, Kinematic Chains; Planar Mobility Criterion
Link Theory of Mechanism Lecture 3 - Mobility of Mechanisms, Grubler's Criterion and Applications
Link Theory of Mechanism Lecture 4 - Inversions, Grashof Criterion, Kinematic equivalence
Link Theory of Mechanism Lecture 5 - Linkage Synthesis Classification, 2-position Motion Generation
Link Theory of Mechanism Lecture 6 - Driver dyad, Quick-return synthesis - I
Link Theory of Mechanism Lecture 7 - Quick-return synthesis - II, 3-position Motion Generation
Link Theory of Mechanism Lecture 8 - Specified fixed pivots, Path generation
Link Theory of Mechanism Lecture 9 - Function generation
Link Theory of Mechanism Lecture 10 - Function generation using relative poles
Link Theory of Mechanism Lecture 11 - Structural Error, and Chebyshev Spacing
Link Theory of Mechanism Lecture 12 - Chebyshev Spacing
Link Theory of Mechanism Lecture 13 - Analytical Linkage Synthesis-I: Vector Loop Closure, Freudenstein's method
Link Theory of Mechanism Lecture 14 - Analytical Linkage Synthesis-II: Bloch's method, Driver Dyad
Link Theory of Mechanism Lecture 15 - Four-bar Position Analysis, Dyad or Standard Form Synthesis
Link Theory of Mechanism Lecture 16 - Dyad Form Synthesis: Motion Generation
Link Theory of Mechanism Lecture 17 - Dyad Form Synthesis: Path and Function Generation
Link Theory of Mechanism Lecture 18 - Dyad Form Synthesis: Multi loop linakges
Link Theory of Mechanism Lecture 19 - Dyad Form Synthesis: Four Position Motion Generation
Link Theory of Mechanism Lecture 20 - Coupler Curves - I
Link Theory of Mechanism Lecture 21 - Coupler Curves - II, Fixed and Moving Centrodes
Link Theory of Mechanism Lecture 22 - Coupler Curves - III, Symmetrical Coupler Curves
Link Theory of Mechanism Lecture 23 - Roberts-Chebyshev Theorem
Link Theory of Mechanism Lecture 24 - Cognates
Link Theory of Mechanism Lecture 25 - Velocity Analysis: Review of Velocity Polygons
Link Theory of Mechanism Lecture 26 - Velocity Analysis: Velocity Polygons (Continued...) and Instant Centres
Link Theory of Mechanism Lecture 27 - Velocity Analysis: Auxiliary Point Method
Link Theory of Mechanism Lecture 28 - Auxiliary Point Method: (Continued...)
Link Theory of Mechanism Lecture 29 - Velocity and Acceleration Analysis: Analytical Method
Link Theory of Mechanism Lecture 30 - Acceleration Analysis: Analytical Method (Continued...)
Link Theory of Mechanism Lecture 31 - Acceleration Analysis: Auxiliary Point Method
Link Theory of Mechanism Lecture 32 - Force Analysis of Mechanisms, Mechanical Advantage
Link Theory of Mechanism Lecture 33 - Force Analysis of Mechanisms - II
Link Theory of Mechanism Lecture 34 - Balancing of Mechanisms using Counterweights
Link Theory of Mechanism Lecture 35 - Balancing of Mechanisms using Springs
Link Theory of Mechanism Lecture 36 - Spatial Mechanisms
Link Theory of Mechanism Lecture 37 - Introduction to the Kinematics of Spatial Mechanisms
Link NOC:Engineering Mechanics Lecture 1 - Introduction to Engineering Mechanics - I
Link NOC:Engineering Mechanics Lecture 2 - Introduction to Engineering Mechanics - II
Link NOC:Engineering Mechanics Lecture 3 - Force Systems - I
Link NOC:Engineering Mechanics Lecture 4 - Force Systems - II
Link NOC:Engineering Mechanics Lecture 5 - Equilibrium of Rigid bodies - I
Link NOC:Engineering Mechanics Lecture 6 - Equilibrium of Rigid bodies - II
Link NOC:Engineering Mechanics Lecture 7 - Trusses - I
Link NOC:Engineering Mechanics Lecture 8 - Trusses - II
Link NOC:Engineering Mechanics Lecture 9 - Trusses - III
Link NOC:Engineering Mechanics Lecture 10 - Beams - I
Link NOC:Engineering Mechanics Lecture 11 - Beams - II
Link NOC:Engineering Mechanics Lecture 12 - Beams - III
Link NOC:Engineering Mechanics Lecture 13 - Beams - IV
Link NOC:Engineering Mechanics Lecture 14 - Virtual Work - I
Link NOC:Engineering Mechanics Lecture 15 - Virtual Work - II
Link NOC:Engineering Mechanics Lecture 16 - Energy Relations
Link NOC:Engineering Mechanics Lecture 17 - Review Before Quiz - I
Link NOC:Engineering Mechanics Lecture 18 - Friction - I
Link NOC:Engineering Mechanics Lecture 19 - Friction - II
Link NOC:Engineering Mechanics Lecture 20 - Friction - III
Link NOC:Engineering Mechanics Lecture 21 - Particle Dynamics
Link NOC:Engineering Mechanics Lecture 22 - Circular Motion
Link NOC:Engineering Mechanics Lecture 23 - Absolute Motion
Link NOC:Engineering Mechanics Lecture 24 - Relative Motion - I
Link NOC:Engineering Mechanics Lecture 25 - Relative Motion - II
Link NOC:Engineering Mechanics Lecture 26 - Relative Motion - III and Instantaneous Center
Link NOC:Engineering Mechanics Lecture 27 - Rotating frame of reference I - Velocity
Link NOC:Engineering Mechanics Lecture 28 - Rotating frame of reference II - Acceleration
Link NOC:Engineering Mechanics Lecture 29 - Rotating frame of reference III - Choice of rotating frame of reference
Link NOC:Engineering Mechanics Lecture 30 - RFR- IV Crank and slotted bar
Link NOC:Engineering Mechanics Lecture 31 - RFR-V Understanding Coriolis Acceleration
Link NOC:Engineering Mechanics Lecture 32 - Kinetics - I
Link NOC:Engineering Mechanics Lecture 33 - Kinetics - II
Link NOC:Engineering Mechanics Lecture 34 - Kinetics - III
Link NOC:Engineering Mechanics Lecture 35 - 3D Kinematics - I
Link NOC:Engineering Mechanics Lecture 36 - 3D Kinematics - II
Link NOC:Engineering Mechanics Lecture 37 - 3D Kinematics - III
Link NOC:Foundations of Computational Materials Modelling Lecture 1 - Introduction to the course
Link NOC:Foundations of Computational Materials Modelling Lecture 2 - Some applications of MD simulations
Link NOC:Foundations of Computational Materials Modelling Lecture 3 - Introduction to Bravais lattices and constructing simple crystals with MATLAB
Link NOC:Foundations of Computational Materials Modelling Lecture 4 - Introduction to symmetry - 1
Link NOC:Foundations of Computational Materials Modelling Lecture 5 - Symmetry Elements - 1
Link NOC:Foundations of Computational Materials Modelling Lecture 6 - Symmetry elements - 2
Link NOC:Foundations of Computational Materials Modelling Lecture 7 - Plane groups and their Hermann-Maugin (HM) symbols
Link NOC:Foundations of Computational Materials Modelling Lecture 8 - Glide reflection; Examples of writing point group symbols; Wyckoff positions
Link NOC:Foundations of Computational Materials Modelling Lecture 9 - Generating 2D crystal with MATLAB using Bilbao crystallography website
Link NOC:Foundations of Computational Materials Modelling Lecture 10 - Symmetry of space groups
Link NOC:Foundations of Computational Materials Modelling Lecture 11 - Hernann maugin symbols of space groups
Link NOC:Foundations of Computational Materials Modelling Lecture 12 - Translational symmetry operators
Link NOC:Foundations of Computational Materials Modelling Lecture 13 - The Space groups
Link NOC:Foundations of Computational Materials Modelling Lecture 14 - Generation of crystals
Link NOC:Foundations of Computational Materials Modelling Lecture 15 - Generation of monoclinic lattice
Link NOC:Foundations of Computational Materials Modelling Lecture 16 - Introduction to Statistical Mechanica - 1
Link NOC:Foundations of Computational Materials Modelling Lecture 17 - Introduction to Statistical Mechanica - 2
Link NOC:Foundations of Computational Materials Modelling Lecture 18 - Introduction to Statistical Mechanics - 3
Link NOC:Foundations of Computational Materials Modelling Lecture 19 - Statistical mechanics - 1
Link NOC:Foundations of Computational Materials Modelling Lecture 20 - Statistical mechanics - 2
Link NOC:Foundations of Computational Materials Modelling Lecture 21 - Basic introduction to mechanics
Link NOC:Foundations of Computational Materials Modelling Lecture 22 - Introduction to phase space
Link NOC:Foundations of Computational Materials Modelling Lecture 23 - Introduction to phase average and time average
Link NOC:Foundations of Computational Materials Modelling Lecture 24 - Canonical ensemble; Partition function
Link NOC:Foundations of Computational Materials Modelling Lecture 25 - Basic introduction to MD
Link NOC:Foundations of Computational Materials Modelling Lecture 26 - Input script for LAMMPS - 1
Link NOC:Foundations of Computational Materials Modelling Lecture 27 - Input script for LAMMPS - 2
Link NOC:Foundations of Computational Materials Modelling Lecture 28 - Input script for LAMMPS - 3
Link NOC:Foundations of Computational Materials Modelling Lecture 29 - Input script for LAMMPS - 4
Link NOC:Foundations of Computational Materials Modelling Lecture 30 - LAMMPS exercises - 1
Link NOC:Foundations of Computational Materials Modelling Lecture 31 - LAMMPS exercises - 2
Link NOC:Foundations of Computational Materials Modelling Lecture 32 - LAMMPS exercises - 3
Link NOC:Foundations of Computational Materials Modelling Lecture 33 - LAMMPS exercises - 4
Link NOC:Foundations of Computational Materials Modelling Lecture 34 - LAMMPS exercises - 5
Link NOC:Fundamentals of Combustion for Propulsion Lecture 1 - Introduction
Link NOC:Fundamentals of Combustion for Propulsion Lecture 2 - Combustion processes in ICE and Gas turbine engines
Link NOC:Fundamentals of Combustion for Propulsion Lecture 3 - Combustion in solid and liquid rocket motors
Link NOC:Fundamentals of Combustion for Propulsion Lecture 4 - Equilibrium
Link NOC:Fundamentals of Combustion for Propulsion Lecture 5 - Chemical kinetics, Equilibrium vs rate controlled
Link NOC:Fundamentals of Combustion for Propulsion Lecture 6 - Demonstration of NASA-CEA
Link NOC:Fundamentals of Combustion for Propulsion Lecture 7 - Premixed and diffusion flames: principal features and differences - Part I
Link NOC:Fundamentals of Combustion for Propulsion Lecture 8 - Premixed and diffusion flames: principal features and differences - Part II
Link NOC:Fundamentals of Combustion for Propulsion Lecture 9 - Quenching, flammability and other limit phenomena
Link NOC:Fundamentals of Combustion for Propulsion Lecture 10 - Conservation equations
Link NOC:Fundamentals of Combustion for Propulsion Lecture 11 - Integral Analysis of flame
Link NOC:Fundamentals of Combustion for Propulsion Lecture 12 - Solid propellant combustion
Link NOC:Fundamentals of Combustion for Propulsion Lecture 13 - Erosive burning
Link NOC:Fundamentals of Combustion for Propulsion Lecture 14 - Instability in solid rockets
Link NOC:Fundamentals of Combustion for Propulsion Lecture 15 - Analysis of p-t traces - Part II
Link NOC:Fundamentals of Combustion for Propulsion Lecture 16 - Statistical representation of composite propellants in HeQu1D - geometry and thermochemistry
Link NOC:Fundamentals of Combustion for Propulsion Lecture 17 - HeQu1D model - Parameter estimation
Link NOC:Fundamentals of Combustion for Propulsion Lecture 18 - Effects of Al - extended HeQu1D model
Link NOC:Fundamentals of Combustion for Propulsion Lecture 19 - Instability in solid rockets - II
Link NOC:Fundamentals of Combustion for Propulsion Lecture 20 - Tutorial
Link NOC:Fundamentals of Combustion for Propulsion Lecture 21 - Liquid propellant rockets - Part I
Link NOC:Fundamentals of Combustion for Propulsion Lecture 22 - Liquid propellant rockets - Part II
Link NOC:Fundamentals of Combustion for Propulsion Lecture 23 - Combustion in liquid rockets
Link NOC:Fundamentals of Combustion for Propulsion Lecture 24 - Instabilities in liquid rockets and gas turbine after burners
Link NOC:Fundamentals of Combustion for Propulsion Lecture 25 - CFD modeling aspects - Fundamentals
Link NOC:Fundamentals of Combustion for Propulsion Lecture 26 - CFD modeling aspects - Modeling appraches
Link NOC:Fundamentals of Combustion for Propulsion Lecture 27 - Effect of turbulence on flames
Link NOC:Fundamentals of Combustion for Propulsion Lecture 28 - Scramjets - Part I
Link NOC:Fundamentals of Combustion for Propulsion Lecture 29 - Scramjets - Part II
Link NOC:Fundamentals of Combustion for Propulsion Lecture 30 - Summary - Premixed flames
Link NOC:Fundamentals of Combustion for Propulsion Lecture 31 - Summary - Non-premixed flames
Link NOC:Fundamentals of Combustion for Propulsion Lecture 32 - Summary - Solid rocket propulsion
Link NOC:Fundamentals of Combustion for Propulsion Lecture 33 - Additional Insights
Link NOC:Basics of Materials Engineering Lecture 1 - Introduction
Link NOC:Basics of Materials Engineering Lecture 2 - Material Property Landscape
Link NOC:Basics of Materials Engineering Lecture 3 - Crystal Structure-1 (Platonic Solids)
Link NOC:Basics of Materials Engineering Lecture 4 - Crystal Structure-2 (Unit Cell, Lattice, Crystal)
Link NOC:Basics of Materials Engineering Lecture 5 - Crystal Structure-3 (Bravais lattice, Symmetry in Crystals)
Link NOC:Basics of Materials Engineering Lecture 6 - Crystal Structure-4 (Miller Indices for Crystallographic Points and Directions)
Link NOC:Basics of Materials Engineering Lecture 7 - Crystal Structure-5 (Miller-Brvais Indices, Linear and Planar Density)
Link NOC:Basics of Materials Engineering Lecture 8 - Crystal Structure-6 (Planar desnity, Close-Packed Structures, Stacking Faults)
Link NOC:Basics of Materials Engineering Lecture 9 - Crystal Structure-7 (Single Crystal and Polycrystalline Materials)
Link NOC:Basics of Materials Engineering Lecture 10 - Crystal Structure-8 (X-Ray Diffraction and Determination of Structure)
Link NOC:Basics of Materials Engineering Lecture 11 - Defects in Crystalline Materials-1 (Types of Crystalline Defects)
Link NOC:Basics of Materials Engineering Lecture 12 - Defects in Crystalline Materials-1 (Point Defects)
Link NOC:Basics of Materials Engineering Lecture 13 - Defects in Crystalline Materials-1 (Equilibrium Concentration of Vacancies)
Link NOC:Basics of Materials Engineering Lecture 14 - Defects in Crystalline Materials-1 (Theoretical Shear Strength)
Link NOC:Basics of Materials Engineering Lecture 15 - Defects in Crystalline Materials-2 (Effect of Point Defects)
Link NOC:Basics of Materials Engineering Lecture 16 - Defects in Crystalline Materials-2 (Point Defects and Solid Solutions)
Link NOC:Basics of Materials Engineering Lecture 17 - Defects in Crystalline Materials-3 (Line Defects, Types of Dislocations and their Characteristics)
Link NOC:Basics of Materials Engineering Lecture 18 - Defects in Crystalline Materials-4 (Slip Systems, Burger's Vector and Dislocation Motion)
Link NOC:Basics of Materials Engineering Lecture 19 - Defects in Crystalline Materials-4 (Slip in Single Crystals and Resolved Shear Stress)
Link NOC:Basics of Materials Engineering Lecture 20 - Defects in Crystalline Materials-5 (Different Stages of Slip in Single Crystla Materials)
Link NOC:Basics of Materials Engineering Lecture 21 - Defects in Crystalline Materials-5 (Geometry and Slip, Stress Field Around a Dislocation and Deformation Twinning)
Link NOC:Basics of Materials Engineering Lecture 22 - Defects in Crystalline Materials-6 (Twinning, Interfacial Defects and Volume Defects)
Link NOC:Basics of Materials Engineering Lecture 23 - Defects in Crystalline Materials-6 (Strengthening Mechanisms)
Link NOC:Basics of Materials Engineering Lecture 24 - Defects in Crystalline Materials-7 (Plastic deformation in polycrystalline materials, Softening Mechanisms)
Link NOC:Basics of Materials Engineering Lecture 25 - Mechanical Properties of Materials (Concept of Stress Tensor)
Link NOC:Basics of Materials Engineering Lecture 26 - Mechanical Properties (Tension Test-Elastic Deformation)
Link NOC:Basics of Materials Engineering Lecture 27 - Mechanical Properties (Tension Test - Plastic Deformation)
Link NOC:Basics of Materials Engineering Lecture 28 - Mechanical Properties (Tension Test - Plastic Deformation)
Link NOC:Basics of Materials Engineering Lecture 29 - Mechanical Properties (Hardness Test)
Link NOC:Basics of Materials Engineering Lecture 30 - Static Failure Theories (Introduction, Definition of Failure)
Link NOC:Basics of Materials Engineering Lecture 31 - Static Failure Theories (General form of failure theory, Stress tensor, Principal stress)
Link NOC:Basics of Materials Engineering Lecture 32 - Static Failure Theories (Distortion Energy Theory)
Link NOC:Basics of Materials Engineering Lecture 33 - Static Failure Theories (Maximum Shear Stress Theory)
Link NOC:Basics of Materials Engineering Lecture 34 - Static Failure Theories (Design Problems)
Link NOC:Basics of Materials Engineering Lecture 35 - Static Failure Theories (Failure of Brittle Materials)
Link NOC:Basics of Materials Engineering Lecture 36 - Static Failure Theories (Coulomb-Mohr and Modified Coulomb-Mohr)
Link NOC:Basics of Materials Engineering Lecture 37 - Static Failure Theories (Notches and Stress Concentration)
Link NOC:Basics of Materials Engineering Lecture 38 - Introduction to Fracture Mechanics, Griffith's Analysis of a Cracked Body
Link NOC:Basics of Materials Engineering Lecture 39 - Fracture Mechanics (Energy Release Rate)
Link NOC:Basics of Materials Engineering Lecture 40 - Fracture Mechanics (Crack Resistance, Stress Intensity Factor, Fracture Toughness)
Link NOC:Basics of Materials Engineering Lecture 41 - Fatigue Failure of Materials (Introduction, Historical Events, S-N Diagram)
Link NOC:Basics of Materials Engineering Lecture 42 - Fatigue Failure of Materials (S-N Diagram, Types of Time Varying Loads)
Link NOC:Basics of Materials Engineering Lecture 43 - Fatigue Failure of Materials (High Cycle Fatigue, Low Cycle Fatigue, Stress Ratio, Amplitude Ratio)
Link NOC:Basics of Materials Engineering Lecture 44 - Fatigue Failure of Materials (Rotating Beam Bending Test, Estimated S-N diagram)
Link NOC:Basics of Materials Engineering Lecture 45 - Fatigue Failure Theories (Fatigue strength correction factors)
Link NOC:Basics of Materials Engineering Lecture 46 - Problems on Fatigue Failure-1 (S-N diagram and Corrected endurance strength)
Link NOC:Basics of Materials Engineering Lecture 47 - Fatigue Failure of Materials (Features of Fatigue Failure; Factor of Safety in Life and Stress)
Link NOC:Basics of Materials Engineering Lecture 48 - Fatigue Failure of Materials (Effect of Mean Stress)
Link NOC:Basics of Materials Engineering Lecture 49 - Fatigue Failure of Materials (Multiaxial Fatigue and Variable Amplitude Loading)
Link NOC:Basics of Materials Engineering Lecture 50 - Fatigue Failure of Materials (Fatigue Stress Concentration Factor)
Link NOC:Basics of Materials Engineering Lecture 51 - Fatigue Failure of Materials (Fatigue Crack Growth, Paris' law)
Link NOC:Basics of Materials Engineering Lecture 52 - Problems on Fatigue Failure-2 (Effect of mean stress, Fatigue crack growth)
Link NOC:Basics of Materials Engineering Lecture 53 - Problems on Fatigue Failure-3 (Effect of Notch, Multiaxial Loading)
Link NOC:Basics of Materials Engineering Lecture 54 - Phase Diagrams (Introduction)
Link NOC:Basics of Materials Engineering Lecture 55 - Phase Diagrams (Language of Phase Diagrams, Types of Binary Phase Alloys)
Link NOC:Basics of Materials Engineering Lecture 56 - Phase Diagrams (Tie line, Lever Rule, Indentifcation of compositions and weight fractions in two-phase regions)
Link NOC:Basics of Materials Engineering Lecture 57 - Phase Diagrams (Type 1: Isomorphous Alloys, Microstructure evolution in Equilibrium and Noon equilibrium cooling)
Link NOC:Basics of Materials Engineering Lecture 58 - Phase Diagrams (Conguent Melting Alloys, Type II Alloys, Eutectic Reaction)
Link NOC:Basics of Materials Engineering Lecture 59 - Phase Diagrams (Type III Alloys with Partial Solubility in Solid State)
Link NOC:Basics of Materials Engineering Lecture 60 - Phase Diagrams (Conguent melting alloys, Peritectic Reaction, Monotectic Reaction)
Link NOC:Basics of Materials Engineering Lecture 61 - Phase Diagrams (Allotropy, Eutectoid and Peritectoid Reactions)
Link NOC:Basics of Materials Engineering Lecture 62 - Phase Diagrams (Iron-Iron Carbide Phase Diagram)
Link NOC:Basics of Materials Engineering Lecture 63 - Kinetics of Phase Transformations (Homogeneous Nucleation)
Link NOC:Basics of Materials Engineering Lecture 64 - Kinetics of Phase Transformations (Heterogeneous Nucleation)
Link NOC:Basics of Materials Engineering Lecture 65 - Isothermal Transformation Diagram
Link NOC:Basics of Materials Engineering Lecture 66 - Martensite Transformation, C-C-T Diagram
Link NOC:Basics of Materials Engineering Lecture 67 - Heat Treatment of Steels (Annealing and Normalizing)
Link NOC:Computational Fluid Dynamics using Finite Volume Method Lecture 1 - Review of governing equations: Conservation of mass
Link NOC:Computational Fluid Dynamics using Finite Volume Method Lecture 2 - Review of governing equations: Conservation of momentum
Link NOC:Computational Fluid Dynamics using Finite Volume Method Lecture 3 - Review of governing equations: Conservation of energy
Link NOC:Computational Fluid Dynamics using Finite Volume Method Lecture 4 - Review of governing equations: Navier-Stokes equations and energy equation
Link NOC:Computational Fluid Dynamics using Finite Volume Method Lecture 5 - Review of governing equations: General scalar transport equation
Link NOC:Computational Fluid Dynamics using Finite Volume Method Lecture 6 - Review of governing equations: classification of PDEs
Link NOC:Computational Fluid Dynamics using Finite Volume Method Lecture 7 - Overview of Numerical Methods: Finite Difference Method
Link NOC:Computational Fluid Dynamics using Finite Volume Method Lecture 8 - Overview of Numerical Methods: Finite Volume Method
Link NOC:Computational Fluid Dynamics using Finite Volume Method Lecture 9 - Overview of Numerical Methods: Solution of linear algebraic equations
Link NOC:Computational Fluid Dynamics using Finite Volume Method Lecture 10 - Finite Volume Method for Diffusion Equation: Discretization of 1D diffusion equation
Link NOC:Computational Fluid Dynamics using Finite Volume Method Lecture 11 - Finite Volume Method for Diffusion Equation: Discretization of 2D diffusion equation
Link NOC:Computational Fluid Dynamics using Finite Volume Method Lecture 12 - Finite Volume Method for Diffusion Equation: Boundary conditions for 2D diffusion equation
Link NOC:Computational Fluid Dynamics using Finite Volume Method Lecture 13 - Finite Volume Method for Diffusion Equation: Discretization of 3D diffusion equation, mixed boundary conditions
Link NOC:Computational Fluid Dynamics using Finite Volume Method Lecture 14 - Finite Volume Method for Diffusion Equation: Tri-Diagonal Matrix Algorithm
Link NOC:Computational Fluid Dynamics using Finite Volume Method Lecture 15 - Finite Volume Method for Diffusion Equation: Linearization of source term, line-by-line TDMA
Link NOC:Computational Fluid Dynamics using Finite Volume Method Lecture 16 - Finite Volume Method for Diffusion Equation: Problem solving using TDMA
Link NOC:Computational Fluid Dynamics using Finite Volume Method Lecture 17 - Finite Volume Method for Diffusion Equation: Problem solving using line-by-line TDMA
Link NOC:Computational Fluid Dynamics using Finite Volume Method Lecture 18 - Finite Volume Method for Diffusion Equation: Steady diffusion in polar and axisymmetric coordinates
Link NOC:Computational Fluid Dynamics using Finite Volume Method Lecture 19 - Finite Volume Method for Diffusion Equation: Discretization of unsteady diffusion equation
Link NOC:Computational Fluid Dynamics using Finite Volume Method Lecture 20 - Finite Volume Method for Diffusion Equation: Unsteady diffusion time-stepping schemes
Link NOC:Computational Fluid Dynamics using Finite Volume Method Lecture 21 - Finite Volume Method for Diffusion Equation: Unsteady diffusion time-stepping schemes and Truncation errors of the FV schemes
Link NOC:Computational Fluid Dynamics using Finite Volume Method Lecture 22 - Finite Volume Method for Diffusion Equation: Truncation errors and stability analysis
Link NOC:Computational Fluid Dynamics using Finite Volume Method Lecture 23 - Finite Volume Method for Diffusion Equation: Stability analysis and steady diffusion in unstructured meshes.
Link NOC:Computational Fluid Dynamics using Finite Volume Method Lecture 24 - Finite Volume Method for Diffusion Equation: Steady diffusion in unstructured meshes - Part 1
Link NOC:Computational Fluid Dynamics using Finite Volume Method Lecture 25 - Finite Volume Method for Diffusion Equation: Steady diffusion in unstructured meshes - Part 2
Link NOC:Computational Fluid Dynamics using Finite Volume Method Lecture 26 - Finite Volume Method for Diffusion Equation: Steady diffusion in unstructured meshes - Part 3
Link NOC:Computational Fluid Dynamics using Finite Volume Method Lecture 27 - Finite Volume Method for Diffusion Equation: Steady diffusion in unstructured meshes - Part 4
Link NOC:Computational Fluid Dynamics using Finite Volume Method Lecture 28 - Finite Volume Method for Diffusion Equation: Steady diffusion in unstructured meshes - Part 5
Link NOC:Computational Fluid Dynamics using Finite Volume Method Lecture 29 - Finite Volume Method for Convection and Diffusion: Discretization of steady convection equation
Link NOC:Computational Fluid Dynamics using Finite Volume Method Lecture 30 - Finite Volume Method for Convection and Diffusion: Discretization of steady convection equation
Link NOC:Computational Fluid Dynamics using Finite Volume Method Lecture 31 - Finite Volume Method for Convection and Diffusion: Discretization of steady and unsteady convection equation
Link NOC:Computational Fluid Dynamics using Finite Volume Method Lecture 32 - Finite Volume Method for Convection and Diffusion: Discretization of unsteady convection equation
Link NOC:Computational Fluid Dynamics using Finite Volume Method Lecture 33 - Finite Volume Method for Convection and Diffusion: Discretization of convection-diffusion equation on unstructured mesh
Link NOC:Computational Fluid Dynamics using Finite Volume Method Lecture 34 - Finite Volume Method for Convection-diffusion and fluid flow calculations
Link NOC:Computational Fluid Dynamics using Finite Volume Method Lecture 35 - Finite Volume Method for Fluid Flow Calculations: The staggered grid approach
Link NOC:Computational Fluid Dynamics using Finite Volume Method Lecture 36 - Finite Volume Method for Fluid Flow Calculations: SIMPLE algorithm - Part 1
Link NOC:Computational Fluid Dynamics using Finite Volume Method Lecture 37 - Finite Volume Method for Fluid Flow Calculations: SIMPLE algorithm - Part 2
Link NOC:Computational Fluid Dynamics using Finite Volume Method Lecture 38 - Finite Volume Method for Fluid Flow Calculations: SIMPLE algorithm - Part 3
Link NOC:Computational Fluid Dynamics using Finite Volume Method Lecture 39 - Finite Volume Method for Fluid Flow Calculations: SIMPLE-Revised and SIMPLE-Corrected algorithm
Link NOC:Computational Fluid Dynamics using Finite Volume Method Lecture 40 - Finite Volume Method for Fluid Flow Calculations: SIMPLE algorithm for Colocated mesh - Part 1
Link NOC:Computational Fluid Dynamics using Finite Volume Method Lecture 41 - Finite Volume Method for Fluid Flow Calculations: SIMPLE algorithm for Colocated mesh - Part 2
Link NOC:Computational Fluid Dynamics using Finite Volume Method Lecture 42 - Finite Volume Method for Fluid Flow Calculations: SIMPLE-Colocated algorithm for Unstructured mesh
Link NOC:Wheeled Mobile Robots Lecture 1 - Introduction to Mobile Robots and Manipulators
Link NOC:Wheeled Mobile Robots Lecture 2 - Introduction to Locomotion and Types of Locomotion
Link NOC:Wheeled Mobile Robots Lecture 3 - Introduction to Mobile Robot Kinematics
Link NOC:Wheeled Mobile Robots Lecture 4 - Degree of Maneuverability and Types of Wheels
Link NOC:Wheeled Mobile Robots Lecture 5 - Kinematic Simulation of a Mobile Robot (Land-based)
Link NOC:Wheeled Mobile Robots Lecture 6 - Kinematic Simulation and Motion Animation of a Mobile Robot (Land-based)
Link NOC:Wheeled Mobile Robots Lecture 7 - A Generalized Wheel (Kinematic) Model
Link NOC:Wheeled Mobile Robots Lecture 8 - Examples related to the Generalized Wheel (Kinematic) Model
Link NOC:Wheeled Mobile Robots Lecture 9 - Holonomic and Non-holonomic Mobile Robots
Link NOC:Wheeled Mobile Robots Lecture 10 - Kinematic Simulation of Wheeled Mobile Robots - Part 1
Link NOC:Wheeled Mobile Robots Lecture 11 - Kinematic Simulation of Wheeled Mobile Robots - Part 2
Link NOC:Wheeled Mobile Robots Lecture 12 - Kinematic Simulation of Wheeled Mobile Robots - Part 3
Link NOC:Wheeled Mobile Robots Lecture 13 - Mobile Robot Dynamics - Part 1
Link NOC:Wheeled Mobile Robots Lecture 14 - Mobile Robot Dynamics - Part 2
Link NOC:Wheeled Mobile Robots Lecture 15 - Equation of Motion and Dynamic Simulation of a Mobile Robot
Link NOC:Wheeled Mobile Robots Lecture 16 - Dynamic Models of Wheeled Mobile Robots with Wheel Configurations
Link NOC:Wheeled Mobile Robots Lecture 17 - Kinematic and Dynamic Models of a Mobile base with Four-Independent Steerable Power Wheels
Link NOC:Wheeled Mobile Robots Lecture 18 - Sensing and Perception
Link NOC:Wheeled Mobile Robots Lecture 19 - Sensors and Sensing
Link NOC:Wheeled Mobile Robots Lecture 20 - Commonly used sensors - 1
Link NOC:Wheeled Mobile Robots Lecture 21 - Commonly used sensors - 2
Link NOC:Wheeled Mobile Robots Lecture 22 - Commonly used sensors - 3
Link NOC:Wheeled Mobile Robots Lecture 23 - Sensor Errors and Error modelling
Link NOC:Wheeled Mobile Robots Lecture 24 - Mobile Robot Localisation
Link NOC:Wheeled Mobile Robots Lecture 25 - Map based Localisation
Link NOC:Wheeled Mobile Robots Lecture 26 - Markov Localisation
Link NOC:Wheeled Mobile Robots Lecture 27 - Kalman Filter Localisation
Link NOC:Wheeled Mobile Robots Lecture 28 - SLAM
Link NOC:Wheeled Mobile Robots Lecture 29 - Mobile Robot Navigation
Link NOC:Wheeled Mobile Robots Lecture 30 - Path Planning: Graph Construction
Link NOC:Wheeled Mobile Robots Lecture 31 - Graph Search Methods
Link NOC:Wheeled Mobile Robots Lecture 32 - Path Planning and Obstacle avoidance
Link NOC:Wheeled Mobile Robots Lecture 33 - Introduction to Motion Control of Mobile Robots - Part 1
Link NOC:Wheeled Mobile Robots Lecture 34 - Introduction to Motion Control of Mobile Robots - Part 2
Link NOC:Wheeled Mobile Robots Lecture 35 - Kinematic control of Land-based Mobile Robots
Link NOC:Wheeled Mobile Robots Lecture 36 - Simulation of Land-based Mobile Robots along with Kinematic Control - Part 1
Link NOC:Wheeled Mobile Robots Lecture 37 - Simulation of Land-based Mobile Robots along with Kinematic Control - Part 2
Link NOC:Wheeled Mobile Robots Lecture 38 - Simulation of Land-based Mobile Robots along with Kinematic Control - Part 3
Link NOC:Wheeled Mobile Robots Lecture 39 - Dynamic Control of Mobile Robots
Link NOC:Wheeled Mobile Robots Lecture 40 - Cascaded or Back-stepping Control of Mobile Robots
Link NOC:Wheeled Mobile Robots Lecture 41 - Modern Robotics and Challenges
Link NOC:Wheeled Mobile Robots Lecture 42 - Multiple Mobile Robotic Systems
Link NOC:Wheeled Mobile Robots Lecture 43 - Autonomous Mobile Robots and Mobile Manipulators
Link NOC:Wheeled Mobile Robots Lecture 44 - Legged and Hybrid Robots
Link NOC:Wheeled Mobile Robots Lecture 45 - Underwater and Aerial Robots
Link NOC:Wheeled Mobile Robots Lecture 46 - Healthcare Robots
Link NOC:Fundamentals of Combustion Lecture 1 - Fuel and their properties - Part 1
Link NOC:Fundamentals of Combustion Lecture 2 - Fuel and their properties - Part 2 - Gaseous and Liquid fuels
Link NOC:Fundamentals of Combustion Lecture 3 - Fuel and their properties - Part 3 - Liquid and Solid fuels
Link NOC:Fundamentals of Combustion Lecture 4 - Review of basic thermodynamics of ideal gas mixtures - Part 1
Link NOC:Fundamentals of Combustion Lecture 5 - Review of basic thermodynamics of ideal gas mixtures - Part 2
Link NOC:Fundamentals of Combustion Lecture 6 - Stoichiometry - Part 1
Link NOC:Fundamentals of Combustion Lecture 7 - Stoichiometry - Part 2 - Worked Examples
Link NOC:Fundamentals of Combustion Lecture 8 - Stoichiometry - Part 3 - Worked Examples (Continued...)
Link NOC:Fundamentals of Combustion Lecture 9 - First law and Second law of thermodynamics applied to combustion - Part 1 - Heat Calculation
Link NOC:Fundamentals of Combustion Lecture 10 - First law and Second law of thermodynamics applied to combustion - Part 2 - Enthalpy Calculation
Link NOC:Fundamentals of Combustion Lecture 11 - First law and Second law of thermodynamics applied to combustion - Part 3 - Calculation of flame temperature
Link NOC:Fundamentals of Combustion Lecture 12 - First law and Second law of thermodynamics applied to combustion - Part 4 - Chemical equilibrium
Link NOC:Fundamentals of Combustion Lecture 13 - First law and Second law of thermodynamics applied to combustion - Part 5 - Chemical equilibrium (Continued...)
Link NOC:Fundamentals of Combustion Lecture 14 - First law and Second law of thermodynamics applied to combustion - Part 6 - Worked examples
Link NOC:Fundamentals of Combustion Lecture 15 - First law and Second law of thermodynamics applied to combustion - Part 7 - Worked examples (Continued...)
Link NOC:Fundamentals of Combustion Lecture 16 - Mass transfer basics - Part 1 - Fundamentals
Link NOC:Fundamentals of Combustion Lecture 17 - Mass transfer basics - Part 2 - Calculation of diffusion velocity
Link NOC:Fundamentals of Combustion Lecture 18 - Mass transfer basics - Part 3 - Steady evaporation (The Stefan Problem)
Link NOC:Fundamentals of Combustion Lecture 19 - Mass transfer basics - Part 4 - Steady evaporation of liquid droplet and Worked examples
Link NOC:Fundamentals of Combustion Lecture 20 - Fundamentals of combustion kinetics - Part 1 - Global and elementary reactions
Link NOC:Fundamentals of Combustion Lecture 21 - Fundamentals of combustion kinetics - Part 2 - Reaction rates and equilibrium constant
Link NOC:Fundamentals of Combustion Lecture 22 - Fundamentals of combustion kinetics - Part 3 - Steady state and partial equilibrium approximation
Link NOC:Fundamentals of Combustion Lecture 23 - Fundamentals of combustion kinetics - Part 4 - Worked examples
Link NOC:Fundamentals of Combustion Lecture 24 - Governing equations for reacting flow - Part 1 - Continuity, momentum and species conservation equations
Link NOC:Fundamentals of Combustion Lecture 25 - Governing equations for reacting flow - Part 2 - The energy equation
Link NOC:Fundamentals of Combustion Lecture 26 - Governing equations for reacting flow - Part 3 - Estimation of thermo-physical properties and control of combustion phenomena
Link NOC:Fundamentals of Combustion Lecture 27 - Governing equations for reacting flow - Part 4 - Control of combustion phenomena and simplified chemically reacting system
Link NOC:Fundamentals of Combustion Lecture 28 - Governing equations for reacting flow - Part 5 - Conserved scalars and mixture fraction approach
Link NOC:Fundamentals of Combustion Lecture 29 - Characteristics of combustion flame and detonation - Part 1
Link NOC:Fundamentals of Combustion Lecture 30 - Characteristics of combustion flame and detonation - Part 2
Link NOC:Fundamentals of Combustion Lecture 31 - Characteristics of combustion flame and detonation - Part 3 - Rankine-Hugoniot relation
Link NOC:Fundamentals of Combustion Lecture 32 - Characteristics of combustion flame and detonation - Part 4 - Estimation of detonation velocity and Worked examples
Link NOC:Fundamentals of Combustion Lecture 33 - Laminar Premixed Flames - Part 1 - Laminar flame propagation
Link NOC:Fundamentals of Combustion Lecture 34 - Laminar Premixed Flames - Part 2 - Laminar flame speed variation and Structure of premixed flames
Link NOC:Fundamentals of Combustion Lecture 35 - Laminar Premixed Flames - Part 3 - Flammability limits and Premixed flame theory
Link NOC:Fundamentals of Combustion Lecture 36 - Laminar Premixed Flames - Part 4 - Estimation of laminar flame speed
Link NOC:Fundamentals of Combustion Lecture 37 - Laminar Premixed Flames - Part 5 - Ignition of premixed mixture (Semenov's Analysis)
Link NOC:Fundamentals of Combustion Lecture 38 - Laminar Premixed Flames - Part 6 - Piloted ignition and Flame quenching
Link NOC:Fundamentals of Combustion Lecture 39 - Laminar Premixed Flames - Part 7 - Premixed flame stability
Link NOC:Fundamentals of Combustion Lecture 40 - Laminar Premixed Flames - Part 8 - Stability Maps and Worked examples
Link NOC:Fundamentals of Combustion Lecture 41 - Laminar Diffusion Flames - Part 1 - Theory of gas jets
Link NOC:Fundamentals of Combustion Lecture 42 - Laminar Diffusion Flames - Part 2 - Analysis of gas jets and jet diffusion flames
Link NOC:Fundamentals of Combustion Lecture 43 - Laminar Diffusion Flames - Part 3 - Diffusion flame characteristics and flame structure
Link NOC:Fundamentals of Combustion Lecture 44 - Laminar Diffusion Flames - Part 4 - Diffusion flame structure and Flame regimes
Link NOC:Fundamentals of Combustion Lecture 45 - Laminar Diffusion Flames - Part 5 - Diffusion flame regimes and Flame height correlations
Link NOC:Fundamentals of Combustion Lecture 46 - Laminar Diffusion Flames - Part 6 - Diffusion flame control
Link NOC:Fundamentals of Combustion Lecture 47 - Laminar Diffusion Flames - Part 7 - Diffusion flame configurations (coflow, crossflow and opposed flow flames)
Link NOC:Fundamentals of Combustion Lecture 48 - Laminar Diffusion Flames - Part 8 - Diffusion flame stability and Worked examples
Link NOC:Fundamentals of Combustion Lecture 49 - Turbulent Flames - Part 1 - Characteristics of turbulence
Link NOC:Fundamentals of Combustion Lecture 50 - Turbulent Flames - Part 2 - Turbulent length scales and turbulent stresses
Link NOC:Fundamentals of Combustion Lecture 51 - Turbulent Flames - Part 3 - Axisymmetric turbulent jet
Link NOC:Fundamentals of Combustion Lecture 52 - Turbulent Flames - Part 4 - Turbulent premixed flames and flame regimes
Link NOC:Fundamentals of Combustion Lecture 53 - Turbulent Flames - Part 5 - Turbulent diffusion flames
Link NOC:Fundamentals of Combustion Lecture 54 - Droplet evaporation and combustion - Part 1 - Steady evaporation of liquid droplet
Link NOC:Fundamentals of Combustion Lecture 55 - Droplet evaporation and combustion - Part 2 - Equilibrium under steady evaporation of liquid droplet and droplet combustion
Link NOC:Fundamentals of Combustion Lecture 56 - Droplet evaporation and combustion - Part 3 - Droplet combustion (simplified analysis)
Link NOC:Fundamentals of Combustion Lecture 57 - Droplet evaporation and combustion - Part 4 - Species and temperature profiles
Link NOC:Fundamentals of Combustion Lecture 58 - Droplet evaporation and combustion - Part 5 - Evaluation of mass burning rate and worked examples
Link NOC:Fundamentals of Combustion Lecture 59 - Combustion of carbon particle - Part 1 - Coal combustion
Link NOC:Fundamentals of Combustion Lecture 60 - Combustion of carbon particle - Part 2 - One film model
Link NOC:Fundamentals of Combustion Lecture 61 - Combustion of carbon particle - Part 3 - Two film model and worked examples
Link NOC:Oil Hydraulics and Pneumatics Lecture 1 - Introduction, Learning Objectives, Course Content and References
Link NOC:Oil Hydraulics and Pneumatics Lecture 2 - Merits and Demerits of Fluid Power, Power Transmission Method
Link NOC:Oil Hydraulics and Pneumatics Lecture 3 - Brief History, Application Areas, Major Divisions of Fluid Power System
Link NOC:Oil Hydraulics and Pneumatics Lecture 4 - Introduction to Oil Hydraulics and its Basic Components
Link NOC:Oil Hydraulics and Pneumatics Lecture 5 - Introduction to Pneumatic and its Basic Components, Applications-Stationary and Mobile
Link NOC:Oil Hydraulics and Pneumatics Lecture 6 - Typical Application of Fluid Power System, Status and Development
Link NOC:Oil Hydraulics and Pneumatics Lecture 7 - Pascal's law and its application-Hydraulic jack, Hydraulic brake and Numerical
Link NOC:Oil Hydraulics and Pneumatics Lecture 8 - Pressure Intensifier, Numericals, Air-to-Hydraulic Booster and Bernoulli equation
Link NOC:Oil Hydraulics and Pneumatics Lecture 9 - Applications of Bernoulli equation-Venturi,Torricelli's theorem, Siphon, Continuity equation and flow configuration, Concept of pressures and Gas laws
Link NOC:Oil Hydraulics and Pneumatics Lecture 10 - Introduction to Fluid Power Symbols, Hydraulic lines and Color Coding
Link NOC:Oil Hydraulics and Pneumatics Lecture 11 - Symbols for Functional Units, Hydraulic Pumps, Hydraulic Motors, Cylinders, Air Compressors, Pneumatic Motors and Orifices
Link NOC:Oil Hydraulics and Pneumatics Lecture 12 - Symbols for Filters, Check Valves, DCVs, Spool Actuation methods, PCV, Miscellaneous, Port Configurations
Link NOC:Oil Hydraulics and Pneumatics Lecture 13 - Introduction to Hydraulic Pumps, Facts and Figures, Classifications
Link NOC:Oil Hydraulics and Pneumatics Lecture 14 - Positive Displacement pump and pumping theory
Link NOC:Oil Hydraulics and Pneumatics Lecture 15 - Ideal pump, pump losses, efficiency curve, Constructional features and Operations of External Gear pump
Link NOC:Oil Hydraulics and Pneumatics Lecture 16 - Construction features and operations of Internal Gear Pump, Gerotor Pump and Screw Pump
Link NOC:Oil Hydraulics and Pneumatics Lecture 17 - Numericals on Gear Pump, Tree Structure of Vane Pump
Link NOC:Oil Hydraulics and Pneumatics Lecture 18 - Vane Pump, Pumping theory, Construction and Operation of Unbalanced Vane Pump, Vane loading and solutions, Different Vanes
Link NOC:Oil Hydraulics and Pneumatics Lecture 19 - Variable Displacement Pressure Compensated Vane Pump, Balance Vane Pump, Kinematic Inversion of Vane pump and Numerical
Link NOC:Oil Hydraulics and Pneumatics Lecture 20 - Piston pump, Pumping theory, Constructional features and Operations of Hand Pump-Single acting, Twin single acting, Double acting, Two-stage
Link NOC:Oil Hydraulics and Pneumatics Lecture 21 - Axial Piston Pump- Construction and Operating principles of Bent axis and Swash plate type pump
Link NOC:Oil Hydraulics and Pneumatics Lecture 22 - Radial Piston Pumps- Construction and Operation, Pump failure and Cavitations, Important parameters while selecting Pump, Numerical
Link NOC:Oil Hydraulics and Pneumatics Lecture 23 - Pneumatic Control System-Introduction, Air preparation-Primary and Secondary Air Treatment
Link NOC:Oil Hydraulics and Pneumatics Lecture 24 - Pneumatic Power Source- Compressor, Classification, Air Receiver and Control Methods
Link NOC:Oil Hydraulics and Pneumatics Lecture 25 - Reciprocating Type Air Compressor-Single and Multi-stage Piston Pump, PV Diagram and Work Done
Link NOC:Oil Hydraulics and Pneumatics Lecture 26 - Construction and Operation of Two-stage Reciprocating type Air Compressor, Diaphragm Type Air Compressor, Rotary Vane Compressor, Twin Lobe Air compressor, Screw Compressor, Liquid Ring Compressor and Selection Criteria
Link NOC:Oil Hydraulics and Pneumatics Lecture 27 - Energy Loss and Cost Break Down in Air Preparation Process, Pressure Drop and its Effect
Link NOC:Oil Hydraulics and Pneumatics Lecture 28 - What causes Pressure Drop ?, Minimising Pressure Drop, Air Distribution System- Sizing of Pipes, Tubes, Materials and Fittings, Important Air Flow Parameters
Link NOC:Oil Hydraulics and Pneumatics Lecture 29 - Pressure drop Predictions using Various Empirical Formulae and Nomogram, Best Practices for Compressed Air Piping System and Installation Tips
Link NOC:Oil Hydraulics and Pneumatics Lecture 30 - Need for Air Dryer, Analysis of Moisture Removal from Air, Typical Air Drying Methods, Basic Types of Air Dryers
Link NOC:Oil Hydraulics and Pneumatics Lecture 31 - Construction and Operation of Refrigerated Air dyers, Absorption Dryer, Adsorption Dryer, Membrane Dryer, How to Choose the Right Air Dryer?
Link NOC:Oil Hydraulics and Pneumatics Lecture 32 - Directional Control Valves
Link NOC:Oil Hydraulics and Pneumatics Lecture 33 - Directional Control Valves
Link NOC:Oil Hydraulics and Pneumatics Lecture 34 - Directional Control Valves
Link NOC:Oil Hydraulics and Pneumatics Lecture 35 - Directional Control Valves
Link NOC:Oil Hydraulics and Pneumatics Lecture 36 - Directional Control Valves
Link NOC:Oil Hydraulics and Pneumatics Lecture 37 - Pressure Control Valves
Link NOC:Oil Hydraulics and Pneumatics Lecture 38 - Pressure Control Valves
Link NOC:Oil Hydraulics and Pneumatics Lecture 39 - Pressure Control Valves
Link NOC:Oil Hydraulics and Pneumatics Lecture 40 - Flow Control Valves
Link NOC:Oil Hydraulics and Pneumatics Lecture 41 - Flow Control Valves
Link NOC:Oil Hydraulics and Pneumatics Lecture 42 - Flow Control Valves
Link NOC:Oil Hydraulics and Pneumatics Lecture 43 - Estimation of leakage through spool and housing bore and Numericals on DCV, PCV and FCV
Link NOC:Oil Hydraulics and Pneumatics Lecture 44 - Estimation of leakage through spool and housing bore and Numericals on DCV, PCV and FCV
Link NOC:Oil Hydraulics and Pneumatics Lecture 45 - Hydraulic Motors
Link NOC:Oil Hydraulics and Pneumatics Lecture 46 - Hydraulic Motors
Link NOC:Oil Hydraulics and Pneumatics Lecture 47 - Hydraulic Motors
Link NOC:Oil Hydraulics and Pneumatics Lecture 48 - Hydraulic Motors
Link NOC:Oil Hydraulics and Pneumatics Lecture 49 - Hydraulic Motors
Link NOC:Oil Hydraulics and Pneumatics Lecture 50 - Hydraulic Motors
Link NOC:Oil Hydraulics and Pneumatics Lecture 51 - Hydraulic Cylinders
Link NOC:Oil Hydraulics and Pneumatics Lecture 52 - Hydraulic Cylinders
Link NOC:Oil Hydraulics and Pneumatics Lecture 53 - Hydraulic Cylinders
Link NOC:Oil Hydraulics and Pneumatics Lecture 54 - Hydraulic Cylinders
Link NOC:Oil Hydraulics and Pneumatics Lecture 55 - Hydraulic Cylinders
Link NOC:Oil Hydraulics and Pneumatics Lecture 56 - Numericals on Fluid Power Actuators
Link NOC:Oil Hydraulics and Pneumatics Lecture 57 - Numericals on Fluid Power Actuators
Link NOC:Oil Hydraulics and Pneumatics Lecture 58 - Subsystems: Hydraulic Reservoir, Coolers and Filters
Link NOC:Oil Hydraulics and Pneumatics Lecture 59 - Subsystems: Hydraulic Reservoir, Coolers and Filters
Link NOC:Oil Hydraulics and Pneumatics Lecture 60 - Subsystems: Hydraulic Reservoir, Coolers and Filters
Link NOC:Oil Hydraulics and Pneumatics Lecture 61 - Subsystems: Hydraulic Fluids, Conduits and Simple Numericals
Link NOC:Oil Hydraulics and Pneumatics Lecture 62 - Subsystems: Hydraulic Fluids, Conduits and Simple Numericals
Link NOC:Oil Hydraulics and Pneumatics Lecture 63 - Subsystems: Hydraulic Fluids, Conduits and Simple Numericals
Link NOC:Oil Hydraulics and Pneumatics Lecture 64 - Subsystems: Hydraulic accumulators, Classifications, Applications, Accumulator physics, Maintenance, Numericals
Link NOC:Oil Hydraulics and Pneumatics Lecture 65 - Subsystems: Hydraulic accumulators, Classifications, Applications, Accumulator physics, Maintenance, Numericals
Link NOC:Oil Hydraulics and Pneumatics Lecture 66 - Subsystems: Hydraulic accumulators, Classifications, Applications, Accumulator physics, Maintenance, Numericals
Link NOC:Oil Hydraulics and Pneumatics Lecture 67 - Oil Hydraulic Circuits: Design and Analysis
Link NOC:Oil Hydraulics and Pneumatics Lecture 68 - Oil Hydraulic Circuits: Design and Analysis
Link NOC:Oil Hydraulics and Pneumatics Lecture 69 - Oil Hydraulic Circuits: Design and Analysis
Link NOC:Oil Hydraulics and Pneumatics Lecture 70 - Task Based Selection and Analysis of Oil Hydraulic Circuits
Link NOC:Oil Hydraulics and Pneumatics Lecture 71 - Task Based Selection and Analysis of Oil Hydraulic Circuits
Link NOC:Oil Hydraulics and Pneumatics Lecture 72 - Task Based Selection and Analysis of Oil Hydraulic Circuits
Link NOC:Oil Hydraulics and Pneumatics Lecture 73 - Task Based Selection and Analysis of Oil Hydraulic Circuits
Link NOC:Oil Hydraulics and Pneumatics Lecture 74 - Pneumatic Circuits: Design and Analysis
Link NOC:Oil Hydraulics and Pneumatics Lecture 75 - Pneumatic Circuits: Design and Analysis
Link NOC:Oil Hydraulics and Pneumatics Lecture 76 - Pneumatic Circuits: Design and Analysis
Link NOC:Oil Hydraulics and Pneumatics Lecture 77 - Pneumatic Circuits: Design and Analysis of Multiple Actuators
Link NOC:Oil Hydraulics and Pneumatics Lecture 78 - Pneumatic Circuits: Design and Analysis of Multiple Actuators
Link NOC:Oil Hydraulics and Pneumatics Lecture 79 - Pneumatic Circuits: Design and Analysis of Multiple Actuators
Link NOC:Oil Hydraulics and Pneumatics Lecture 80 - Pump-controlled Hydraulic Systems
Link NOC:Oil Hydraulics and Pneumatics Lecture 81 - Pump-controlled Hydraulic Systems
Link NOC:Oil Hydraulics and Pneumatics Lecture 82 - Pump-controlled Hydraulic Systems
Link NOC:Oil Hydraulics and Pneumatics Lecture 83 - Hydrostatic Transmissions
Link NOC:Oil Hydraulics and Pneumatics Lecture 84 - Hydrostatic Transmissions
Link NOC:Oil Hydraulics and Pneumatics Lecture 85 - Hydrostatic Transmissions
Link NOC:Oil Hydraulics and Pneumatics Lecture 86 - Proportional Valve Technology
Link NOC:Oil Hydraulics and Pneumatics Lecture 87 - Proportional Valve Technology
Link NOC:Oil Hydraulics and Pneumatics Lecture 88 - Proportional Valve Technology
Link NOC:Oil Hydraulics and Pneumatics Lecture 89 - Electro Hydraulic Servo Valve (EHSV)
Link NOC:Oil Hydraulics and Pneumatics Lecture 90 - Electro Hydraulic Servo Valve (EHSV)
Link NOC:Oil Hydraulics and Pneumatics Lecture 91 - Electro Hydraulic Servo Valve (EHSV)
Link NOC:Oil Hydraulics and Pneumatics Lecture 92 - Electro-Hydraulic Actuator (EHA)
Link NOC:Oil Hydraulics and Pneumatics Lecture 93 - Electro-Hydraulic Actuator (EHA)
Link NOC:Oil Hydraulics and Pneumatics Lecture 94 - Modeling and Simulation in Hydraulic Components
Link NOC:Oil Hydraulics and Pneumatics Lecture 95 - Modeling and Simulation in Hydraulic Components
Link NOC:Oil Hydraulics and Pneumatics Lecture 96 - Modeling and Simulation in Hydraulic Components
Link Introduction to Turbomachines Lecture 1 - Introduction
Link Introduction to Turbomachines Lecture 2 - Basic Theroy of Turbomachines - Part 1
Link Introduction to Turbomachines Lecture 3 - Basic Theroy of Turbomachines - Part 2
Link Introduction to Turbomachines Lecture 4 - Basic Theroy of Turbomachines - Part 3
Link Introduction to Turbomachines Lecture 5 - Basic Theroy of Turbomachines - Part 4
Link Introduction to Turbomachines Lecture 6 - Basic Theroy of Turbomachines - Part 5
Link Introduction to Turbomachines Lecture 7 - Basic Theroy of Turbomachines - Part 6
Link Introduction to Turbomachines Lecture 8 - Hydro Turbomachines - Centrifugal pumps - Part 1
Link Introduction to Turbomachines Lecture 9 - Hydro Turbomachines - Centrifugal pumps - Part 2
Link Introduction to Turbomachines Lecture 10 - Hydro Turbomachines - Centrifugal pumps - Part 3
Link Introduction to Turbomachines Lecture 11 - Hydro Turbomachines - Centrifugal pumps - Part 4
Link Introduction to Turbomachines Lecture 12 - Hydro Turbomachines - Francis turbine - Part 1
Link Introduction to Turbomachines Lecture 13 - Hydro Turbomachines - Francis turbine - Part 2
Link Introduction to Turbomachines Lecture 14 - Hydro Turbomachines - Kaplan turbine
Link Introduction to Turbomachines Lecture 15 - Hydro Turbomachines - Pelton turbine
Link Introduction to Turbomachines Lecture 16 - Positive Displacement Pumps - Gear pump
Link Introduction to Turbomachines Lecture 17 - Thermal Turbomachines - Introduction
Link Introduction to Turbomachines Lecture 18 - Thermal Turbomachines - Gas turbines
Link Introduction to Turbomachines Lecture 19 - Thermal Turbomachines - Steam Turbines
Link Introduction to Turbomachines Lecture 20 - Thermal Turbomachines - Part 1
Link Introduction to Turbomachines Lecture 21 - Thermal Turbomachines - Part 2
Link NOC:Mechanics and Control of Robotic Manipulators Lecture 1 - Introduction
Link NOC:Mechanics and Control of Robotic Manipulators Lecture 2 - Introduction to robot mechanics
Link NOC:Mechanics and Control of Robotic Manipulators Lecture 3 - Introduction to forward and inverse kinematics
Link NOC:Mechanics and Control of Robotic Manipulators Lecture 4 - Description of position and orientation
Link NOC:Mechanics and Control of Robotic Manipulators Lecture 5 - Transformation matrix
Link NOC:Mechanics and Control of Robotic Manipulators Lecture 6 - Compound rotations - Part 1
Link NOC:Mechanics and Control of Robotic Manipulators Lecture 7 - Compound rotations - Part 2
Link NOC:Mechanics and Control of Robotic Manipulators Lecture 8 - Kinematic parameters
Link NOC:Mechanics and Control of Robotic Manipulators Lecture 9 - DH parameters
Link NOC:Mechanics and Control of Robotic Manipulators Lecture 10 - DH representation
Link NOC:Mechanics and Control of Robotic Manipulators Lecture 11 - Frame arrangement and examples - Part 1
Link NOC:Mechanics and Control of Robotic Manipulators Lecture 12 - Examples related to frame arrangement
Link NOC:Mechanics and Control of Robotic Manipulators Lecture 13 - Frame arrangement and examples - Part 2
Link NOC:Mechanics and Control of Robotic Manipulators Lecture 14 - Forward and inverse kinematics of robotic manipulators
Link NOC:Mechanics and Control of Robotic Manipulators Lecture 15 - Examples related to inverse kinematics
Link NOC:Mechanics and Control of Robotic Manipulators Lecture 16 - Inverse kinematic solution based on numerical methods
Link NOC:Mechanics and Control of Robotic Manipulators Lecture 17 - Forward kinematic solution using Matlab
Link NOC:Mechanics and Control of Robotic Manipulators Lecture 18 - Inverse kinematic solution based on numerical methods using Matlab
Link NOC:Mechanics and Control of Robotic Manipulators Lecture 19 - Introduction to differential kinematics
Link NOC:Mechanics and Control of Robotic Manipulators Lecture 20 - Velocity propogation model for serial manipulators and Jacobian matrix
Link NOC:Mechanics and Control of Robotic Manipulators Lecture 21 - Velocity propogation model using Matlab
Link NOC:Mechanics and Control of Robotic Manipulators Lecture 22 - Manipulator Statics and Workspace singularities
Link NOC:Mechanics and Control of Robotic Manipulators Lecture 23 - Introduction to robot dynamics and Lagrange-Euler method
Link NOC:Mechanics and Control of Robotic Manipulators Lecture 24 - Newton-Euler method
Link NOC:Mechanics and Control of Robotic Manipulators Lecture 25 - Equation of motion in state-space form
Link NOC:Mechanics and Control of Robotic Manipulators Lecture 26 - Dynamic model derivation using Newton-Euler method in Matlab
Link NOC:Mechanics and Control of Robotic Manipulators Lecture 27 - Dynamic model derivation using Lagrange-Euler method in Matlab
Link NOC:Mechanics and Control of Robotic Manipulators Lecture 28 - Dynamic simulation of serial manipulators using Matlab
Link NOC:Mechanics and Control of Robotic Manipulators Lecture 29 - Introduction to trajectory generation
Link NOC:Mechanics and Control of Robotic Manipulators Lecture 30 - Trajectory generation using smooth functions
Link NOC:Mechanics and Control of Robotic Manipulators Lecture 31 - Trajectory generation schemes for serial manipulators
Link NOC:Mechanics and Control of Robotic Manipulators Lecture 32 - Trajectory generation using Matlab - Part 1
Link NOC:Mechanics and Control of Robotic Manipulators Lecture 33 - Trajectory generation using Matlab - Part 2
Link NOC:Mechanics and Control of Robotic Manipulators Lecture 34 - Trajectory generation for serial manipulators using matlab
Link NOC:Mechanics and Control of Robotic Manipulators Lecture 35 - Trajectory generation for serial manipulators with workspace using matlab
Link NOC:Mechanics and Control of Robotic Manipulators Lecture 36 - Introduction to robot motion control
Link NOC:Mechanics and Control of Robotic Manipulators Lecture 37 - Types of robot manipulator control and concerns
Link NOC:Mechanics and Control of Robotic Manipulators Lecture 38 - Kinematic control
Link NOC:Mechanics and Control of Robotic Manipulators Lecture 39 - Matlab simulation on kinematic control
Link NOC:Mechanics and Control of Robotic Manipulators Lecture 40 - Dynamic control
Link NOC:Mechanics and Control of Robotic Manipulators Lecture 41 - Simulations related to dynamic control schemes using Matlab - Part 1
Link NOC:Mechanics and Control of Robotic Manipulators Lecture 42 - Cascaded control design
Link NOC:Mechanics and Control of Robotic Manipulators Lecture 43 - Simulations related to dynamic control schemes using Matlab - Part 2
Link NOC:Mechanics and Control of Robotic Manipulators Lecture 44 - Simulations related to dynamic control schemes using Matlab - Part 3
Link NOC:Mechanics and Control of Robotic Manipulators Lecture 45 - Kinematic and dynamic models of a mobile robot using DH approach
Link Inverse Methods in Heat Transfer Lecture 1 - Introduction to inverse problems
Link Inverse Methods in Heat Transfer Lecture 2 - Fermi estimation
Link Inverse Methods in Heat Transfer Lecture 3 - Forward/Direct and Inverse problems
Link Inverse Methods in Heat Transfer Lecture 4 - Key drivers for studying inverse methods in engineering
Link Inverse Methods in Heat Transfer Lecture 5 - Formulation for inverse problems
Link Inverse Methods in Heat Transfer Lecture 6 - Statistical tools for estimation
Link Inverse Methods in Heat Transfer Lecture 7 - Statistical description of errors
Link Inverse Methods in Heat Transfer Lecture 8 - Well-posed and ill-posed problems
Link Inverse Methods in Heat Transfer Lecture 9 - Probability and Statistics Brief overview - I
Link Inverse Methods in Heat Transfer Lecture 10 - Probability and Statistics Brief overview - II
Link Inverse Methods in Heat Transfer Lecture 11 - Gaussian distribution
Link Inverse Methods in Heat Transfer Lecture 12 - Gaussian distribution (Continued...), and Maximum Likelihood Estimation (MLE)
Link Inverse Methods in Heat Transfer Lecture 13 - Linear least square regression
Link Inverse Methods in Heat Transfer Lecture 14 - Linear least square regression (Continued...)
Link Inverse Methods in Heat Transfer Lecture 15 - Alternatives to Linear least square
Link Inverse Methods in Heat Transfer Lecture 16 - Polynomial regression
Link Inverse Methods in Heat Transfer Lecture 17 - Inverse problems in transient conduction - I
Link Inverse Methods in Heat Transfer Lecture 18 - Inverse problems in transient conduction - II
Link Inverse Methods in Heat Transfer Lecture 19 - Non-linear regression
Link Inverse Methods in Heat Transfer Lecture 20 - Gauss-Newton algorithm (GNA)
Link Inverse Methods in Heat Transfer Lecture 21 - Gauss-Newton algorithm (GNA) Example
Link Inverse Methods in Heat Transfer Lecture 22 - Levenberg-Marquardt algorithm (LMA)
Link Inverse Methods in Heat Transfer Lecture 23 - Tikhonov regularization
Link Inverse Methods in Heat Transfer Lecture 24 - Jacobian and its calculation
Link Inverse Methods in Heat Transfer Lecture 25 - Bayesian methods
Link Inverse Methods in Heat Transfer Lecture 26 - Bayesian methods (Continued...)
Link Inverse Methods in Heat Transfer Lecture 27 - Metropolis-Hastings algorithm (MH) and Markov Chain Monte Carlo Methods (MCMC)
Link Inverse Methods in Heat Transfer Lecture 28 - Introduction to machine learning in heat transfer
Link Inverse Methods in Heat Transfer Lecture 29 - Overview of machine learning
Link Inverse Methods in Heat Transfer Lecture 30 - Calculation in a neural network model
Link Inverse Methods in Heat Transfer Lecture 31 - Gradient Descent method
Link Inverse Methods in Heat Transfer Lecture 32 - Gradient Descent method (Continued...)
Link Inverse Methods in Heat Transfer Lecture 33 - Back propagation
Link Inverse Methods in Heat Transfer Lecture 34 - Neural network as a surrogate forward model
Link Inverse Methods in Heat Transfer Lecture 35 - PINN for an inverse problem
Link Inverse Methods in Heat Transfer Lecture 36 - PINN for an inverse problem (Continued...)
Link Inverse Methods in Heat Transfer Lecture 37 - Inverse methods in heat transfer - Summary
Link Engineering Thermodynamics Lecture 1 - Course outline
Link Engineering Thermodynamics Lecture 2 - Introduction - Part 1
Link Engineering Thermodynamics Lecture 3 - Introduction - Part 2
Link Engineering Thermodynamics Lecture 4 - Basic concepts - Part 1
Link Engineering Thermodynamics Lecture 5 - Basic concepts - Part 2
Link Engineering Thermodynamics Lecture 6 - Basic concepts - Part 3
Link Engineering Thermodynamics Lecture 7 - Basic concepts - Part 4
Link Engineering Thermodynamics Lecture 8 - Basic concepts - Part 5
Link Engineering Thermodynamics Lecture 9 - Work and Heat - Part 1
Link Engineering Thermodynamics Lecture 10 - Work and Heat - Part 2
Link Engineering Thermodynamics Lecture 11 - Work and Heat - Part 3
Link Engineering Thermodynamics Lecture 12 - First law of thermodynamics
Link Engineering Thermodynamics Lecture 13 - Pure substances
Link Engineering Thermodynamics Lecture 14 - Ideal gases and ideal gas mixtures
Link Engineering Thermodynamics Lecture 15 - Two-phase mixtures - Part 1
Link Engineering Thermodynamics Lecture 16 - Two-phase mixtures - Part 2
Link Engineering Thermodynamics Lecture 17 - First law analysis of systems - Part 1
Link Engineering Thermodynamics Lecture 18 - First law analysis of systems - Part 2
Link Engineering Thermodynamics Lecture 19 - First law analysis of systems - Part 3
Link Engineering Thermodynamics Lecture 20 - First law analysis of systems - Part 4
Link Engineering Thermodynamics Lecture 21 - First law of thermodynamics for a control colume
Link Engineering Thermodynamics Lecture 22 - Control volume analysis of steady flow devices - Part 1
Link Engineering Thermodynamics Lecture 23 - Control volume analysis of steady flow devices - Part 2
Link Engineering Thermodynamics Lecture 24 - Control volume analysis of steady flow devices - Part 3
Link Engineering Thermodynamics Lecture 25 - Unsteady analysis
Link Engineering Thermodynamics Lecture 26 - Second law of Thermodynamics - Part 1
Link Engineering Thermodynamics Lecture 27 - Second law of Thermodynamics - Part 2
Link Engineering Thermodynamics Lecture 28 - Second law of Thermodynamics - Part 3
Link Engineering Thermodynamics Lecture 29 - Second law of Thermodynamics - Part 4
Link Engineering Thermodynamics Lecture 30 - Second law of Thermodynamics - Part 5
Link Engineering Thermodynamics Lecture 31 - Entropy - Part 1
Link Engineering Thermodynamics Lecture 32 - Entropy - Part 2
Link Engineering Thermodynamics Lecture 33 - Entropy - Part 3
Link Engineering Thermodynamics Lecture 34 - Entropy - Part 4
Link Engineering Thermodynamics Lecture 35 - Entropy - Part 5
Link Engineering Thermodynamics Lecture 36 - Entropy - Part 6
Link Engineering Thermodynamics Lecture 37 - Thermodynamic cycles - Part 1
Link Engineering Thermodynamics Lecture 38 - Thermodynamic cycles - Part 2
Link Applied Mechanics - Fluid Mechanics Laboratory Lecture 1 - Free and Forced Vortices - I
Link Applied Mechanics - Fluid Mechanics Laboratory Lecture 2 - Free and Forced Vortices - II
Link Applied Mechanics - Fluid Mechanics Laboratory Lecture 3 - Impact of Jet on hemispherical shell
Link Applied Mechanics - Fluid Mechanics Laboratory Lecture 4 - Impact of Jet on horizontal flat plate
Link Applied Mechanics - Fluid Mechanics Laboratory Lecture 5 - Pressure Distribution on a Circular Cylinder
Link Applied Mechanics - Fluid Mechanics Laboratory Lecture 6 - Verification of Bernoullis Theorem
Link Applied Mechanics - Fluid Mechanics Laboratory Lecture 7 - Visualization of potential flows
Link Applied Mechanics - Fluid Mechanics Laboratory Lecture 8 - Visualization of vortex shredding
Link Applied Mechanics - Fluid Mechanics Laboratory Lecture 9 - Wake Velocity Measurement for flow over a Circular Cylinder
Link NOC:Interfacial Fluid Mechanics Lecture 1 - Non-dimensional numbers in interfacial flows
Link NOC:Interfacial Fluid Mechanics Lecture 2 - Integral form of governing equations
Link NOC:Interfacial Fluid Mechanics Lecture 3 - Boundary (Jump) conditions at a fluid-fluid interface (no surface tension)
Link NOC:Interfacial Fluid Mechanics Lecture 4 - On surface tension and interfacial energy
Link NOC:Interfacial Fluid Mechanics Lecture 5 - Introduction to surface tension effects
Link NOC:Interfacial Fluid Mechanics Lecture 6 - Boundary (Jump) conditions at a fluid-fluid interface (with surface tension) - Part 1
Link NOC:Interfacial Fluid Mechanics Lecture 7 - Boundary (Jump) conditions at a fluid-fluid interface (with surface tension) - Part 2
Link NOC:Interfacial Fluid Mechanics Lecture 8 - Summary of equations
Link NOC:Interfacial Fluid Mechanics Lecture 9 - Capillary statics shape of meniscus - Part 1
Link NOC:Interfacial Fluid Mechanics Lecture 10 - Capillary statics shape of meniscus - Part 2
Link NOC:Interfacial Fluid Mechanics Lecture 11 - Shape of static meniscus-Energy minimisation - Part 1
Link NOC:Interfacial Fluid Mechanics Lecture 12 - Calculus of variations (a primer): Euler-Lagrange equations
Link NOC:Interfacial Fluid Mechanics Lecture 13 - Shape of static meniscus-Energy minimisation - Part 2
Link NOC:Interfacial Fluid Mechanics Lecture 14 - Method of Lagrange multipliers
Link NOC:Interfacial Fluid Mechanics Lecture 15 - On wetting and shape of a drop
Link NOC:Interfacial Fluid Mechanics Lecture 16 - The Young's Equation: Partial wetting
Link NOC:Interfacial Fluid Mechanics Lecture 17 - Variational approach to the Young-Laplace equation - Part 1
Link NOC:Interfacial Fluid Mechanics Lecture 18 - Variational approach to the Young-Laplace equation - Part 2
Link NOC:Interfacial Fluid Mechanics Lecture 19 - Shape of a puddle - large/heavy drops
Link NOC:Interfacial Fluid Mechanics Lecture 20 - Wetting on rough and textured surface - Part 1
Link NOC:Interfacial Fluid Mechanics Lecture 21 - Wetting on rough and textured surface - Part 2
Link NOC:Interfacial Fluid Mechanics Lecture 22 - Wetting on rough and textured surface - Part 3
Link NOC:Interfacial Fluid Mechanics Lecture 23 - Law of capillary rise
Link NOC:Interfacial Fluid Mechanics Lecture 24 - Dynamics of capillary rise
Link NOC:Interfacial Fluid Mechanics Lecture 25 - Dynamics of capillary rise: Analysis of regimes
Link NOC:Interfacial Fluid Mechanics Lecture 26 - Forced wetting and coating flows
Link NOC:Interfacial Fluid Mechanics Lecture 27 - More on coating and Landau-Levich equation
Link NOC:Interfacial Fluid Mechanics Lecture 28 - Lubrication approximation and thin films
Link NOC:Interfacial Fluid Mechanics Lecture 29 - Free surface flows and interface conditions
Link NOC:Interfacial Fluid Mechanics Lecture 30 - Uniform flow down an incline
Link NOC:Interfacial Fluid Mechanics Lecture 31 - Shape of a falling jet
Link NOC:Interfacial Fluid Mechanics Lecture 32 - A quick tour of stability analysis
Link NOC:Interfacial Fluid Mechanics Lecture 33 - Rayleigh-Plateau instability - Part 1
Link NOC:Interfacial Fluid Mechanics Lecture 34 - Rayleigh-Plateau instability - Part 2
Link NOC:Interfacial Fluid Mechanics Lecture 35 - Rayleigh-Plateau instability - Part 3
Link NOC:Interfacial Fluid Mechanics Lecture 36 - Rupture of thin films - Part 1
Link NOC:Interfacial Fluid Mechanics Lecture 37 - Rupture of thin films - Part 2
Link NOC:Interfacial Fluid Mechanics Lecture 38 - Rupture of thin films - Effect of van der Waals force
Link NOC:Interfacial Fluid Mechanics Lecture 39 - Rupture of thin films - Part 3
Link NOC:Interfacial Fluid Mechanics Lecture 40 - Rupture of thin films - Part 4
Link NOC:Interfacial Fluid Mechanics Lecture 41 - Benard-Marangoni Instability - Part 1
Link NOC:Interfacial Fluid Mechanics Lecture 42 - Benard-Marangoni Instability - Part 2
Link NOC:Interfacial Fluid Mechanics Lecture 43 - Benard-Marangoni Instability - Part 3
Link NOC:Interfacial Fluid Mechanics Lecture 44 - Benard-Marangoni Instability - Part 4
Link NOC:Interfacial Fluid Mechanics Lecture 45 - Kelvin helmholtz instability - Part 1
Link NOC:Interfacial Fluid Mechanics Lecture 46 - Kelvin helmholtz instability - Part 2
Link NOC:Interfacial Fluid Mechanics Lecture 47 - Kelvin helmholtz instability - Part 3
Link NOC:Interfacial Fluid Mechanics Lecture 48 - Kelvin helmholtz instability - Part 4
Link NOC:Interfacial Fluid Mechanics Lecture 49 - Contact angle hysterisis
Link NOC:Interfacial Fluid Mechanics Lecture 50 - Thin film down an incline-a contact line problem - Part 1
Link NOC:Interfacial Fluid Mechanics Lecture 51 - Thin film down an incline-a contact line problem - Part 2
Link NOC:Interfacial Fluid Mechanics Lecture 52 - Local flow near a moving contact line
Link NOC:Interfacial Fluid Mechanics Lecture 53 - Modelling of moving contact line
Link Applied Thermodynamics Lecture 1 - Introduction
Link Applied Thermodynamics Lecture 2 - Entropy change of a control volume - Part 1
Link Applied Thermodynamics Lecture 3 - Entropy change of a control volume - Part 2
Link Applied Thermodynamics Lecture 4 - Entropy change of a control volume - Part 3
Link Applied Thermodynamics Lecture 5 - Work interaction of internally reversible steady flow processes
Link Applied Thermodynamics Lecture 6 - Exergy - Part 1
Link Applied Thermodynamics Lecture 7 - Exergy - Part 2
Link Applied Thermodynamics Lecture 8 - Exergy - Part 3
Link Applied Thermodynamics Lecture 9 - Exergy - Part 4
Link Applied Thermodynamics Lecture 10 - Exergy - Part 5
Link Applied Thermodynamics Lecture 11 - Thermodynamic cycles - Rankine cycle - Part 1
Link Applied Thermodynamics Lecture 12 - Thermodynamic cycles - Rankine cycle - Part 2
Link Applied Thermodynamics Lecture 13 - Thermodynamic cycles - Rankine cycle - Part 3
Link Applied Thermodynamics Lecture 14 - Thermodynamic cycles - Air standard Brayton cycle - Part 1
Link Applied Thermodynamics Lecture 15 - Thermodynamic cycles - Air standard Brayton cycle - Part 2
Link Applied Thermodynamics Lecture 16 - Thermodynamic cycles - Air standard Brayton cycle - Part 3
Link Applied Thermodynamics Lecture 17 - Thermodynamic cycles - Air standard Brayton cycle - Part 4
Link Applied Thermodynamics Lecture 18 - Thermodynamic cycles - Air standard Brayton cycle - Part 5
Link Applied Thermodynamics Lecture 19 - Thermodynamic cycles - Air standard Otto cycle
Link Applied Thermodynamics Lecture 20 - Thermodynamic cycles - Air standard Diesel cycle - Part 1
Link Applied Thermodynamics Lecture 21 - Thermodynamic cycles - Air standard Diesel cycle - Part 2
Link Applied Thermodynamics Lecture 22 - Thermodynamic cycles - Vapor compression refrigeration cycle
Link Applied Thermodynamics Lecture 23 - Psychrometry - Part 1
Link Applied Thermodynamics Lecture 24 - Psychrometry - Part 2
Link Applied Thermodynamics Lecture 25 - Psychrometry - Part 3
Link Applied Thermodynamics Lecture 26 - Psychrometry - Part 4
Link Applied Thermodynamics Lecture 27 - Psychrometry - Part 5
Link Applied Thermodynamics Lecture 28 - Psychrometry - Part 6
Link Applied Thermodynamics Lecture 29 - Psychrometry - Part 7
Link Applied Thermodynamics Lecture 30 - Combustion thermodynamics - Part 1
Link Applied Thermodynamics Lecture 31 - Combustion thermodynamics - Part 2
Link Applied Thermodynamics Lecture 32 - Combustion Thermodynamics - Part 3
Link Applied Thermodynamics Lecture 33 - Combustion thermodynamics - Part 4
Link Applied Thermodynamics Lecture 34 - Compressible flow through nozzles - Part 1
Link Applied Thermodynamics Lecture 35 - Compressible flow through nozzles - Part 2
Link Applied Thermodynamics Lecture 36 - Compressible flow through nozzles - Part 3
Link Applied Thermodynamics Lecture 37 - Compressible flow through nozzles - Part 4
Link Applied Thermodynamics Lecture 38 - Compressible flow through nozzles - Part 5
Link Applied Thermodynamics Lecture 39 - Compressible flow through nozzles - Part 6
Link Applied Thermodynamics Lecture 40 - Compressible flow through nozzles - Part 7
Link Applied Thermodynamics Lecture 41 - Compressible flow through nozzles - Part 8
Link Applied Thermodynamics Lecture 42 - Compressible flow through nozzles - Part 9
Link Applied Thermodynamics Lecture 43 - Compressible flow through nozzles - Part 10
Link Applied Thermodynamics Lecture 44 - Compressible flow through nozzles - Part 11
Link Applied Thermodynamics Lecture 45 - Compressible flow through nozzles - Part 12
Link Heat Transfer (Prof .Dr.C. Balaji) Lecture 1 - Introduction to Heat Transfer
Link Heat Transfer (Prof .Dr.C. Balaji) Lecture 2 - Introduction to Heat Transfer - Practical examples
Link Heat Transfer (Prof .Dr.C. Balaji) Lecture 3 - Introduction to Heat Transfer - Rate laws Conduction
Link Heat Transfer (Prof .Dr.C. Balaji) Lecture 4 - Introduction to Heat Transfer - Rate laws Convection
Link Heat Transfer (Prof .Dr.C. Balaji) Lecture 5 - Introduction to Heat Transfer - Rate laws Radiation
Link Heat Transfer (Prof .Dr.C. Balaji) Lecture 6 - Radiation Heat Transfer
Link Heat Transfer (Prof .Dr.C. Balaji) Lecture 7 - Radiation Laws
Link Heat Transfer (Prof .Dr.C. Balaji) Lecture 8 - Universal Black Body Curve
Link Heat Transfer (Prof .Dr.C. Balaji) Lecture 9 - Properties of Real Surfaces
Link Heat Transfer (Prof .Dr.C. Balaji) Lecture 10 - Properties of Real Surfaces (Continued...)
Link Heat Transfer (Prof .Dr.C. Balaji) Lecture 11 - Kirchoff's Law and example problems
Link Heat Transfer (Prof .Dr.C. Balaji) Lecture 12 - Radiosity Irradiation Method and Viewfactors
Link Heat Transfer (Prof .Dr.C. Balaji) Lecture 13 - Viewfactor Algebra
Link Heat Transfer (Prof .Dr.C. Balaji) Lecture 14 - Conduction
Link Heat Transfer (Prof .Dr.C. Balaji) Lecture 15 - Conduction: Steady state conduction equation
Link Heat Transfer (Prof .Dr.C. Balaji) Lecture 16 - Conduction in composite wall
Link Heat Transfer (Prof .Dr.C. Balaji) Lecture 17 - Conduction in cylinder
Link Heat Transfer (Prof .Dr.C. Balaji) Lecture 18 - Crtical Radius of Insulation
Link Heat Transfer (Prof .Dr.C. Balaji) Lecture 19 - Conduction with heat generation
Link Heat Transfer (Prof .Dr.C. Balaji) Lecture 20 - Variable Thermal Conductivity and example problems
Link Heat Transfer (Prof .Dr.C. Balaji) Lecture 21 - Fin heat transfer
Link Heat Transfer (Prof .Dr.C. Balaji) Lecture 22 - Fin heat transfer continued
Link Heat Transfer (Prof .Dr.C. Balaji) Lecture 23 - Fin heat transfer continued
Link Heat Transfer (Prof .Dr.C. Balaji) Lecture 24 - Unsteady Heat Conduction
Link Heat Transfer (Prof .Dr.C. Balaji) Lecture 25 - Unsteady Heat Conduction (Continued...)
Link Heat Transfer (Prof .Dr.C. Balaji) Lecture 26 - Lumped capacitance Method
Link Heat Transfer (Prof .Dr.C. Balaji) Lecture 27 - Unsteady Heat Conduction (Continued...)
Link Heat Transfer (Prof .Dr.C. Balaji) Lecture 28 - Method of Separation of variables
Link Heat Transfer (Prof .Dr.C. Balaji) Lecture 29 - Conduction Analytical solution
Link Heat Transfer (Prof .Dr.C. Balaji) Lecture 30 - Conduction Numerical solution
Link Heat Transfer (Prof .Dr.C. Balaji) Lecture 31 - Introduction to convection
Link Heat Transfer (Prof .Dr.C. Balaji) Lecture 32 - Governing Equations for Convection
Link Heat Transfer (Prof .Dr.C. Balaji) Lecture 33 - Energy equation
Link Heat Transfer (Prof .Dr.C. Balaji) Lecture 34 - Convection - Boundary layer theory
Link Heat Transfer (Prof .Dr.C. Balaji) Lecture 35 - Convection - Integral momentum equation
Link Heat Transfer (Prof .Dr.C. Balaji) Lecture 36 - Solution to Integral Energy equation
Link Heat Transfer (Prof .Dr.C. Balaji) Lecture 37 - Internal Flow - Flow inside pipes and ducts
Link Heat Transfer (Prof .Dr.C. Balaji) Lecture 38 - Internal Flow - Turbulent heat transfer
Link Heat Transfer (Prof .Dr.C. Balaji) Lecture 39 - Natural Convection
Link Heat Transfer (Prof .Dr.C. Balaji) Lecture 40 - Heat Exchangers - 1
Link Heat Transfer (Prof .Dr.C. Balaji) Lecture 41 - Heat Exchangers - 2
Link NOC:Inverse Methods in Heat Transfer Lecture 1 - Introduction to the Inverse Methods in Heat Transfer Course
Link NOC:Inverse Methods in Heat Transfer Lecture 2 - Inverse Problems - Definition, History and Applications
Link NOC:Inverse Methods in Heat Transfer Lecture 3 - The inverse problem solving process
Link NOC:Inverse Methods in Heat Transfer Lecture 4 - Review of Basic Heat Transfer for this course
Link NOC:Inverse Methods in Heat Transfer Lecture 5 - Introduction to Week - 2
Link NOC:Inverse Methods in Heat Transfer Lecture 6 - Introduction to Linear Regression for Inverse Problems
Link NOC:Inverse Methods in Heat Transfer Lecture 7 - Example Application of Linear regression for an inverse conduction problem
Link NOC:Inverse Methods in Heat Transfer Lecture 8 - Goodness of Fit and Coefficient of Determination
Link NOC:Inverse Methods in Heat Transfer Lecture 9 - Linear Regression with Quadratic Model
Link NOC:Inverse Methods in Heat Transfer Lecture 10 - Summary of Week - 2
Link NOC:Inverse Methods in Heat Transfer Lecture 11 - Introduction to Week - 3
Link NOC:Inverse Methods in Heat Transfer Lecture 12 - Introduction to Normal Equations for linear models
Link NOC:Inverse Methods in Heat Transfer Lecture 13 - Normal Equations for linear models (Continued...)
Link NOC:Inverse Methods in Heat Transfer Lecture 14 - Parity Plots
Link NOC:Inverse Methods in Heat Transfer Lecture 15 - Programming Inverse Methods using Normal Equations
Link NOC:Inverse Methods in Heat Transfer Lecture 16 - Variants on the Linear Model for inverse problems
Link NOC:Inverse Methods in Heat Transfer Lecture 17 - Summary of Week - 3
Link NOC:Inverse Methods in Heat Transfer Lecture 18 - The General Inverse Methods Process
Link NOC:Inverse Methods in Heat Transfer Lecture 19 - Simple nonlinear inverse problem - Transient Heat transfer
Link NOC:Inverse Methods in Heat Transfer Lecture 20 - Review of required calculus results
Link NOC:Inverse Methods in Heat Transfer Lecture 21 - Gradient Descent Algorithm
Link NOC:Inverse Methods in Heat Transfer Lecture 22 - Gradient Descent - Simple Example
Link NOC:Inverse Methods in Heat Transfer Lecture 23 - Gradient Descent for Nonlinear Inverse Problem - Theory
Link NOC:Inverse Methods in Heat Transfer Lecture 24 - Gradient Descent for Nonlinear Inverse Problem - Coding Example
Link NOC:Inverse Methods in Heat Transfer Lecture 25 - Newton Algorithm for a System of Equations
Link NOC:Inverse Methods in Heat Transfer Lecture 26 - Gauss Newton Algorithm - Derivation and Code
Link NOC:Inverse Methods in Heat Transfer Lecture 27 - Overfitting and Regularization for Linear Models
Link NOC:Inverse Methods in Heat Transfer Lecture 28 - Tikhonov Regularization and Levenberg-Marquardt - Theory
Link NOC:Inverse Methods in Heat Transfer Lecture 29 - Tikhonov and Levenberg-Marquardt - Example Code
Link NOC:Inverse Methods in Heat Transfer Lecture 30 - Introduction to Probability for Inverse Methods
Link NOC:Inverse Methods in Heat Transfer Lecture 31 - Sum and Product Rules of Probability
Link NOC:Inverse Methods in Heat Transfer Lecture 32 - Bayes Theorem - Simple Examples
Link NOC:Inverse Methods in Heat Transfer Lecture 33 - Independence and Expectation
Link NOC:Inverse Methods in Heat Transfer Lecture 34 - Variance and Covariance
Link NOC:Inverse Methods in Heat Transfer Lecture 35 - Gaussian distribution and the standard normal table
Link NOC:Inverse Methods in Heat Transfer Lecture 36 - Maximum Likelihood Estimate
Link NOC:Inverse Methods in Heat Transfer Lecture 37 - MLE, MAP estimates
Link NOC:Inverse Methods in Heat Transfer Lecture 38 - Introduction to Bayesian Methods for Inverse Problems
Link NOC:Inverse Methods in Heat Transfer Lecture 39 - Offline Bayesian Estimation
Link NOC:Inverse Methods in Heat Transfer Lecture 40 - Offline Bayesian Estimation - MATLAB Demo
Link NOC:Inverse Methods in Heat Transfer Lecture 41 - MHMCMC for Inverse Problems
Link NOC:Inverse Methods in Heat Transfer Lecture 42 - MHMCMC for Inverse Problems - MATLAB Demo
Link NOC:Inverse Methods in Heat Transfer Lecture 43 - Why Machine Learning in Inverse Heat Transfer ?
Link NOC:Inverse Methods in Heat Transfer Lecture 44 - Overview of AI and ML
Link NOC:Inverse Methods in Heat Transfer Lecture 45 - Supervised Machine Learning as an Inverse Problem
Link NOC:Inverse Methods in Heat Transfer Lecture 46 - Introduction to Week 9 - From Linear Models to Neural Networks
Link NOC:Inverse Methods in Heat Transfer Lecture 47 - Gradient Descent - Batch, Stochastic and Mini Batch
Link NOC:Inverse Methods in Heat Transfer Lecture 48 - Logistic Regression - The Forward Model
Link NOC:Inverse Methods in Heat Transfer Lecture 49 - Logistic Regression - Binary Entropy Cost Function and Gradient
Link NOC:Inverse Methods in Heat Transfer Lecture 50 - Multiclass Classification
Link NOC:Inverse Methods in Heat Transfer Lecture 51 - Linear Separability and Neural Networks
Link NOC:Inverse Methods in Heat Transfer Lecture 52 - Introduction to Week 10 - XOR and Deeper networks
Link NOC:Inverse Methods in Heat Transfer Lecture 53 - Forward pass through a simple neural network
Link NOC:Inverse Methods in Heat Transfer Lecture 54 - Backprop in a scalar chain
Link NOC:Inverse Methods in Heat Transfer Lecture 55 - Backprop in a MLP
Link NOC:Inverse Methods in Heat Transfer Lecture 56 - Introduction to Week 11 - ANNs as Surrogate models
Link NOC:Inverse Methods in Heat Transfer Lecture 57 - Physics Informed Neural Networks - Introduction
Link NOC:Inverse Methods in Heat Transfer Lecture 58 - Physics Informed Neural Networks - an intuitive explanation
Link NOC:Inverse Methods in Heat Transfer Lecture 59 - Physics Informed Neural Networks - BC incorporation
Link NOC:Inverse Methods in Heat Transfer Lecture 60 - PINNs for inverse problems
Link NOC:Inverse Methods in Heat Transfer Lecture 61 - Introduction to Week 12 - Sensitivity Analysis
Link NOC:Inverse Methods in Heat Transfer Lecture 62 - Code Examples of Logistic Regression - OR and AND gates
Link NOC:Inverse Methods in Heat Transfer Lecture 63 - Code Example of shallow neural network - XOR gate
Link NOC:Inverse Methods in Heat Transfer Lecture 64 - Code walkthrough for PINNs in Burgers equation
Link NOC:Inverse Methods in Heat Transfer Lecture 65 - Formulation of a PINN based inverse problem in unsteady conduction
Link NOC:Inverse Methods in Heat Transfer Lecture 66 - Formulation of a surrogate model based inverse solution in unsteady conduction
Link NOC:Inverse Methods in Heat Transfer Lecture 67 - Summary of course
Link NOC:Sustainable Energy Technology Lecture 1 - Introduction and Fundamental Concepts - Part 1
Link NOC:Sustainable Energy Technology Lecture 2 - Introduction and Fundamental Concepts - Part 2
Link NOC:Sustainable Energy Technology Lecture 3 - Energy Scenario in Modern World - Part 1
Link NOC:Sustainable Energy Technology Lecture 4 - Energy Scenario in Modern World - Part 2
Link NOC:Sustainable Energy Technology Lecture 5 - Macro Trends in Energy Use - World and India - Part 1
Link NOC:Sustainable Energy Technology Lecture 6 - Macro Trends in Energy Use - World and India - Part 2
Link NOC:Sustainable Energy Technology Lecture 7 - Impact of Fossil fuels - Part 1
Link NOC:Sustainable Energy Technology Lecture 8 - Impact of Fossil fuels - Part 2
Link NOC:Sustainable Energy Technology Lecture 9 - Fossil Fuels and Climate Change - Part 1
Link NOC:Sustainable Energy Technology Lecture 10 - Fossil Fuels and Climate Change - Part 2
Link NOC:Sustainable Energy Technology Lecture 11 - Continual of previous lecture and Overview of Renewable energy Technology - Part 1
Link NOC:Sustainable Energy Technology Lecture 12 - Continual of previous lecture and Overview of Renewable energy Technology - Part 2
Link NOC:Sustainable Energy Technology Lecture 13 - Numerical examples - Part 1
Link NOC:Sustainable Energy Technology Lecture 14 - Numerical examples - Part 2
Link NOC:Sustainable Energy Technology Lecture 15 - Renewable Energy Contributions - Part 1
Link NOC:Sustainable Energy Technology Lecture 16 - Renewable Energy Contributions - Part 2
Link NOC:Sustainable Energy Technology Lecture 17 - Hydro Power - Part 1
Link NOC:Sustainable Energy Technology Lecture 18 - Hydro Power - Part 2
Link NOC:Sustainable Energy Technology Lecture 19 - The Fundamentals of various Turbine working principle - Part 1
Link NOC:Sustainable Energy Technology Lecture 20 - The Fundamentals of various Turbine working principle - Part 2
Link NOC:Sustainable Energy Technology Lecture 21 - Hydroturbine Selection Principle
Link NOC:Sustainable Energy Technology Lecture 22 - Pumped Hydro Storage
Link NOC:Sustainable Energy Technology Lecture 23 - Worked Out Examples of HydroPower
Link NOC:Sustainable Energy Technology Lecture 24 - Introduction to Wind Energy - Part 1
Link NOC:Sustainable Energy Technology Lecture 25 - Introduction to Wind Energy - Part 2
Link NOC:Sustainable Energy Technology Lecture 26 - Wind Speed and Power Analysis - Part 1
Link NOC:Sustainable Energy Technology Lecture 27 - Wind Speed and Power Analysis - Part 2
Link NOC:Sustainable Energy Technology Lecture 28 - Design of Wind Turbine - Part 1
Link NOC:Sustainable Energy Technology Lecture 29 - Design of Wind Turbine - Part 2
Link NOC:Sustainable Energy Technology Lecture 30 - Wind Turbine Parts and Performance - Part 1
Link NOC:Sustainable Energy Technology Lecture 31 - Wind Turbine Parts and Performance - Part 2
Link NOC:Sustainable Energy Technology Lecture 32 - Wind farms, Offshore Wind Turbines and Numerical Examples in Wind Energy - Part 1
Link NOC:Sustainable Energy Technology Lecture 33 - Wind farms, Offshore Wind Turbines and Numerical Examples in Wind Energy - Part 2
Link NOC:Sustainable Energy Technology Lecture 34 - Introduction to Solar Energy - Part 1
Link NOC:Sustainable Energy Technology Lecture 35 - Introduction to Solar Energy - Part 2
Link NOC:Sustainable Energy Technology Lecture 36 - Solar Thermal Energy Systems - Part 1
Link NOC:Sustainable Energy Technology Lecture 37 - Solar Thermal Energy Systems - Part 2
Link NOC:Sustainable Energy Technology Lecture 38 - Solar Water Heaters - Part 1
Link NOC:Sustainable Energy Technology Lecture 39 - Solar Water Heaters - Part 2
Link NOC:Sustainable Energy Technology Lecture 40 - Concentrated Solar Thermal Power (CSP)
Link NOC:Sustainable Energy Technology Lecture 41 - Introduction to Solar Photovoltaic Systems - Part 1
Link NOC:Sustainable Energy Technology Lecture 42 - Introduction to Solar Photovoltaic Systems - Part 2
Link NOC:Sustainable Energy Technology Lecture 43 - Solar Photovoltaic Technology - Part 1
Link NOC:Sustainable Energy Technology Lecture 44 - Solar Photovoltaic Technology - Part 2
Link NOC:Sustainable Energy Technology Lecture 45 - Doping of a Semiconductor - Part 1
Link NOC:Sustainable Energy Technology Lecture 46 - Doping of a Semiconductor - Part 2
Link NOC:Sustainable Energy Technology Lecture 47 - Structure of a Solar Cell and its Electrical Properties - Part 1
Link NOC:Sustainable Energy Technology Lecture 48 - Structure of a Solar Cell and its Electrical Properties - Part 2
Link NOC:Sustainable Energy Technology Lecture 49 - Solar Cell Efficiency - Part 1
Link NOC:Sustainable Energy Technology Lecture 50 - Solar Cell Efficiency - Part 2
Link NOC:Sustainable Energy Technology Lecture 51 - Types of solar cells - Part 1
Link NOC:Sustainable Energy Technology Lecture 52 - Types of solar cells - Part 2
Link NOC:Sustainable Energy Technology Lecture 53 - Bioenergy and Biofuels - Part 1
Link NOC:Sustainable Energy Technology Lecture 54 - Bioenergy and Biofuels - Part 2
Link NOC:Sustainable Energy Technology Lecture 55 - Biofuel Feedstocks
Link NOC:Sustainable Energy Technology Lecture 56 - Bioenergy Technology and Sustainability - Part 1
Link NOC:Sustainable Energy Technology Lecture 57 - Bioenergy Technology and Sustainability - Part 2
Link NOC:Sustainable Energy Technology Lecture 58 - Production Technologies for Bioethanol, Biodiesel and Biogas
Link NOC:Sustainable Energy Technology Lecture 59 - Introduction of Geothermal Energy
Link NOC:Sustainable Energy Technology Lecture 60 - Different types of Geothermal power systems
Link NOC:Sustainable Energy Technology Lecture 61 - Characteristics of electricity demand and the technology is developed to respond the energy demand
Link NOC:Sustainable Energy Technology Lecture 62 - Continuation of Enegry demand and adaptation of renewable energies
Link NOC:Sustainable Energy Technology Lecture 63 - Introduction of Energy storage system
Link NOC:Sustainable Energy Technology Lecture 64 - Major parameters of energy storage technology
Link NOC:Sustainable Energy Technology Lecture 65 - Mechanical Energy Storage Technologies
Link NOC:Sustainable Energy Technology Lecture 66 - Compressed Air Energy Storage System
Link NOC:Sustainable Energy Technology Lecture 67 - Flywheel Based Energy Storage System - Part 1
Link NOC:Sustainable Energy Technology Lecture 68 - Flywheel Based Energy Storage System - Part 2
Link NOC:Sustainable Energy Technology Lecture 69 - Energy Storage System Through Capacitor
Link NOC:Sustainable Energy Technology Lecture 70 - Electrolytic Capacitor
Link NOC:Sustainable Energy Technology Lecture 71 - Super Capacitor
Link NOC:Sustainable Energy Technology Lecture 72 - Electrochemical Energy Storage Systems
Link NOC:Sustainable Energy Technology Lecture 73 - Performance Characteristics of Battery
Link NOC:Sustainable Energy Technology Lecture 74 - Types of Rechargeable Batteries - Part 1
Link NOC:Sustainable Energy Technology Lecture 75 - Types of Rechargeable Batteries - Part 2
Link NOC:Sustainable Energy Technology Lecture 76 - Thermal Energy Storage Systems - Part 1
Link NOC:Sustainable Energy Technology Lecture 77 - Thermal Energy Storage Systems - Part 2
Link NOC:Sustainable Energy Technology Lecture 78 - Storage of Coolness and Synoptic View of Energy Storage Technology
Link NOC:Sustainable Energy Technology Lecture 79 - Storage Needs for the Grid
Link NOC:Sustainable Energy Technology Lecture 80 - Energy Storage Types
Link NOC:Sustainable Energy Technology Lecture 81 - Trends in Energy Storage Types and their Characteristics
Link NOC:Sustainable Energy Technology Lecture 82 - Analysis of Growth in Energy Storage-focussed on Pumped Hydro Storage, Flywheels and Li-ion batteries
Link NOC:Sustainable Energy Technology Lecture 83 - Fuel Cells and Hydrogen Energy Economy
Link NOC:Sustainable Energy Technology Lecture 84 - Hydrogen production and storage technologies
Link NOC:Sustainable Energy Technology Lecture 85 - Hydrogen storage technologies
Link NOC:Sustainable Energy Technology Lecture 86 - Fuel cell technology
Link NOC:Sustainable Energy Technology Lecture 87 - Fuel cell types
Link NOC:Sustainable Energy Technology Lecture 88 - Carbon Capture and Storage (CCS) technologies - Part 1
Link NOC:Sustainable Energy Technology Lecture 89 - Carbon Capture and Storage (CCS) technologies - Part 2
Link NOC:Strength of Materials - IITM Lecture 1 - Introduction to Strength of Materials - 1
Link NOC:Strength of Materials - IITM Lecture 2 - Introduction to Strength of Materials - 2
Link NOC:Strength of Materials - IITM Lecture 3 - Stress Component is Scalar
Link NOC:Strength of Materials - IITM Lecture 4 - Stress Vector
Link NOC:Strength of Materials - IITM Lecture 5 - Stress Tensor
Link NOC:Strength of Materials - IITM Lecture 6 - Equilibrium Conditions
Link NOC:Strength of Materials - IITM Lecture 7 - Mohr's Circle
Link NOC:Strength of Materials - IITM Lecture 8 - Proof of Mohr's Circle
Link NOC:Strength of Materials - IITM Lecture 9 - Principal Stresses
Link NOC:Strength of Materials - IITM Lecture 10 - Octahedral and Deviatoric Stresses and Principal Directions
Link NOC:Strength of Materials - IITM Lecture 11 - Free Surfaces
Link NOC:Strength of Materials - IITM Lecture 12 - Photoelasticity
Link NOC:Strength of Materials - IITM Lecture 13 - Strain
Link NOC:Strength of Materials - IITM Lecture 14 - State of Strain
Link NOC:Strength of Materials - IITM Lecture 15 - Strain Measurement
Link NOC:Strength of Materials - IITM Lecture 16 - Tension Test
Link NOC:Strength of Materials - IITM Lecture 17 - Stress Strain Relations
Link NOC:Strength of Materials - IITM Lecture 18 - Interrelations between Elastic Constants
Link NOC:Strength of Materials - IITM Lecture 19 - Thermal Strain
Link NOC:Strength of Materials - IITM Lecture 20 - Torsion 1 - Thought and Physical Experiments
Link NOC:Strength of Materials - IITM Lecture 21 - Torsion 2 - Mathematical Development
Link NOC:Strength of Materials - IITM Lecture 22 - Torsion 3 - Problem solving, Hollow shaft
Link NOC:Strength of Materials - IITM Lecture 23 - Bending 1 - Euler-Bernoulli Hypothesis
Link NOC:Strength of Materials - IITM Lecture 24 - Bending 2 - Flexure Formula
Link NOC:Strength of Materials - IITM Lecture 25 - Bending 3 - Engineering Analysis of Beams
Link NOC:Strength of Materials - IITM Lecture 26 - Bending 4 - Shear Stress in Beams
Link NOC:Strength of Materials - IITM Lecture 27 - Bending 5 - Composite Beams
Link NOC:Strength of Materials - IITM Lecture 28 - Bending 6 - Shear in I Beams and Shear Centre
Link NOC:Strength of Materials - IITM Lecture 29 - Bending 7 - Unsymmetrical Bending and Combined Loading
Link NOC:Strength of Materials - IITM Lecture 30 - Review 1
Link NOC:Strength of Materials - IITM Lecture 31 - Deflection 1 - Moment-Curvature and Load Deflection
Link NOC:Strength of Materials - IITM Lecture 32 - Deflection 2 - Moment-Area Method
Link NOC:Strength of Materials - IITM Lecture 33 - Deflection 3 - Method of Superposition and Energy Method
Link NOC:Strength of Materials - IITM Lecture 34 - Deflection 4 - Fictitious Load Method
Link NOC:Strength of Materials - IITM Lecture 35 - Theories of Failure 1 - Overview
Link NOC:Strength of Materials - IITM Lecture 36 - Theories of Failure 2 - Yield surfaces, Mohr's Theory and Failure in Combined Loading
Link NOC:Strength of Materials - IITM Lecture 37 - Stability 1 - Governing Equations, Fixed-free and Pinned-pinned
Link NOC:Strength of Materials - IITM Lecture 38 - Stability 2 - Fixed-pinned, Fixed-fixed
Link NOC:Strength of Materials - IITM Lecture 39 - Review 2
Link NOC:Engineering Thermodynamics Lecture 1 - Course outline
Link NOC:Engineering Thermodynamics Lecture 2 - Introduction - Part 1
Link NOC:Engineering Thermodynamics Lecture 3 - Introduction - Part 2
Link NOC:Engineering Thermodynamics Lecture 4 - Basic concepts - Part 1
Link NOC:Engineering Thermodynamics Lecture 5 - Basic concepts - Part 2
Link NOC:Engineering Thermodynamics Lecture 6 - Basic concepts - Part 3
Link NOC:Engineering Thermodynamics Lecture 7 - Basic concepts - Part 4
Link NOC:Engineering Thermodynamics Lecture 8 - Basic concepts - Part 5
Link NOC:Engineering Thermodynamics Lecture 9 - Tutorial 1 - Basic concepts, pressure and temperature measurements - Part 1
Link NOC:Engineering Thermodynamics Lecture 10 - Tutorial 1 - Basic concepts, pressure and temperature measurements - Part 2
Link NOC:Engineering Thermodynamics Lecture 11 - Tutorial 1 - Basic concepts, pressure and temperature measurements - Part 3
Link NOC:Engineering Thermodynamics Lecture 12 - Work and Heat - Part 1
Link NOC:Engineering Thermodynamics Lecture 13 - Work and Heat - Part 2
Link NOC:Engineering Thermodynamics Lecture 14 - Work and Heat - Part 3
Link NOC:Engineering Thermodynamics Lecture 15 - Tutorial 2 - Work and heat transfer examples - Part 1
Link NOC:Engineering Thermodynamics Lecture 16 - Tutorial 2 - Work and heat transfer examples - Part 2
Link NOC:Engineering Thermodynamics Lecture 17 - Tutorial 2 - Work and heat transfer examples - Part 3
Link NOC:Engineering Thermodynamics Lecture 18 - First law of thermodynamics
Link NOC:Engineering Thermodynamics Lecture 19 - Pure substances
Link NOC:Engineering Thermodynamics Lecture 20 - Ideal gases and ideal gas mixtures
Link NOC:Engineering Thermodynamics Lecture 21 - Two-phase mixtures - Part 1
Link NOC:Engineering Thermodynamics Lecture 22 - Two-phase mixtures - Part 2
Link NOC:Engineering Thermodynamics Lecture 23 - First law analysis of systems - Part 1
Link NOC:Engineering Thermodynamics Lecture 24 - First law analysis of systems - Part 2
Link NOC:Engineering Thermodynamics Lecture 25 - First law analysis of systems - Part 3
Link NOC:Engineering Thermodynamics Lecture 26 - First law analysis of systems - Part 4
Link NOC:Engineering Thermodynamics Lecture 27 - Tutorial 3 - First law analysis of system - Part 1
Link NOC:Engineering Thermodynamics Lecture 28 - Tutorial 3 - First law analysis of system - Part 2
Link NOC:Engineering Thermodynamics Lecture 29 - Tutorial 3 - First law analysis of system - Part 3
Link NOC:Engineering Thermodynamics Lecture 30 - Tutorial 4 - Systems involving ideal gas mixtures - Part 1
Link NOC:Engineering Thermodynamics Lecture 31 - Tutorial 4 - Systems involving ideal gas mixtures - Part 2
Link NOC:Engineering Thermodynamics Lecture 32 - Tutorial 4 - Systems involving ideal gas mixtures - Part 3
Link NOC:Engineering Thermodynamics Lecture 33 - Tutorial 5 - Systems involving Steam and R134a using table - Part 1
Link NOC:Engineering Thermodynamics Lecture 34 - Tutorial 5 - Systems involving Steam and R134a using table - Part 2
Link NOC:Engineering Thermodynamics Lecture 35 - Tutorial 5 - Systems involving Steam and R134a using table - Part 3
Link NOC:Engineering Thermodynamics Lecture 36 - Tutorial 5 - Systems involving Steam and R134a using table - Part 4
Link NOC:Engineering Thermodynamics Lecture 37 - Tutorial 5 - Systems involving Steam and R134a using table - Part 5
Link NOC:Engineering Thermodynamics Lecture 38 - Tutorial 5 - Systems involving Steam and R134a using table - Part 6
Link NOC:Engineering Thermodynamics Lecture 39 - First law of thermodynamics for a control colume
Link NOC:Engineering Thermodynamics Lecture 40 - Control volume analysis of steady flow devices - Part 1
Link NOC:Engineering Thermodynamics Lecture 41 - Control volume analysis of steady flow devices - Part 2
Link NOC:Engineering Thermodynamics Lecture 42 - Control volume analysis of steady flow devices - Part 3
Link NOC:Engineering Thermodynamics Lecture 43 - Unsteady analysis
Link NOC:Engineering Thermodynamics Lecture 44 - Tutorial 6 - First law for control volumes
Link NOC:Engineering Thermodynamics Lecture 45 - Second law of Thermodynamics - Part 1
Link NOC:Engineering Thermodynamics Lecture 46 - Second law of Thermodynamics - Part 2
Link NOC:Engineering Thermodynamics Lecture 47 - Second law of Thermodynamics - Part 3
Link NOC:Engineering Thermodynamics Lecture 48 - Second law of Thermodynamics - Part 4
Link NOC:Engineering Thermodynamics Lecture 49 - Second law of Thermodynamics - Part 5
Link NOC:Engineering Thermodynamics Lecture 50 - Tutorial 7 - Second law of thermodynamics - Part 1
Link NOC:Engineering Thermodynamics Lecture 51 - Tutorial 7 - Second law of thermodynamics - Part 2
Link NOC:Engineering Thermodynamics Lecture 52 - Tutorial 7 - Second law of thermodynamics - Part 3
Link NOC:Engineering Thermodynamics Lecture 53 - Tutorial 7 - Second law of thermodynamics - Part 4
Link NOC:Engineering Thermodynamics Lecture 54 - Tutorial 7 - Second law of thermodynamics - Part 5
Link NOC:Engineering Thermodynamics Lecture 55 - Entropy - Part 1
Link NOC:Engineering Thermodynamics Lecture 56 - Entropy - Part 2
Link NOC:Engineering Thermodynamics Lecture 57 - Entropy - Part 3
Link NOC:Engineering Thermodynamics Lecture 58 - Entropy - Part 4
Link NOC:Engineering Thermodynamics Lecture 59 - Entropy - Part 5
Link NOC:Engineering Thermodynamics Lecture 60 - Entropy - Part 6
Link NOC:Engineering Thermodynamics Lecture 61 - Tutorial 8 - Entropy - Part 1
Link NOC:Engineering Thermodynamics Lecture 62 - Tutorial 8 - Entropy - Part 2
Link NOC:Engineering Thermodynamics Lecture 63 - Tutorial 8 - Entropy - Part 3
Link NOC:Engineering Thermodynamics Lecture 64 - Tutorial 8 - Entropy - Part 4
Link NOC:Engineering Thermodynamics Lecture 65 - Tutorial 8 - Entropy - Part 5
Link NOC:Engineering Thermodynamics Lecture 66 - Thermodynamic cycles - Part 1
Link NOC:Engineering Thermodynamics Lecture 67 - Thermodynamic cycles - Part 2
Link NOC:Engineering Thermodynamics Lecture 68 - Tutorial 9 - Thermodynamic cycles - Part 1
Link NOC:Engineering Thermodynamics Lecture 69 - Tutorial 9 - Thermodynamic cycles - Part 2
Link NOC:Engineering Thermodynamics Lecture 70 - Tutorial 9 - Thermodynamic cycles - Part 3
Link NOC:Theory of Fire Propagation (Fire Dynamics) Lecture 1 - Basics of Fire - Part 1
Link NOC:Theory of Fire Propagation (Fire Dynamics) Lecture 2 - Basics of Fire - Part 2
Link NOC:Theory of Fire Propagation (Fire Dynamics) Lecture 3 - Basics of Fire - Part 3
Link NOC:Theory of Fire Propagation (Fire Dynamics) Lecture 4 - Basics of Fire - Part 4
Link NOC:Theory of Fire Propagation (Fire Dynamics) Lecture 5 - Basics of Fire - Part 5
Link NOC:Theory of Fire Propagation (Fire Dynamics) Lecture 6 - Basics of Fire - Part 6
Link NOC:Theory of Fire Propagation (Fire Dynamics) Lecture 7 - Basics of Fire - Part 7
Link NOC:Theory of Fire Propagation (Fire Dynamics) Lecture 8 - Basics of Fire - Part 8
Link NOC:Theory of Fire Propagation (Fire Dynamics) Lecture 9 - Basics of Fire - Part 9
Link NOC:Theory of Fire Propagation (Fire Dynamics) Lecture 10 - Review of thermo-chemistry, chemical equilibrium and kinetics - Part 1
Link NOC:Theory of Fire Propagation (Fire Dynamics) Lecture 11 - Review of thermo-chemistry, chemical equilibrium and kinetics - Part 2
Link NOC:Theory of Fire Propagation (Fire Dynamics) Lecture 12 - Review of thermo-chemistry, chemical equilibrium and kinetics - Part 3
Link NOC:Theory of Fire Propagation (Fire Dynamics) Lecture 13 - Review of thermo-chemistry, chemical equilibrium and kinetics - Part 4
Link NOC:Theory of Fire Propagation (Fire Dynamics) Lecture 14 - Review of thermo-chemistry, chemical equilibrium and kinetics - Part 5
Link NOC:Theory of Fire Propagation (Fire Dynamics) Lecture 15 - Review of thermo-chemistry, chemical equilibrium and kinetics - Part 6
Link NOC:Theory of Fire Propagation (Fire Dynamics) Lecture 16 - Review of thermo-chemistry, chemical equilibrium and kinetics - Part 7
Link NOC:Theory of Fire Propagation (Fire Dynamics) Lecture 17 - Review of thermo-chemistry, chemical equilibrium and kinetics - Part 8
Link NOC:Theory of Fire Propagation (Fire Dynamics) Lecture 18 - Review of Premixed and Diffusion Flames - Part 1
Link NOC:Theory of Fire Propagation (Fire Dynamics) Lecture 19 - Review of Premixed and Diffusion Flames - Part 2
Link NOC:Theory of Fire Propagation (Fire Dynamics) Lecture 20 - Review of Premixed and Diffusion Flames - Part 3
Link NOC:Theory of Fire Propagation (Fire Dynamics) Lecture 21 - Review of Premixed and Diffusion Flames - Part 4
Link NOC:Theory of Fire Propagation (Fire Dynamics) Lecture 22 - Review of Premixed and Diffusion Flames - Part 5
Link NOC:Theory of Fire Propagation (Fire Dynamics) Lecture 23 - Review of Premixed and Diffusion Flames - Part 6
Link NOC:Theory of Fire Propagation (Fire Dynamics) Lecture 24 - Review of Premixed and Diffusion Flames - Part 7
Link NOC:Theory of Fire Propagation (Fire Dynamics) Lecture 25 - Review of Premixed and Diffusion Flames - Part 8
Link NOC:Theory of Fire Propagation (Fire Dynamics) Lecture 26 - Burning of Liquid Fuels- Part 1
Link NOC:Theory of Fire Propagation (Fire Dynamics) Lecture 27 - Burning of Liquid Fuels- Part 2
Link NOC:Theory of Fire Propagation (Fire Dynamics) Lecture 28 - Burning of Liquid Fuels- Part 3
Link NOC:Theory of Fire Propagation (Fire Dynamics) Lecture 29 - Burning of Liquid Fuels- Part 4
Link NOC:Theory of Fire Propagation (Fire Dynamics) Lecture 30 - Burning of Liquid Fuels- Part 5
Link NOC:Theory of Fire Propagation (Fire Dynamics) Lecture 31 - Burning of Liquid Fuels- Part 6
Link NOC:Theory of Fire Propagation (Fire Dynamics) Lecture 32 - Burning of Liquid Fuels- Part 7
Link NOC:Theory of Fire Propagation (Fire Dynamics) Lecture 33 - Burning of Liquid Fuels- Part 8
Link NOC:Theory of Fire Propagation (Fire Dynamics) Lecture 34 - Burning of Solid Fuels - Part 1
Link NOC:Theory of Fire Propagation (Fire Dynamics) Lecture 35 - Burning of Solid Fuels - Part 2
Link NOC:Theory of Fire Propagation (Fire Dynamics) Lecture 36 - Burning of Solid Fuels - Part 3
Link NOC:Theory of Fire Propagation (Fire Dynamics) Lecture 37 - Burning of Solid Fuels - Part 4
Link NOC:Theory of Fire Propagation (Fire Dynamics) Lecture 38 - Burning of Solid Fuels - Part 5
Link NOC:Theory of Fire Propagation (Fire Dynamics) Lecture 39 - Burning of Solid Fuels - Part 6
Link NOC:Theory of Fire Propagation (Fire Dynamics) Lecture 40 - Burning of Solid Fuels - Part 7
Link NOC:Theory of Fire Propagation (Fire Dynamics) Lecture 41 - Analysis of Fire Plumes - Part 1
Link NOC:Theory of Fire Propagation (Fire Dynamics) Lecture 42 - Analysis of Fire Plumes - Part 2
Link NOC:Theory of Fire Propagation (Fire Dynamics) Lecture 43 - Analysis of Fire Plumes - Part 3
Link NOC:Theory of Fire Propagation (Fire Dynamics) Lecture 44 - Analysis of Fire Plumes - Part 4
Link NOC:Theory of Fire Propagation (Fire Dynamics) Lecture 45 - Analysis of Fire Plumes - Part 5
Link NOC:Theory of Fire Propagation (Fire Dynamics) Lecture 46 - Analysis of Fire Plumes - Part 6
Link NOC:Theory of Fire Propagation (Fire Dynamics) Lecture 47 - Enclosure Fires - Part 1
Link NOC:Theory of Fire Propagation (Fire Dynamics) Lecture 48 - Enclosure Fires - Part 2
Link NOC:Theory of Fire Propagation (Fire Dynamics) Lecture 49 - Enclosure Fires - Part 3
Link NOC:Theory of Fire Propagation (Fire Dynamics) Lecture 50 - Enclosure Fires - Part 4
Link NOC:Theory of Fire Propagation (Fire Dynamics) Lecture 51 - Enclosure Fires - Part 5
Link NOC:Theory of Fire Propagation (Fire Dynamics) Lecture 52 - Enclosure Fires - Part 6
Link NOC:Theory of Fire Propagation (Fire Dynamics) Lecture 53 - Enclosure Fires - Part 7
Link NOC:Theory of Fire Propagation (Fire Dynamics) Lecture 54 - Introduction to dust ignition, dust explosion and forest fires - Part 1
Link NOC:Theory of Fire Propagation (Fire Dynamics) Lecture 55 - Introduction to dust ignition, dust explosion and forest fires - Part 2
Link NOC:Theory of Fire Propagation (Fire Dynamics) Lecture 56 - Introduction to dust ignition, dust explosion and forest fires - Part 3
Link NOC:Theory of Fire Propagation (Fire Dynamics) Lecture 57 - Introduction to dust ignition, dust explosion and forest fires - Part 4
Link NOC:Theory of Fire Propagation (Fire Dynamics) Lecture 58 - Introduction to dust ignition, dust explosion and forest fires - Part 5
Link NOC:Theory of Fire Propagation (Fire Dynamics) Lecture 59 - Fire safety aspects - Part 1
Link NOC:Theory of Fire Propagation (Fire Dynamics) Lecture 60 - Fire safety aspects - Part 2
Link NOC:Theory of Fire Propagation (Fire Dynamics) Lecture 61 - Fire safety aspects - Part 3
Link Data-Driven Models for Unsteady Fluid Flow Lecture 1 - Data-driven models for unsteady fluid flows: Course overview
Link Data-Driven Models for Unsteady Fluid Flow Lecture 2 - Data generation techniques for fluid flows
Link Data-Driven Models for Unsteady Fluid Flow Lecture 3 - Dimensionality reduction of fluid flows
Link Data-Driven Models for Unsteady Fluid Flow Lecture 4 - Reduced-order modeling of fluid flows
Link Data-Driven Models for Unsteady Fluid Flow Lecture 5 - Turbulence modeling
Link NOC:Applied Thermodynamics (2024) Lecture 1 - Introduction
Link NOC:Applied Thermodynamics (2024) Lecture 2 - Entropy change of a control volume - Part 1
Link NOC:Applied Thermodynamics (2024) Lecture 3 - Entropy change of a control volume - Part 2
Link NOC:Applied Thermodynamics (2024) Lecture 4 - Entropy change of a control volume - Part 3
Link NOC:Applied Thermodynamics (2024) Lecture 5 - Work interaction of internally reversible steady flow processes
Link NOC:Applied Thermodynamics (2024) Lecture 6 - Tutorial 1 - Entropy change of a control volume - Part 1
Link NOC:Applied Thermodynamics (2024) Lecture 7 - Tutorial 1 - Entropy change of a control volume - Part 2
Link NOC:Applied Thermodynamics (2024) Lecture 8 - Tutorial 2 - Entropy change of a control volume - Part 3
Link NOC:Applied Thermodynamics (2024) Lecture 9 - Tutorial 2 - Entropy change of a control volume - Part 4
Link NOC:Applied Thermodynamics (2024) Lecture 10 - Tutorial 2 - Entropy change of a control volume - Part 5
Link NOC:Applied Thermodynamics (2024) Lecture 11 - Tutorial 3 - Entropy change of a control volume, Work interaction of internally reversible - Part 1
Link NOC:Applied Thermodynamics (2024) Lecture 12 - Tutorial 3 - Entropy change of a control volume, Work interaction of internally reversible - Part 2
Link NOC:Applied Thermodynamics (2024) Lecture 13 - Tutorial 3 - Entropy change of a control volume, Work interaction of internally reversible - Part 3
Link NOC:Applied Thermodynamics (2024) Lecture 14 - Exergy - Part 1
Link NOC:Applied Thermodynamics (2024) Lecture 15 - Exergy - Part 2
Link NOC:Applied Thermodynamics (2024) Lecture 16 - Exergy - Part 3
Link NOC:Applied Thermodynamics (2024) Lecture 17 - Exergy - Part 4
Link NOC:Applied Thermodynamics (2024) Lecture 18 - Exergy - Part 5
Link NOC:Applied Thermodynamics (2024) Lecture 19 - Tutorial 4 - Exergy transfer and exergy change of a system - Part 1
Link NOC:Applied Thermodynamics (2024) Lecture 20 - Tutorial 4 - Exergy transfer and exergy change of a system - Part 2
Link NOC:Applied Thermodynamics (2024) Lecture 21 - Tutorial 5 - Exergy transfer and exergy change of a system - Part 3
Link NOC:Applied Thermodynamics (2024) Lecture 22 - Tutorial 5 - Exergy transfer and exergy change of a system - Part 4
Link NOC:Applied Thermodynamics (2024) Lecture 23 - Tutorial 5 - Exergy transfer and exergy change of a system - Part 5
Link NOC:Applied Thermodynamics (2024) Lecture 24 - Tutorial 6 - Exergy transfer and exergy change of a control volume - Part 1
Link NOC:Applied Thermodynamics (2024) Lecture 25 - Tutorial 6 - Exergy transfer and exergy change of a control volume - Part 2
Link NOC:Applied Thermodynamics (2024) Lecture 26 - Tutorial 6 - Exergy transfer and exergy change of a control volume - Part 3
Link NOC:Applied Thermodynamics (2024) Lecture 27 - Thermodynamic cycles - Rankine cycle - Part 1
Link NOC:Applied Thermodynamics (2024) Lecture 28 - Thermodynamic cycles - Rankine cycle - Part 2
Link NOC:Applied Thermodynamics (2024) Lecture 29 - Thermodynamic cycles - Rankine cycle - Part 3
Link NOC:Applied Thermodynamics (2024) Lecture 30 - Thermodynamic cycles - Air standard Brayton cycle - Part 1
Link NOC:Applied Thermodynamics (2024) Lecture 31 - Thermodynamic cycles - Air standard Brayton cycle - Part 2
Link NOC:Applied Thermodynamics (2024) Lecture 32 - Thermodynamic cycles - Air standard Brayton cycle - Part 3
Link NOC:Applied Thermodynamics (2024) Lecture 33 - Thermodynamic cycles - Air standard Brayton cycle - Part 4
Link NOC:Applied Thermodynamics (2024) Lecture 34 - Thermodynamic cycles - Air standard Brayton cycle - Part 5
Link NOC:Applied Thermodynamics (2024) Lecture 35 - Thermodynamic cycles - Air standard Otto cycle
Link NOC:Applied Thermodynamics (2024) Lecture 36 - Thermodynamic cycles - Air standard Diesel cycle - Part 1
Link NOC:Applied Thermodynamics (2024) Lecture 37 - Thermodynamic cycles - Air standard Diesel cycle - Part 2
Link NOC:Applied Thermodynamics (2024) Lecture 38 - Thermodynamic cycles - Vapor compression refrigeration cycle
Link NOC:Applied Thermodynamics (2024) Lecture 39 - Psychrometry - Part 1
Link NOC:Applied Thermodynamics (2024) Lecture 40 - Psychrometry - Part 2
Link NOC:Applied Thermodynamics (2024) Lecture 41 - Psychrometry - Part 3
Link NOC:Applied Thermodynamics (2024) Lecture 42 - Psychrometry - Part 4
Link NOC:Applied Thermodynamics (2024) Lecture 43 - Psychrometry - Part 5
Link NOC:Applied Thermodynamics (2024) Lecture 44 - Psychrometry - Part 6
Link NOC:Applied Thermodynamics (2024) Lecture 45 - Psychrometry - Part 7
Link NOC:Applied Thermodynamics (2024) Lecture 46 - Tutorial 7 - Psychometry and Air conditioning processes - Part 1
Link NOC:Applied Thermodynamics (2024) Lecture 47 - Tutorial 7 - Psychometry and Air conditioning processes - Part 2
Link NOC:Applied Thermodynamics (2024) Lecture 48 - Tutorial 8 - Psychometry and Air conditioning processes - Part 3
Link NOC:Applied Thermodynamics (2024) Lecture 49 - Tutorial 8 - Psychometry and Air conditioning processes - Part 4
Link NOC:Applied Thermodynamics (2024) Lecture 50 - Combustion Thermodynamics - Part 1
Link NOC:Applied Thermodynamics (2024) Lecture 51 - Combustion Thermodynamics - Part 2
Link NOC:Applied Thermodynamics (2024) Lecture 52 - Combustion Thermodynamics - Part 3
Link NOC:Applied Thermodynamics (2024) Lecture 53 - Combustion Thermodynamics - Part 4
Link NOC:Applied Thermodynamics (2024) Lecture 54 - Tutorial 9 - Stoichiometry - Part 1
Link NOC:Applied Thermodynamics (2024) Lecture 55 - Tutorial 9 - Stoichiometry - Part 2
Link NOC:Applied Thermodynamics (2024) Lecture 56 - Tutorial 10 - Heat and temperature calculations in combustion - Part 1
Link NOC:Applied Thermodynamics (2024) Lecture 57 - Tutorial 10 - Heat and temperature calculations in combustion - Part 2
Link NOC:Applied Thermodynamics (2024) Lecture 58 - Tutorial 10 - Heat and temperature calculations in combustion - Part 3
Link NOC:Applied Thermodynamics (2024) Lecture 59 - Tutorial 10 - Heat and temperature calculations in combustion - Part 4
Link NOC:Applied Thermodynamics (2024) Lecture 60 - Tutorial 10 - Heat and temperature calculations in combustion - Part 5
Link NOC:Applied Thermodynamics (2024) Lecture 61 - Compressible flow through nozzles - Part 1
Link NOC:Applied Thermodynamics (2024) Lecture 62 - Compressible flow through nozzles - Part 2
Link NOC:Applied Thermodynamics (2024) Lecture 63 - Compressible flow through nozzles - Part 3
Link NOC:Applied Thermodynamics (2024) Lecture 64 - Compressible flow through nozzles - Part 4
Link NOC:Applied Thermodynamics (2024) Lecture 65 - Compressible flow through nozzles - Part 5
Link NOC:Applied Thermodynamics (2024) Lecture 66 - Compressible flow through nozzles - Part 6
Link NOC:Applied Thermodynamics (2024) Lecture 67 - Compressible flow through nozzles - Part 7
Link NOC:Applied Thermodynamics (2024) Lecture 68 - Compressible flow through nozzles - Part 8
Link NOC:Applied Thermodynamics (2024) Lecture 69 - Compressible flow through nozzles - Part 9
Link NOC:Applied Thermodynamics (2024) Lecture 70 - Compressible flow through nozzles - Part 10
Link NOC:Applied Thermodynamics (2024) Lecture 71 - Compressible flow through nozzles - Part 11
Link NOC:Applied Thermodynamics (2024) Lecture 72 - Compressible flow through nozzles - Part 12
Link NOC:Design of Mechanical Transmission Systems Lecture 1 - Course Introduction, Evaluation, and Application of Gearbox
Link NOC:Design of Mechanical Transmission Systems Lecture 2 - Machine Tool Gearbox: GP, Step Ratio, Preferred Numbers, Structural Formula and Rules of Optimum Gearbox
Link NOC:Design of Mechanical Transmission Systems Lecture 3 - Machine Tool Gearbox: Ray Diagram Construction
Link NOC:Design of Mechanical Transmission Systems Lecture 4 - Machine Tool Gearbox: Kinematic Diagram Construction
Link NOC:Design of Mechanical Transmission Systems Lecture 5 - Machine Tool Gearbox: Centre Distance and Teeth Calculation
Link NOC:Design of Mechanical Transmission Systems Lecture 6 - Machine Tool Gearbox: Problem Solving
Link NOC:Design of Mechanical Transmission Systems Lecture 7 - Automobile Gearbox: General Engine Operation and Transmission Types
Link NOC:Design of Mechanical Transmission Systems Lecture 8 - Automobile Gearbox: Saw Tooth Diagram and Design Procedure for Gearbox
Link NOC:Design of Mechanical Transmission Systems Lecture 9 - Automobile Gearbox: Problem Solving and Tyre Specification
Link NOC:Design of Mechanical Transmission Systems Lecture 10 - Automobile Gearbox: Basic Transmission Types and Kinematic Diagram
Link NOC:Design of Mechanical Transmission Systems Lecture 11 - Automobile Gearbox: Gear Failures and Material Selection
Link NOC:Design of Mechanical Transmission Systems Lecture 12 - Automobile Gearbox: Module Calculation Concept - Part I
Link NOC:Design of Mechanical Transmission Systems Lecture 13 - Automobile Gearbox: Module Calculation Concept - Part II
Link NOC:Design of Mechanical Transmission Systems Lecture 14 - Automobile Gearbox: Shaft Design, Lubrication Selection and Method
Link NOC:Design of Mechanical Transmission Systems Lecture 15 - Automobile Gearbox: Bearing Selection and Gearbox Losses
Link NOC:Design of Mechanical Transmission Systems Lecture 16 - Brake: Introduction, Working Principle and Types
Link NOC:Design of Mechanical Transmission Systems Lecture 17 - Brake: Torque Requirement for Drum Brake Systems
Link NOC:Design of Mechanical Transmission Systems Lecture 18 - Brake: Problem Solving
Link NOC:Design of Mechanical Transmission Systems Lecture 19 - Brake: Torque Requirement for Disc Brake Systems
Link NOC:Design of Mechanical Transmission Systems Lecture 20 - Brake: Static and Dynamic Analysis
Link NOC:Design of Mechanical Transmission Systems Lecture 21 - Brake: Dynamic Analysis - Brake Force Distribution and Optimum
Link NOC:Design of Mechanical Transmission Systems Lecture 22 - Brake: Problem Solving
Link NOC:Design of Mechanical Transmission Systems Lecture 23 - Brake: Braking Efficiency and Distance and Brake Factor
Link NOC:Design of Mechanical Transmission Systems Lecture 24 - Brake: Problem Solving and Friction Materials
Link NOC:Design of Mechanical Transmission Systems Lecture 25 - Brake: Thermal Analysis and Braking Conditions
Link NOC:Design of Mechanical Transmission Systems Lecture 26 - Brake: Energy and Power, Braking Power Absorbed by Lining and Drum/Disc
Link NOC:Design of Mechanical Transmission Systems Lecture 27 - Brake: Single Stop Braking and Repeated Braking - Temperature Analysis
Link NOC:Design of Mechanical Transmission Systems Lecture 28 - Brake: Thermal Analysis Problem Solving
Link NOC:Design of Mechanical Transmission Systems Lecture 29 - Clutch: Types and Working Method
Link NOC:Design of Mechanical Transmission Systems Lecture 30 - Clutch: Torque Transmitting Capacity - Uniform Pressure and Wear Theories
Link NOC:Design of Mechanical Transmission Systems Lecture 31 - Clutch: Multiple Discs and Cone Clutches, Problem Solving
Link NOC:Design of Mechanical Transmission Systems Lecture 32 - Clutch: Centrifugal Clutch
Link NOC:Design of Mechanical Transmission Systems Lecture 33 - Clutch: Dynamic Analysis
Link NOC:Design of Mechanical Transmission Systems Lecture 34 - Clutch: Dynamic Analysis Problem Solving
Link NOC:Turbulence Modeling Lecture 1 - Introduction to turbulence
Link NOC:Turbulence Modeling Lecture 2 - Statistical Analysis: An approach of modelling turbulence - I
Link NOC:Turbulence Modeling Lecture 3 - Statistical Analysis: An approach of modelling turbulence - II
Link NOC:Turbulence Modeling Lecture 4 - Statistical Analysis and Cartesian tensors - I
Link NOC:Turbulence Modeling Lecture 5 - Statistical Analysis and Cartesian tensors - II
Link NOC:Turbulence Modeling Lecture 6 - Navier Stokes: the governing equations - 1
Link NOC:Turbulence Modeling Lecture 7 - Navier Stokes: the governing equations - 2
Link NOC:Turbulence Modeling Lecture 8 - RANS equations I - 1
Link NOC:Turbulence Modeling Lecture 9 - RANS equations I - 2
Link NOC:Turbulence Modeling Lecture 10 - RANS equations II - 1
Link NOC:Turbulence Modeling Lecture 11 - RANS equations II - 2
Link NOC:Turbulence Modeling Lecture 12 - Reynold's stress: governing equations - I
Link NOC:Turbulence Modeling Lecture 13 - Reynold's stress: governing equations - II
Link NOC:Turbulence Modeling Lecture 14 - Statistical Stationarity and Homogenity in Plane Couttee Flows - I
Link NOC:Turbulence Modeling Lecture 15 - Statistical Stationarity and Homogenity in Plane Couttee Flows - II
Link NOC:Turbulence Modeling Lecture 16 - Pressure-strain-rate and redistribution of turbulence in flows - I
Link NOC:Turbulence Modeling Lecture 17 - Pressure-strain-rate and redistribution of turbulence in flows - II
Link NOC:Turbulence Modeling Lecture 18 - Turbulence Kinetic Energy and it's dissipation rate - I
Link NOC:Turbulence Modeling Lecture 19 - Turbulence Kinetic Energy and it's dissipation rate - II
Link NOC:Turbulence Modeling Lecture 20 - Production rate of TKE and Mean TKE - I
Link NOC:Turbulence Modeling Lecture 21 - Production rate of TKE and Mean TKE - II
Link NOC:Turbulence Modeling Lecture 22 - Turbulent Boundary Layer: Order of Magnitude analysis - I
Link NOC:Turbulence Modeling Lecture 23 - Turbulent Boundary Layer: Order of Magnitude analysis - II
Link NOC:Turbulence Modeling Lecture 24 - Inner and Outer TBL: Order of magnitude analysis - I
Link NOC:Turbulence Modeling Lecture 25 - Inner and Outer TBL: Order of magnitude analysis - II
Link NOC:Turbulence Modeling Lecture 26 - Inner layer equation, constant stress layer, and inner velocity scaling - I
Link NOC:Turbulence Modeling Lecture 27 - Inner layer equation, constant stress layer, and inner velocity scaling - II
Link NOC:Turbulence Modeling Lecture 28 - Reynold's Averaged Navier-Stokes (RANS) models - I
Link NOC:Turbulence Modeling Lecture 29 - Reynold's Averaged Navier-Stokes (RANS) models - II
Link NOC:Turbulence Modeling Lecture 30 - Different approaches to solve turbulence closure problem - I
Link NOC:Turbulence Modeling Lecture 31 - Different approaches to solve turbulence closure problem - II
Link NOC:Turbulence Modeling Lecture 32 - Modelling of turbulent kinetic energy (k): production, destruction, and dissipation rate - I
Link NOC:Turbulence Modeling Lecture 33 - Modelling of turbulent kinetic energy (k): production, destruction, and dissipation rate - II
Link NOC:Turbulence Modeling Lecture 34 - Standard k-? model and the model constants - I
Link NOC:Turbulence Modeling Lecture 35 - Standard k-? model and the model constants - II
Link NOC:Turbulence Modeling Lecture 36 - Standard k-? model, RNG k-? model, and Prandlt’s one equation model - I
Link NOC:Turbulence Modeling Lecture 37 - Standard k-? model, RNG k-? model, and Prandlt’s one equation model - II
Link NOC:Turbulence Modeling Lecture 38 - New model k- ? and model constants - I
Link NOC:Turbulence Modeling Lecture 39 - New model k- ? and model constants - II
Link NOC:Turbulence Modeling Lecture 40 - Introduciton to wall-functions - I
Link NOC:Turbulence Modeling Lecture 41 - Introduciton to wall-functions - II
Link NOC:Turbulence Modeling Lecture 42 - Introduction to wall-resolved simulations - I
Link NOC:Turbulence Modeling Lecture 43 - Introduction to wall-resolved simulations - II
Link NOC:Turbulence Modeling Lecture 44 - Damping functions for LRN - I
Link NOC:Turbulence Modeling Lecture 45 - Damping functions for LRN - II
Link NOC:Turbulence Modeling Lecture 46 - Boundary and Initial conditions for RANS simulations - I
Link NOC:Turbulence Modeling Lecture 47 - Boundary and Initial conditions for RANS simulations - II
Link NOC:Turbulence Modeling Lecture 48 - Realizability constraints in eddy-viscoscity models - I
Link NOC:Turbulence Modeling Lecture 49 - Realizability constraints in eddy-viscoscity models - II
Link NOC:Turbulence Modeling Lecture 50 - Correctors for eddy-viscoscity models - I
Link NOC:Turbulence Modeling Lecture 51 - Correctors for eddy-viscoscity models - II
Link NOC:Turbulence Modeling Lecture 52 - Reynold’s Stress Modelling (RSM): governing equations - I
Link NOC:Turbulence Modeling Lecture 53 - Reynold’s Stress Modelling (RSM): governing equations - II
Link NOC:Turbulence Modeling Lecture 54 - Dissipation rate and Pressure-Strain rate modelling for RSM - I
Link NOC:Turbulence Modeling Lecture 55 - Dissipation rate and Pressure-Strain rate modelling for RSM - II
Link NOC:Turbulence Modeling Lecture 56 - Pressure-Strain rate modelling for RSM - I
Link NOC:Turbulence Modeling Lecture 57 - Pressure-Strain rate modelling for RSM - II
Link NOC:Turbulence Modeling Lecture 58 - Pressure-Strain rate modelling and wall corrections for RSM - I
Link NOC:Turbulence Modeling Lecture 59 - Pressure-Strain rate modelling and wall corrections for RSM - II
Link NOC:Turbulence Modeling Lecture 60 - Introduction to Eddy Resolved Models - I
Link NOC:Turbulence Modeling Lecture 61 - Introduction to Eddy Resolved Models - II
Link NOC:Turbulence Modeling Lecture 62 - Introduction to Direct Numerical Simulations (DNS) - I
Link NOC:Turbulence Modeling Lecture 63 - Introduction to Direct Numerical Simulations (DNS) - II
Link NOC:Turbulence Modeling Lecture 64 - Introduction to Large Eddy Simulations (LES) Filtering operation and SGS stresses - I
Link NOC:Turbulence Modeling Lecture 65 - Introduction to Large Eddy Simulations (LES) Filtering operation and SGS stresses - II
Link NOC:Turbulence Modeling Lecture 66 - Large Eddy Simulations: Filtered Navier-Stokes Equations - I
Link NOC:Turbulence Modeling Lecture 67 - Large Eddy Simulations: Filtered Navier-Stokes Equations - II
Link NOC:Turbulence Modeling Lecture 68 - Large Eddy Simulations: Filters and its types - I
Link NOC:Turbulence Modeling Lecture 69 - Large Eddy Simulations: Filters and its types - II
Link NOC:Turbulence Modeling Lecture 70 - Large Eddy Simulations: Smagorinsky model - I
Link NOC:Turbulence Modeling Lecture 71 - Large Eddy Simulations: Smagorinsky model - II
Link NOC:Turbulence Modeling Lecture 72 - LES: Dynamic Smagorinsky model and Scale similarity models - I
Link NOC:Turbulence Modeling Lecture 73 - LES: Dynamic Smagorinsky model and Scale similarity models - II
Link NOC:Turbulence Modeling Lecture 74 - Numerics in LES and Hybrid models
Link Advanced Manufacturing Processes Lecture 1 - Manufacturing and Manufacturing Systems
Link Advanced Manufacturing Processes Lecture 2 - Manufacturing Trends and Challenges
Link Advanced Manufacturing Processes Lecture 3 - Manufacturing Aspects, Selection and Classification
Link Advanced Manufacturing Processes Lecture 4 - Description and Taxonomy of the Mfg. Processes
Link Advanced Manufacturing Processes Lecture 5 - Metal Casting basics, Gating and Risering design
Link Advanced Manufacturing Processes Lecture 6 - Evaporative Pattern Casting Process (EPC)
Link Advanced Manufacturing Processes Lecture 7 - Continuous, Permanent mold, Centrifugal and Pressure Die Casting
Link Advanced Manufacturing Processes Lecture 8 - Hybrid EPC Processes and Vacuum EPC Process
Link Advanced Manufacturing Processes Lecture 9 - Set-up of VEPC and Investment Casting Processes
Link Advanced Manufacturing Processes Lecture 10 - Ceramic Shell Investment Casting Process
Link Advanced Manufacturing Processes Lecture 11 - Shell Molding Process
Link Advanced Manufacturing Processes Lecture 12 - Abrasive Flow Machining
Link Advanced Manufacturing Processes Lecture 13 - Mechanism of Material Removal in AFM and Variant processes in AFM
Link Advanced Manufacturing Processes Lecture 14 - Abrasive Jet Machining (AJM)
Link Advanced Manufacturing Processes Lecture 15 - Water Jet and Abrasive Water Jet Machining
Link Advanced Manufacturing Processes Lecture 16 - Ultrasonic Machining Process (USM)
Link Advanced Manufacturing Processes Lecture 17 - Mechanism, Processes Variants and applications of USM
Link Advanced Manufacturing Processes Lecture 18 - Micro USM and advances in USM
Link Advanced Manufacturing Processes Lecture 19 - Electric Discharge Machining (EDM) Process
Link Advanced Manufacturing Processes Lecture 20 - Die-Sinker EDM and Wire Cut Electric Discharge Machining (WEDM)
Link Advanced Manufacturing Processes Lecture 21 - Variant Processes in EDM
Link Advanced Manufacturing Processes Lecture 22 - Electro Chemical Discharge Machining (ECDM)
Link Advanced Manufacturing Processes Lecture 23 - Laser Beam Machining (LBM)
Link Advanced Manufacturing Processes Lecture 24 - Equipment and Process Parameters in LBM
Link Advanced Manufacturing Processes Lecture 25 - Electrochemical Machining (ECM)
Link Advanced Manufacturing Processes Lecture 26 - ECM Kinematics and Tool Design
Link Advanced Manufacturing Processes Lecture 27 - The Subsystems in ECM, advantages and applications
Link Advanced Manufacturing Processes Lecture 28 - Variant Processes in ECM: ECG, ECH, ECDe and STEM
Link Advanced Manufacturing Processes Lecture 29 - Electron Beam, Plasma Beam and Ion Beam Machining
Link Advanced Manufacturing Processes Lecture 30 - Submerged Arc Welding (SAW)
Link Advanced Manufacturing Processes Lecture 31 - Resistance Welding Process
Link Advanced Manufacturing Processes Lecture 32 - Solid State Welding processes
Link Advanced Manufacturing Processes Lecture 33 - Friction Welding process
Link Advanced Manufacturing Processes Lecture 34 - Electron Beam and Plasma Welding Processes
Link Advanced Manufacturing Processes Lecture 35 - Laser Beam welding and Diffusion welding processes
Link Advanced Manufacturing Processes Lecture 36 - High Energy Rate Forming Processes
Link Advanced Manufacturing Processes Lecture 37 - Rapid Prototyping Technology (RPT)
Link Advanced Manufacturing Processes Lecture 38 - Rapid Manufacturing, applications and advancements
Link Advanced Manufacturing Processes Lecture 39 - Microwave Processing of Materials
Link Advanced Manufacturing Processes Lecture 40 - Applications and new trends in Microwave Material Processing
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 1 - General Introduction: Historical Background and Spectrum of Applications
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 2 - CFD: Simulation Process and Course Outline
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 3 - Conservation Laws and Mathematical Preliminaries
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 4 - Mass Conservation: Continuity Equation
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 5 - Momentum Equation: Newton’s 2nd Law
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 6 - Momentum Equation: Navier-Stokes Equations
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 7 - Navier-Stokes Equation and its Simplified Forms
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 8 - Energy and Scalar Transport Equations
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 9 - Scalar Transport, Mathematical Classification and Boundary Conditions
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 10 - Finite Difference Method: Methodology and Grid Notation
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 11 - Finite Difference Approximation of First Order Derivatives
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 12 - Finite Difference Approximation of Second Order Derivatives - 1
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 13 - Finite Difference Approximation of Second Order Derivatives - 2
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 14 - Approximation of Mixed Derivatives and Multi-Dimensional F.D. Formulae
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 15 - Implementation of Boundary Conditions and Finite Difference Algebraic System
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 16 - Applications of FDM to Scalar Transport Problems - 1
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 17 - Applications of FDM to Scalar Transport Problems - 2
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 18 - Application of FDM to Advection-Diffusion and Computer Implementation Aspects
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 19 - Computer Implementation of FDM for Steady State Heat Diffusion Problems - 1
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 20 - Computer Implementation of FDM for Steady State Heat Diffusion Problems - 2
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 21 - Computer Implementation of FDM for Steady State Heat Diffusion Problems - 3
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 22 - Solution of Discrete Algebraic Systems
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 23 - Direct and Basic Iterative Methods for Linear Systems
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 24 - Accelerated Iterative Methods for Linear Systems
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 25 - Two Level and Multi-Level Methods for First Order IVPs - 1
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 26 - Two Level and Multi-Level Methods for First Order IVPs - 2
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 27 - Application to Unsteady Transport Problems
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 28 - Introduction to Finite Volume Method
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 29 - Finite Volume Interpolation Schemes
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 30 - Application of FVM to Scalar Transport
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 31 - Introduction to Finite Element Method
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 32 - Finite Element Shape Functions and Numerical Integration - 1
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 33 - Finite Element Shape Functions and Numerical Integration - 2
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 34 - Application of FEM to Scalar Transport
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 35 - Special Features of Navier-Stokes Equations
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 36 - Time Integration Techniques for Navier-Stokes Equations
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 37 - Implicit Pressure Correction Methods
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 38 - SIMPLEC, SIMPLER and Fractional Step Methods
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 39 - Turbulent Flows: Features and Simulation Strategies
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 40 - Reynolds Averaging and RANS Simulation Models
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 41 - RANS Turbulence Models and Large Eddy Simulation
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 42 - Introduction to Grid Generation
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 43 - Aspects of Practical CFD Analysis
Link Metal Casting Lecture 1 - Introduction
Link Metal Casting Lecture 2 - Overview of different casting processes - 1
Link Metal Casting Lecture 3 - Overview of different casting processes - 2
Link Metal Casting Lecture 4 - Overview of different casting processes - 3
Link Metal Casting Lecture 5 - Terminology and Tools of Sand Moulding
Link Metal Casting Lecture 6 - Moulding Sands and Design - 1
Link Metal Casting Lecture 7 - Moulding Sands and Design - 2
Link Metal Casting Lecture 8 - Moulding Sands Properties
Link Metal Casting Lecture 9 - Moulding Sand Properties Testing
Link Metal Casting Lecture 10 - Cores and Core Sands
Link Metal Casting Lecture 11 - Patterns and Allowances
Link Metal Casting Lecture 12 - Steps Involved in Making a Sand Casting
Link Metal Casting Lecture 13 - Design of Risering System - 1
Link Metal Casting Lecture 14 - Design of Risering System - 2
Link Metal Casting Lecture 15 - Design of Risering System - 3
Link Metal Casting Lecture 16 - Design of Risering System - 4
Link Metal Casting Lecture 17 - Design of Risering System - 5
Link Metal Casting Lecture 18 - Design of Gating System - 1
Link Metal Casting Lecture 19 - Design of Gating System - 2
Link Metal Casting Lecture 20 - Sand Casting Defects - 1
Link Metal Casting Lecture 21 - Sand Casting Defects - 2
Link Metal Casting Lecture 22 - Melting Furnaces and Practice
Link Metal Casting Lecture 23 - Treatment of Molten Metal
Link Metal Casting Lecture 24 - Fluidity of Molten Metal
Link Metal Casting Lecture 25 - Solidification
Link Metal Casting Lecture 26 - Cast Irons and Steels
Link Metal Casting Lecture 27 - Aluminum and Magnesium Cast Alloys
Link Metal Casting Lecture 28 - Copper, Zinc and Titanium Cast Alloys
Link Metal Casting Lecture 29 - Die Casting Process - I
Link Metal Casting Lecture 30 - Die Casting Process - II
Link Metal Casting Lecture 31 - Investment Casting Process - I
Link Metal Casting Lecture 32 - Investment Casting Process - II
Link Metal Casting Lecture 33 - Continuous Casting Process
Link Metal Casting Lecture 34 - Centrifugal Casting Process
Link Metal Casting Lecture 35 - Evaporative Pattern Casting and Plaster Moulding
Link Metal Casting Lecture 36 - Vacuum Sealed Moulding and Squeeze Casting
Link Metal Casting Lecture 37 - Shakeout, Fettling and Finishing
Link Metal Casting Lecture 38 - Inspection, Testing and Quality Control
Link Metal Casting Lecture 39 - Design Consideration and Economics
Link Metal Casting Lecture 40 - Environment, Health and Safety Aspects
Link Processing of non metals Lecture 1 - Engineering Materials and Processing Techniques: Introduction
Link Processing of non metals Lecture 2 - Properties of Non-Metals
Link Processing of non metals Lecture 3 - Glass Structure and Properties
Link Processing of non metals Lecture 4 - Glass Processing - I
Link Processing of non metals Lecture 5 - Glass Processing - II
Link Processing of non metals Lecture 6 - Ceramics - I
Link Processing of non metals Lecture 7 - Ceramics - II
Link Processing of non metals Lecture 8 - Ceramic Powder Preparation
Link Processing of non metals Lecture 9 - Ceramic Powder Preparation – I
Link Processing of non metals Lecture 10 - Processing of Ceramic Parts ? Pressing
Link Processing of non metals Lecture 11 - Processing of Ceramic Parts – II
Link Processing of non metals Lecture 12 - Ceramics: Secondary Processing
Link Processing of non metals Lecture 13 - Thermoplastics and Thermosets
Link Processing of non metals Lecture 14 - Processing of Plastics
Link Processing of non metals Lecture 15 - Extrusion of Plastics
Link Processing of non metals Lecture 16 - Transfer Molding and Compression Molding
Link Processing of non metals Lecture 17 - Injection Molding
Link Processing of non metals Lecture 18 - Thermoforming
Link Processing of non metals Lecture 19 - Rotational Molding and Blow Molding
Link Processing of non metals Lecture 20 - Composite Materials
Link Processing of non metals Lecture 21 - Composite Materials: Classification and Applications
Link Processing of non metals Lecture 22 - Processing of Polymer Matrix Composites
Link Processing of non metals Lecture 23 - Hand Lay-up and Spray Lay-up
Link Processing of non metals Lecture 24 - Pultrusion
Link Processing of non metals Lecture 25 - Compression Molding
Link Processing of non metals Lecture 26 - Filament Winding
Link Processing of non metals Lecture 27 - Injection Molding-1
Link Processing of non metals Lecture 28 - Pre-pregging and Sheet Molding Compounds
Link Processing of non metals Lecture 29 - Resin Transfer Molding and Autoclave Molding
Link Processing of non metals Lecture 30 - Ceramic Matrix Composites
Link Processing of non metals Lecture 31 - Ceramic Matrix Composites: Fundamentals and Properties
Link Processing of non metals Lecture 32 - Powder Processing: Ceramic Matrix Composites
Link Processing of non metals Lecture 33 - Chemical Vapour Infiltration
Link Processing of non metals Lecture 34 - Ceramic Matrix Composites: Processing-1
Link Processing of non metals Lecture 35 - Ceramic Matrix Composites: Post Processing
Link Processing of non metals Lecture 36 - Drilling of Polymer Matrix Composites
Link Processing of non metals Lecture 37 - Hole Making Techniques for Polymer Matrix Composites
Link Processing of non metals Lecture 38 - Joining of Polymer Matrix Composites
Link Processing of non metals Lecture 39 - Microwave Joining of Polymer Matrix Composites
Link Processing of non metals Lecture 40 - Research Tools for Secondary Processing
Link Vibration control Lecture 1 - Basics of Vibrations for Simple Mechanical Systems
Link Vibration control Lecture 2 - Introduction to Damping in Free and Force Vibrations
Link Vibration control Lecture 3 - Free and Forced Vibrations of Two Degree of Systems
Link Vibration control Lecture 4 - Multi Degree of Freedom Systems
Link Vibration control Lecture 5 - Reduction at source - 1
Link Vibration control Lecture 6 - Reduction at source - 2
Link Vibration control Lecture 7 - Reduction at source - 3
Link Vibration control Lecture 8 - Feedback Control System - 1
Link Vibration control Lecture 9 - Shunt Damping
Link Vibration control Lecture 10 - Vibration Isolation - 1
Link Vibration control Lecture 11 - Vibration Isolation - 2
Link Vibration control Lecture 12 - Vibration Isolation - 3
Link Vibration control Lecture 13 - Source Classification
Link Vibration control Lecture 14 - Self Excitation Vibration
Link Vibration control Lecture 15 - Flow Induction Vibration
Link Vibration control Lecture 16 - Field Balancing of Rigid / Flexible Rotors
Link Vibration control Lecture 17 - Damping: Models and Measures - I
Link Vibration control Lecture 18 - Damping: Models and Measures - II
Link Vibration control Lecture 19 - Numerical Problems
Link Vibration control Lecture 20 - Design Sensitivity - I
Link Vibration control Lecture 21 - Design Specification
Link Vibration control Lecture 22 - Design for Enhanced Material Damping
Link Vibration control Lecture 23 - Basics of Passive Vibration Control
Link Vibration control Lecture 24 - Design of Absorber
Link Vibration control Lecture 25 - Shock Absorber
Link Vibration control Lecture 26 - Isolators with Stiffness and Damping
Link Vibration control Lecture 27 - Basics of Active Vibration Control
Link Vibration control Lecture 28 - Piezoelectric Material - I
Link Vibration control Lecture 29 - Piezoelectric Material - II: Applications
Link Vibration control Lecture 30 - Piezoelectric Accelerometers
Link Vibration control Lecture 31 - Electro-rheological (ER) Fluids
Link Vibration control Lecture 32 - Magneto-rheological (MR) Fluids
Link Vibration control Lecture 33 - Magneto and Electrostrictive Materials
Link Vibration control Lecture 34 - Shape Memory Alloy
Link Vibration control Lecture 35 - Electro-Magnetics
Link Vibration control Lecture 36 - Numerical Problems
Link Vibration control Lecture 37 - Basics of Vibration Measurement System
Link Vibration control Lecture 38 - Data Acquisition
Link Vibration control Lecture 39 - Fourier Transformation
Link Vibration control Lecture 40 - Filters
Link Welding Engineering Lecture 1 - Introduction to Welding Engineering
Link Welding Engineering Lecture 2 - Classification of Welding Processes - I
Link Welding Engineering Lecture 3 - Classification of Welding Processes - II
Link Welding Engineering Lecture 4 - Sources of Heat and Protection of Weld pool
Link Welding Engineering Lecture 5 - Protection of Weld Pool
Link Welding Engineering Lecture 6 - Introduction
Link Welding Engineering Lecture 7 - Fundamentals of Arc Initiation
Link Welding Engineering Lecture 8 - Arc Maintenance & Arc Characteristics
Link Welding Engineering Lecture 9 - Arc Forces
Link Welding Engineering Lecture 10 - Arc Efficiency
Link Welding Engineering Lecture 11 - Melting Rate in Different Welding Processes
Link Welding Engineering Lecture 12 - Types of power sources and their characteristics - I
Link Welding Engineering Lecture 13 - Types of power sources and their characteristics - II
Link Welding Engineering Lecture 14 - SMAW - I
Link Welding Engineering Lecture 15 - SMAW - II
Link Welding Engineering Lecture 16 - GTAW - I
Link Welding Engineering Lecture 17 - GTAW - II
Link Welding Engineering Lecture 18 - PAW & SAW
Link Welding Engineering Lecture 19 - SAW
Link Welding Engineering Lecture 20 - GMAW
Link Welding Engineering Lecture 21 - Brazing, Soldering & Braze Welding
Link Welding Engineering Lecture 22 - Braze welding and Electroslag welding
Link Welding Engineering Lecture 23 - Weld Thermal Cycle
Link Welding Engineering Lecture 24 - Effect of WTC and Cooling rate in welding
Link Welding Engineering Lecture 25 - Cooling rate
Link Welding Engineering Lecture 26 - Peak temperature & Solidification rate
Link Welding Engineering Lecture 27 - Residual stress - I
Link Welding Engineering Lecture 28 - Residual stress - II
Link Welding Engineering Lecture 29 - Introduction
Link Welding Engineering Lecture 30 - Type of joints and welds
Link Welding Engineering Lecture 31 - Edge preparation
Link Welding Engineering Lecture 32 - Design for static and fatigue loading
Link Welding Engineering Lecture 33 - Fatigue fracture of weld joints - I
Link Welding Engineering Lecture 34 - Fatigue fracture of weld joints - II
Link Welding Engineering Lecture 35 - Introduction-
Link Welding Engineering Lecture 36 - DT & NDT
Link Welding Engineering Lecture 37 - Understanding Weldability
Link Welding Engineering Lecture 38 - Reactions in weldment
Link Welding Engineering Lecture 39 - Weldability of Al alloys
Link Welding Engineering Lecture 40 - Failure analysis and prevention
Link Industrial Engineering Lecture 1 - Production Planning and Control
Link Industrial Engineering Lecture 2 - Product Design and Development
Link Industrial Engineering Lecture 3 - Statistical Process Control - Part I
Link Industrial Engineering Lecture 4 - Statistical Process Control - Part II
Link Industrial Engineering Lecture 5 - Statistical Process Control - Part III
Link Industrial Engineering Lecture 6 - Productivity
Link Industrial Engineering Lecture 7 - Factors Affecting the Productivity
Link Industrial Engineering Lecture 8 - Improving the Productivity Introduction to Work Study
Link Industrial Engineering Lecture 9 - Work Study Human Component and Method Study
Link Industrial Engineering Lecture 10 - Recording Techniques for Method Study - Part I
Link Industrial Engineering Lecture 11 - Recording Techniques for Method Study - Part II
Link Industrial Engineering Lecture 12 - Recording Techniques Critical Examination
Link Industrial Engineering Lecture 13 - Principles of Motion Economy
Link Industrial Engineering Lecture 14 - Work Measurement Time Study - Part I
Link Industrial Engineering Lecture 15 - Work Measurement Time Study - Part II
Link Industrial Engineering Lecture 16 - Performance Rating Allowances
Link Industrial Engineering Lecture 17 - Work Measurement: Work Sampling
Link Industrial Engineering Lecture 18 - PMT System Standard Data Method
Link Industrial Engineering Lecture 19 - Ergonomics
Link Industrial Engineering Lecture 20 - Metabolism and Organization at Work
Link Industrial Engineering Lecture 21 - Working Conditions Lights Vibrations
Link Industrial Engineering Lecture 22 - Materials Management - Part I
Link Industrial Engineering Lecture 23 - Materials Management - Part II
Link Industrial Engineering Lecture 24 - Materials Requirement Planning
Link Industrial Engineering Lecture 25 - Sales Forecasting - Part I
Link Industrial Engineering Lecture 26 - Sales Forecasting - Part II
Link Industrial Engineering Lecture 27 - Capacity Planning - Part I
Link Industrial Engineering Lecture 28 - Capacity Planning - Part II
Link Industrial Engineering Lecture 29 - Network Analysis - Part I
Link Industrial Engineering Lecture 30 - Network Analysis - Part II
Link Industrial Engineering Lecture 31 - Facility Design Part - Part I
Link Industrial Engineering Lecture 32 - Facility Design Part - Part II
Link Industrial Engineering Lecture 33 - Facility Design Part - Part III
Link Industrial Engineering Lecture 34 - Facility Design Part - Part IV
Link Industrial Engineering Lecture 35 - Product Design Development
Link Industrial Engineering Lecture 36 - Materials Handling
Link Industrial Engineering Lecture 37 - Quality Concepts
Link Industrial Engineering Lecture 38 - Value Engineering
Link Industrial Engineering Lecture 39 - Reliability
Link Industrial Engineering Lecture 40 - Industrial Safety
Link Manufacturing Processes I Lecture 1 - Powder Metallurgy - Part I
Link Manufacturing Processes I Lecture 2 - Powder Metallurgy - Part II
Link Manufacturing Processes I Lecture 3 - Powder Metallurgy - Part III
Link Manufacturing Processes I Lecture 4 - Metal Forming - Fundamentals
Link Manufacturing Processes I Lecture 5 - Forging
Link Manufacturing Processes I Lecture 6 - Swaging and Wire Drawing
Link Manufacturing Processes I Lecture 7 - Sheet Metal Operations - Part I
Link Manufacturing Processes I Lecture 8 - Sheet Metal Operations - Part II
Link Manufacturing Processes I Lecture 9 - Sheet Metal Operations - Part III
Link Manufacturing Processes I Lecture 10 - Sheet Metal Working - Presses
Link Manufacturing Processes I Lecture 11 - Sheet Metal Working - Equipment
Link Manufacturing Processes I Lecture 12 - High Energy Rate Forming Processes
Link Manufacturing Processes I Lecture 13 - Machining Fundamentals
Link Manufacturing Processes I Lecture 14 - Machining - Part I
Link Manufacturing Processes I Lecture 15 - Machining - Part II
Link Manufacturing Processes I Lecture 16 - Machining - Part III
Link Manufacturing Processes I Lecture 17 - Metal casting - Part I
Link Manufacturing Processes I Lecture 18 - Metal casting - Part II
Link Manufacturing Processes I Lecture 19 - Metal Casting - Part III
Link Manufacturing Processes I Lecture 20 - Metal Casting - Part IV
Link Manufacturing Processes I Lecture 21 - Metal Casting - Part V
Link Manufacturing Processes I Lecture 22 - Metal Casting - Part VI
Link Manufacturing Processes I Lecture 23 - Metal Casting - Part VII
Link Manufacturing Processes I Lecture 24 - Metal Casting - Part VIII
Link Manufacturing Processes I Lecture 25 - Metal Casting - Part IX
Link Manufacturing Processes I Lecture 26 - Metal Casting - Part X
Link Manufacturing Processes I Lecture 27 - Introduction
Link Manufacturing Processes I Lecture 28 - Welding Process Classification
Link Manufacturing Processes I Lecture 29 - Brazing Soldering Braze Welding
Link Manufacturing Processes I Lecture 30 - Arc Welding Power Source - Part I
Link Manufacturing Processes I Lecture 31 - Arc Welding Power Source - Part II
Link Manufacturing Processes I Lecture 32 - Shielded Metal Arc Welding - Part I
Link Manufacturing Processes I Lecture 33 - Shielded Metal Arc Welding - Part II
Link Manufacturing Processes I Lecture 34 - Submerged Arc Welding
Link Manufacturing Processes I Lecture 35 - Gas Metal Arc Welding - Part I
Link Manufacturing Processes I Lecture 36 - Gas Metal Arc Welding - Part II
Link Manufacturing Processes I Lecture 37 - Tungsten Inert Gas Welding - Part I
Link Manufacturing Processes I Lecture 38 - Tungsten Inert Gas Welding - Part II
Link Manufacturing Processes I Lecture 39 - Resistance Welding Process
Link Manufacturing Processes I Lecture 40 - Reaction in Weld Region Welding Defects
Link Strength of Materials Lecture 1 - Solid Mechanics
Link Strength of Materials Lecture 2 - Strength of Materials
Link Strength of Materials Lecture 3 - Strength of Materials
Link Strength of Materials Lecture 4 - Solid Mechanics
Link Strength of Materials Lecture 5 - Strength of Materials
Link Strength of Materials Lecture 6 - Strength of Materials
Link Strength of Materials Lecture 7 - Strength of Materials
Link Strength of Materials Lecture 8 - Strength of Materials
Link Strength of Materials Lecture 9 - Strength of Materials
Link Strength of Materials Lecture 10 - Strength of Materials
Link Strength of Materials Lecture 11 - Strength of Materials
Link Strength of Materials Lecture 12 - Strength of Materials
Link Strength of Materials Lecture 13 - Strength of Materials
Link Strength of Materials Lecture 14 - Strength of Materials
Link Strength of Materials Lecture 15 - Strength of Materials
Link Strength of Materials Lecture 16 - Strength of Materials
Link Strength of Materials Lecture 17 - Strength of Materials
Link Strength of Materials Lecture 18 - Strength of Materials
Link Strength of Materials Lecture 19 - Strength of Materials
Link Strength of Materials Lecture 20 - Strength of Materials
Link Strength of Materials Lecture 21 - Strength of Materials
Link Strength of Materials Lecture 22 - Strength of Materials
Link Strength of Materials Lecture 23 - Strength of Materials
Link Strength of Materials Lecture 24 - Strength of Materials
Link Strength of Materials Lecture 25 - Strength of Materials
Link Strength of Materials Lecture 26 - Strength of Materials
Link Strength of Materials Lecture 27 - Strength of Materials
Link Strength of Materials Lecture 28 - Strength of Materials
Link Strength of Materials Lecture 29 - Strength of Materials
Link Strength of Materials Lecture 30 - Strength of Materials
Link Strength of Materials Lecture 31 - Strength of Materials
Link Strength of Materials Lecture 32 - Strength of Materials
Link Strength of Materials Lecture 33 - Strength of Materials
Link Strength of Materials Lecture 34 - Strength of Materials
Link Strength of Materials Lecture 35 - Strength of Materials
Link Strength of Materials Lecture 36 - Strength of Materials
Link Strength of Materials Lecture 37 - Strength of Materials
Link Strength of Materials Lecture 38 - Strength of Materials
Link Strength of Materials Lecture 39 - Strength of Materials
Link Strength of Materials Lecture 40 - Strength of Materials
Link NOC:Two Phase Flow and Heat Transfer Lecture 1 - Introduction
Link NOC:Two Phase Flow and Heat Transfer Lecture 2 - Flow Regimes
Link NOC:Two Phase Flow and Heat Transfer Lecture 3 - Homogeneous Model
Link NOC:Two Phase Flow and Heat Transfer Lecture 4 - Drift Flux Model
Link NOC:Two Phase Flow and Heat Transfer Lecture 5 - Separated Flow Model
Link NOC:Two Phase Flow and Heat Transfer Lecture 6 - Dispersed Flow
Link NOC:Two Phase Flow and Heat Transfer Lecture 7 - Slug Flow
Link NOC:Two Phase Flow and Heat Transfer Lecture 8 - Annular Flow
Link NOC:Two Phase Flow and Heat Transfer Lecture 9 - Droplet Annular and Stratified Flow
Link NOC:Two Phase Flow and Heat Transfer Lecture 10 - Measurement of Void Fraction
Link NOC:Two Phase Flow and Heat Transfer Lecture 11 - Signal Analysis
Link NOC:Two Phase Flow and Heat Transfer Lecture 12 - Two Fluid and Population Balance Model
Link NOC:Two Phase Flow and Heat Transfer Lecture 13 - Interface Tracking
Link NOC:Two Phase Flow and Heat Transfer Lecture 14 - Lattice Boltzmann Method
Link NOC:Two Phase Flow and Heat Transfer Lecture 15 - Smoothed Particle Hydrodynamics
Link NOC:Two Phase Flow and Heat Transfer Lecture 16 - Molecular Perspective of Two Phase Flow
Link NOC:Two Phase Flow and Heat Transfer Lecture 17 - Boiling Heat Transfer
Link NOC:Two Phase Flow and Heat Transfer Lecture 18 - Condensation
Link NOC:Two Phase Flow and Heat Transfer Lecture 19 - Solid-Liquid Flow
Link NOC:Two Phase Flow and Heat Transfer Lecture 20 - Gas-Solid Flow
Link NOC:Refrigeration and Air-Conditioning Lecture 1 - Recapitulation of Thermodynamics
Link NOC:Refrigeration and Air-Conditioning Lecture 2 - Introduction to Refrigeration
Link NOC:Refrigeration and Air-Conditioning Lecture 3 - Air Refrigeration Cycle
Link NOC:Refrigeration and Air-Conditioning Lecture 4 - Aircraft Refrigeration Cycles - 1
Link NOC:Refrigeration and Air-Conditioning Lecture 5 - Aircraft Refrigeration Cycles - 2
Link NOC:Refrigeration and Air-Conditioning Lecture 6 - Aircraft Refrigeration Cycles - 3
Link NOC:Refrigeration and Air-Conditioning Lecture 7 - Vapour Compression Cycle - 1
Link NOC:Refrigeration and Air-Conditioning Lecture 8 - Vapour Compression Cycle - 2
Link NOC:Refrigeration and Air-Conditioning Lecture 9 - P-h Charts
Link NOC:Refrigeration and Air-Conditioning Lecture 10 - Actual Vapour Compression Cycle - 1
Link NOC:Refrigeration and Air-Conditioning Lecture 11 - Actual Vapour Compression Cycle - 2
Link NOC:Refrigeration and Air-Conditioning Lecture 12 - Compound Compression with Intercooling - 1
Link NOC:Refrigeration and Air-Conditioning Lecture 13 - Compound Compression with Intercooling - 2
Link NOC:Refrigeration and Air-Conditioning Lecture 14 - Multiple Evaporator and Cascade System
Link NOC:Refrigeration and Air-Conditioning Lecture 15 - Problem Solving - 1
Link NOC:Refrigeration and Air-Conditioning Lecture 16 - Refrigerants - 1
Link NOC:Refrigeration and Air-Conditioning Lecture 17 - Refrigerants - 2
Link NOC:Refrigeration and Air-Conditioning Lecture 18 - Vpour Absorption Systems - 1
Link NOC:Refrigeration and Air-Conditioning Lecture 19 - Vpour Absorption Systems - 2
Link NOC:Refrigeration and Air-Conditioning Lecture 20 - Vpour Absorption Systems - 3
Link NOC:Refrigeration and Air-Conditioning Lecture 21 - Introduction to Air-conditioning
Link NOC:Refrigeration and Air-Conditioning Lecture 22 - Properties of Moist Air
Link NOC:Refrigeration and Air-Conditioning Lecture 23 - Psychrometric Chart
Link NOC:Refrigeration and Air-Conditioning Lecture 24 - Psychrometric Processes - 1
Link NOC:Refrigeration and Air-Conditioning Lecture 25 - Psychrometric Processes - 2
Link NOC:Refrigeration and Air-Conditioning Lecture 26 - Psychrometric Processes - 3
Link NOC:Refrigeration and Air-Conditioning Lecture 27 - Infiltration
Link NOC:Refrigeration and Air-Conditioning Lecture 28 - Design Conditions
Link NOC:Refrigeration and Air-Conditioning Lecture 29 - Cooling Load - 1
Link NOC:Refrigeration and Air-Conditioning Lecture 30 - Cooling Load - 2
Link NOC:Refrigeration and Air-Conditioning Lecture 31 - Cooling Load - 3
Link NOC:Refrigeration and Air-Conditioning Lecture 32 - Air Distribution System - 1
Link NOC:Refrigeration and Air-Conditioning Lecture 33 - Air Distribution System - 2
Link NOC:Refrigeration and Air-Conditioning Lecture 34 - Problem Solving - 2
Link NOC:Refrigeration and Air-Conditioning Lecture 35 - Air-Conditioning Systems
Link NOC:Refrigeration and Air-Conditioning Lecture 36 - Human Physiology
Link NOC:Refrigeration and Air-Conditioning Lecture 37 - Thermal Comfort
Link NOC:Refrigeration and Air-Conditioning Lecture 38 - Indoor Environmental Health - 1
Link NOC:Refrigeration and Air-Conditioning Lecture 39 - Indoor Environmental Health - 2
Link NOC:Refrigeration and Air-Conditioning Lecture 40 - Problem Solving - 3
Link NOC:Engineering Economic Analysis Lecture 1 - Introduction to Engineering Economy, Physical and Economic Environment, Phases in Engg. process
Link NOC:Engineering Economic Analysis Lecture 2 - Some economic concepts, Value and utility, Interest and Interest rate, Time value of money
Link NOC:Engineering Economic Analysis Lecture 3 - Interest formulas: Simple and compound interest, Cash flow diagrams
Link NOC:Engineering Economic Analysis Lecture 4 - Interest formulas for discrete compounding and discrete payments: Single payment (CAF and PWF)
Link NOC:Engineering Economic Analysis Lecture 5 - Interest formulas for discrete compounding and discrete payments: Equal payment series (CAF, CRF and PWF)
Link NOC:Engineering Economic Analysis Lecture 6 - Problem solving on discrete compounding, discrete payment
Link NOC:Engineering Economic Analysis Lecture 7 - Interest formulas for Uniform gradient series
Link NOC:Engineering Economic Analysis Lecture 8 - Interest formulas for geometric gradient series
Link NOC:Engineering Economic Analysis Lecture 9 - Compounding frequency of Interest: Nominal and Effective interest rates
Link NOC:Engineering Economic Analysis Lecture 10 - Problem solving on frequency compounding of interest and gradient series factors
Link NOC:Engineering Economic Analysis Lecture 11 - Economic equivalence: Meaning and principles of equivalence
Link NOC:Engineering Economic Analysis Lecture 12 - Equivalence calculations involving cash flows
Link NOC:Engineering Economic Analysis Lecture 13 - Methods of comparison of alternatives: Present worth, Annual equivalent, Future worth, Internal rate of return
Link NOC:Engineering Economic Analysis Lecture 14 - comparison of alternatives: Capitalized equivalent amount, Capital recovery with return
Link NOC:Engineering Economic Analysis Lecture 15 - Problem solving on equivalence and comparison of alternatives
Link NOC:Engineering Economic Analysis Lecture 16 - Replacement analysis: Reason, Concept of defender and challenger
Link NOC:Engineering Economic Analysis Lecture 17 - Proper treatment of sunk cost in replacement
Link NOC:Engineering Economic Analysis Lecture 18 - Replacement because of improved efficiency, inadequacy, demand etc.
Link NOC:Engineering Economic Analysis Lecture 19 - Problem solving on replacement analysis
Link NOC:Engineering Economic Analysis Lecture 20 - Economic life of the asset
Link NOC:Engineering Economic Analysis Lecture 21 - Depreciation: Definition, Reasons, Types of property, Value time function and book value
Link NOC:Engineering Economic Analysis Lecture 22 - Basic depreciation methods:S-L method, Declining balance method
Link NOC:Engineering Economic Analysis Lecture 23 - Depreciation: Declining balance switching to S-L, SOYD Method
Link NOC:Engineering Economic Analysis Lecture 24 - Modified accelerated cost recovery system (MACRS) method of depreciation, Depletion
Link NOC:Engineering Economic Analysis Lecture 25 - Depreciation: Units of production method, Depletion
Link NOC:Engineering Economic Analysis Lecture 26 - Problem solving based on Depreciation and Depletion
Link NOC:Engineering Economic Analysis Lecture 27 - Elements of cost: types of cost
Link NOC:Engineering Economic Analysis Lecture 28 - Breakeven analysis, Effect of fixed and variable cost on BEP.
Link NOC:Engineering Economic Analysis Lecture 29 - Economic order quantity
Link NOC:Engineering Economic Analysis Lecture 30 - Problem solving based on Breakeven analysis and EOQ
Link NOC:Engineering Economic Analysis Lecture 31 - Cost estimation: Methods of cost estimation, Adjustment of data, Learning
Link NOC:Engineering Economic Analysis Lecture 32 - cost estimating relationships
Link NOC:Engineering Economic Analysis Lecture 33 - Introduction to decision under risk Criteria for decision under risk
Link NOC:Engineering Economic Analysis Lecture 34 - Expected value decision making under risk
Link NOC:Engineering Economic Analysis Lecture 35 - Expected variance decision making under risk
Link NOC:Engineering Economic Analysis Lecture 36 - Problem solving based on decision under risk
Link NOC:Engineering Economic Analysis Lecture 37 - Income taxes: Principles and calculation of effective income tax rates
Link NOC:Engineering Economic Analysis Lecture 38 - Effect of method of depreciation on income taxes
Link NOC:Engineering Economic Analysis Lecture 39 - After tax economic analysis
Link NOC:Engineering Economic Analysis Lecture 40 - Problem solving based on Income tax analysis
Link NOC:Convective Heat Transfer Lecture 1 - Introduction
Link NOC:Convective Heat Transfer Lecture 2 - Balance of Total Energy
Link NOC:Convective Heat Transfer Lecture 3 - Different Forms of Thermal Energy Equation
Link NOC:Convective Heat Transfer Lecture 4 - Thermal Boundary Layer
Link NOC:Convective Heat Transfer Lecture 5 - Forced Convection : Low Prandtl Number over a Flat Plate
Link NOC:Convective Heat Transfer Lecture 6 - Forced Convection : High Prandtl Number over a Flat Plate
Link NOC:Convective Heat Transfer Lecture 7 - Forced Convection over a Flat Plate : Uniform Heat Flux
Link NOC:Convective Heat Transfer Lecture 8 - Natural Convection : Uniform Wall Temperature
Link NOC:Convective Heat Transfer Lecture 9 - Natural Convection : Uniform Heat Flux
Link NOC:Convective Heat Transfer Lecture 10 - Tutorial : Convection over Flat Plate
Link NOC:Convective Heat Transfer Lecture 11 - Forced Convection in Ducts
Link NOC:Convective Heat Transfer Lecture 12 - Thermally Developed Slug Flow in a Duct
Link NOC:Convective Heat Transfer Lecture 13 - Thermally and Hydrodynamically Developed Flow : Uniform Heat Flux
Link NOC:Convective Heat Transfer Lecture 14 - Thermally and Hydrodynamically Developed Flow : Uniform Wall Temperature
Link NOC:Convective Heat Transfer Lecture 15 - Thermal Entrance Region : Uniform Wall Temperature
Link NOC:Convective Heat Transfer Lecture 16 - Thermal Entrance Region : Uniform Heat Flux
Link NOC:Convective Heat Transfer Lecture 17 - Rayleigh Benard Convection
Link NOC:Convective Heat Transfer Lecture 18 - Heat Transfer with Phase Change
Link NOC:Convective Heat Transfer Lecture 19 - Mass Transfer
Link NOC:Convective Heat Transfer Lecture 20 - Tutorial : Convection inside Duct and Mass Transfer
Link NOC:Introduction to Mechanical Vibration Lecture 1 - Lesson 1 - Introduction
Link NOC:Introduction to Mechanical Vibration Lecture 2 - Lesson 2 - Addition of two harmonic motions and beat phenomenon
Link NOC:Introduction to Mechanical Vibration Lecture 3 - Lesson 3 - Fourier series and harmonic analysis
Link NOC:Introduction to Mechanical Vibration Lecture 4 - Lesson 4 - Vibration analysis procedure
Link NOC:Introduction to Mechanical Vibration Lecture 5 - Lesson 5 - Numerical problems
Link NOC:Introduction to Mechanical Vibration Lecture 6 - Lesson 1 - Undamped free vibration
Link NOC:Introduction to Mechanical Vibration Lecture 7 - Lesson 2 - Energy method
Link NOC:Introduction to Mechanical Vibration Lecture 8 - Lesson 3 - Damped free vibration
Link NOC:Introduction to Mechanical Vibration Lecture 9 - Lesson 4 - Viscous damped systems and logarithmic decrement
Link NOC:Introduction to Mechanical Vibration Lecture 10 - Lesson 5 - Coulomb damping
Link NOC:Introduction to Mechanical Vibration Lecture 11 - Lesson 1 - Harmonic excitations
Link NOC:Introduction to Mechanical Vibration Lecture 12 - Lesson 2 - Magnification factor and frequency response curve
Link NOC:Introduction to Mechanical Vibration Lecture 13 - Lesson 3 - Rotating unbalance
Link NOC:Introduction to Mechanical Vibration Lecture 14 - Lesson 4 - Excitation of the support
Link NOC:Introduction to Mechanical Vibration Lecture 15 - Lesson 5 - Energy input and dissipation by viscous damping
Link NOC:Introduction to Mechanical Vibration Lecture 16 - Lesson 1 - Coulomb damping and equivalent viscous damping
Link NOC:Introduction to Mechanical Vibration Lecture 17 - Lesson 2 - Structural damping and equivalent viscous damping
Link NOC:Introduction to Mechanical Vibration Lecture 18 - Lesson 3 - Vibration isolation and force transmissibility
Link NOC:Introduction to Mechanical Vibration Lecture 19 - Lesson 4 - Motion transmissibility
Link NOC:Introduction to Mechanical Vibration Lecture 20 - Lesson 5 - Numerical problems
Link NOC:Introduction to Mechanical Vibration Lecture 21 - Lesson 1 - Transducers and vibration pickup
Link NOC:Introduction to Mechanical Vibration Lecture 22 - Lesson 2 - Vibrometer
Link NOC:Introduction to Mechanical Vibration Lecture 23 - Lesson 3 - Accelerometer
Link NOC:Introduction to Mechanical Vibration Lecture 24 - Lesson 4 - Velocity pickup or Velometer
Link NOC:Introduction to Mechanical Vibration Lecture 25 - Lesson 5 - Phase distortion and frequency measurement
Link NOC:Introduction to Mechanical Vibration Lecture 26 - Lesson 1 - Undamped free vibration
Link NOC:Introduction to Mechanical Vibration Lecture 27 - Lesson 2 - Principal modes of vibration
Link NOC:Introduction to Mechanical Vibration Lecture 28 - Lesson 3 - Combined rectilinear and angular modes
Link NOC:Introduction to Mechanical Vibration Lecture 29 - Lesson 4 - Damped free vibration
Link NOC:Introduction to Mechanical Vibration Lecture 30 - Lesson 5 - Undamped forced vibration with harmonic excitation
Link NOC:Introduction to Mechanical Vibration Lecture 31 - Lesson 1 - Undamped dynamic vibration absorber
Link NOC:Introduction to Mechanical Vibration Lecture 32 - Lesson 2 - Tuned absorber
Link NOC:Introduction to Mechanical Vibration Lecture 33 - Lesson 3 - Numerical problems
Link NOC:Introduction to Mechanical Vibration Lecture 34 - Lesson 4 - Damped dynamic vibration absorber
Link NOC:Introduction to Mechanical Vibration Lecture 35 - Lesson 5 - Optimally tuned vibration absorber
Link NOC:Introduction to Mechanical Vibration Lecture 36 - Lesson 1 - Undamped free vibration
Link NOC:Introduction to Mechanical Vibration Lecture 37 - Lesson 2 - Eigen values and eigen vectors
Link NOC:Introduction to Mechanical Vibration Lecture 38 - Lesson 3 - Flexibility influence coefficients
Link NOC:Introduction to Mechanical Vibration Lecture 39 - Lesson 4 - Stiffness influence coefficients
Link NOC:Introduction to Mechanical Vibration Lecture 40 - Lesson 5 - Static and dynamic coupling
Link NOC:Joining Technologies for Metals Lecture 1 - Introduction: Manufacturing and Joining
Link NOC:Joining Technologies for Metals Lecture 2 - Fundamental mechanisms of Joining
Link NOC:Joining Technologies for Metals Lecture 3 - Classification of Joining Processes
Link NOC:Joining Technologies for Metals Lecture 4 - Heat Generation in Welding
Link NOC:Joining Technologies for Metals Lecture 5 - Protection of Weld Metal
Link NOC:Joining Technologies for Metals Lecture 6 - Principle of Fusion Welding Processes: Gas Welding
Link NOC:Joining Technologies for Metals Lecture 7 - Fundamentals of Welding
Link NOC:Joining Technologies for Metals Lecture 8 - Physics of Welding Arc
Link NOC:Joining Technologies for Metals Lecture 9 - Shielded Metal Arc Welding
Link NOC:Joining Technologies for Metals Lecture 10 - Gas Tungsten Arc Welding
Link NOC:Joining Technologies for Metals Lecture 11 - Newer variants of Gas tungsten arc welding
Link NOC:Joining Technologies for Metals Lecture 12 - Gas metal arc welding
Link NOC:Joining Technologies for Metals Lecture 13 - Submerged arc welding
Link NOC:Joining Technologies for Metals Lecture 14 - Electro-slag and Electro-gas welding
Link NOC:Joining Technologies for Metals Lecture 15 - Laser beam welding
Link NOC:Joining Technologies for Metals Lecture 16 - Brazing
Link NOC:Joining Technologies for Metals Lecture 17 - Soldering and braze welding
Link NOC:Joining Technologies for Metals Lecture 18 - Fundamentals of resistance welding
Link NOC:Joining Technologies for Metals Lecture 19 - Resistance welding processes: spot and seam welding
Link NOC:Joining Technologies for Metals Lecture 20 - Flash butt welding
Link NOC:Joining Technologies for Metals Lecture 21 - Adhesive joining
Link NOC:Joining Technologies for Metals Lecture 22 - Weld bonding
Link NOC:Joining Technologies for Metals Lecture 23 - Solid state joining technologies: Fundamentals
Link NOC:Joining Technologies for Metals Lecture 24 - Ultrasonic welding
Link NOC:Joining Technologies for Metals Lecture 25 - Diffusion welding
Link NOC:Joining Technologies for Metals Lecture 26 - Explosive welding
Link NOC:Joining Technologies for Metals Lecture 27 - Magnetic pulse welding
Link NOC:Joining Technologies for Metals Lecture 28 - Weld thermal cycle
Link NOC:Joining Technologies for Metals Lecture 29 - Heat affected zone and weld thermal cycle - I
Link NOC:Joining Technologies for Metals Lecture 30 - Heat affected zone and weld thermal cycle - II
Link NOC:Joining Technologies for Metals Lecture 31 - Solidification of weld metal
Link NOC:Joining Technologies for Metals Lecture 32 - Metallurgical transformations in weld and heat affected zone of steels
Link NOC:Joining Technologies for Metals Lecture 33 - Residual Stresses in Weld Joints
Link NOC:Joining Technologies for Metals Lecture 34 - Solidification cracking and their control
Link NOC:Joining Technologies for Metals Lecture 35 - Cracking of Welded Joints II - Cold Cracks
Link NOC:Joining Technologies for Metals Lecture 36 - Understanding Weldability Introduction - I
Link NOC:Joining Technologies for Metals Lecture 37 - Understanding Weldability Introduction - II
Link NOC:Joining Technologies for Metals Lecture 38 - Metal Properties and Weldability - I
Link NOC:Joining Technologies for Metals Lecture 39 - Metal Properties and Weldability - II
Link NOC:Joining Technologies for Metals Lecture 40 - Weldability of Work Hardenable Metals
Link NOC:Joining Technologies for Metals Lecture 41 - Weldability of Work Hardenable and Precipitation Strengthened Metals
Link NOC:Joining Technologies for Metals Lecture 42 - Weldability of Precipitation Strengthened Metals
Link NOC:Joining Technologies for Metals Lecture 43 - Weldability of Metals Strengthened by Grain Refinement and Transformation Hardening
Link NOC:Joining Technologies for Metals Lecture 44 - Weldability of Transformation Hardening Metals
Link NOC:Joining Technologies for Metals Lecture 45 - Weldability of Metals - Combination of Strengthening Mechanisms
Link NOC:Joining Technologies for Metals Lecture 46 - Weldability Consideration
Link NOC:Joining Technologies for Metals Lecture 47 - Weldability of Carbon and Alloy Steel - I
Link NOC:Joining Technologies for Metals Lecture 48 - Weldability of Carbon and Alloy Steel - II
Link NOC:Joining Technologies for Metals Lecture 49 - Weldability of Carbon and Alloy Steel - III
Link NOC:Joining Technologies for Metals Lecture 50 - Weldability of Low Carbon Steel and Mild Steel
Link NOC:Joining Technologies for Metals Lecture 51 - Weldability of Medium Carbon Steel and High Carbon Steel
Link NOC:Joining Technologies for Metals Lecture 52 - Weldability of High Strength Low Alloy Steels
Link NOC:Joining Technologies for Metals Lecture 53 - Weldability of HTLA Steel - I
Link NOC:Joining Technologies for Metals Lecture 54 - Weldability of HTLA Steel - II
Link NOC:Joining Technologies for Metals Lecture 55 - Weldability of Cr-Mo Steel - I
Link NOC:Joining Technologies for Metals Lecture 56 - Weldability of Cr-Mo Steel - II
Link NOC:Joining Technologies for Metals Lecture 57 - Weldability of Pre-coated Steel - I
Link NOC:Joining Technologies for Metals Lecture 58 - Weldability of Pre-coated Steel - II
Link NOC:Joining Technologies for Metals Lecture 59 - Weldability of Stainless Steel - I
Link NOC:Joining Technologies for Metals Lecture 60 - Weldability of Stainless Steel - II
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 1 - Introduction to Modelling
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 2 - Examples of models
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 3 - Modeling of Dynamic Systems
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 4 - Introduction to Simulation
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 5 - MATLAB as a Simulation tool
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 6 - Bond graphs modelling
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 7 - Bond graph model and causality
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 8 - Generation of System Equations
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 9 - Methods of Drawing bond graph models - Mechanical Systems
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 10 - Methods of Drawing bond graph models - Electrical Systems
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 11 - Basic System Models - Mechanical Systems
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 12 - Basic System Models - Electrical Systems
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 13 - Basic System Models - Hydraulic Systems
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 14 - Basic System Models - Pneumatic Systems
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 15 - Basic System Models - Thermal Systems
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 16 - System Models : Linearity and Non Linearity in Systems
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 17 - System Model of Combined Rotary and Translatory Systems
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 18 - System Model of Electro Mechanical Systems
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 19 - System Model of Hydro Mechanical Systems
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 20 - System Models of Robots
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 21 - Dynamic response of the 1st order system
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 22 - Dynamic response of 2nd order system
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 23 - Performance measures for 2nd order system
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 24 - System Transfer functions
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 25 - Transfer Function of 1st and 2nd Order System
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 26 - Block Diagram Algebra
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 27 - Signal Flow Graphs
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 28 - State Variable Formulation
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 29 - Frequency Response
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 30 - Bode Plot
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 31 - Simulation using SIMULINK
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 32 - Simulation of simple and compound pendulums
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 33 - Simulation of planar mechanisms
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 34 - Simulation of wheeled mobile robots
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 35 - Validation and Verification of Simulation Models
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 36 - Parameter estimation methods
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 37 - Parameter estimation examples
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 38 - System identifications
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 39 - Introduction to Optimization
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 40 - Optimization with modeling of engineering problems
Link NOC:Principles of Casting Technology Lecture 1 - Introduction to Casting Technology
Link NOC:Principles of Casting Technology Lecture 2 - Mechanism of solidification
Link NOC:Principles of Casting Technology Lecture 3 - Solidification of Pure Metals and Alloys
Link NOC:Principles of Casting Technology Lecture 4 - Freeze Wave Mechanism and Solidification Time
Link NOC:Principles of Casting Technology Lecture 5 - Problem Solving on Solidification
Link NOC:Principles of Casting Technology Lecture 6 - Technology of pattern making
Link NOC:Principles of Casting Technology Lecture 7 - Allowances in pattern making
Link NOC:Principles of Casting Technology Lecture 8 - Moulding sands and its ingredients
Link NOC:Principles of Casting Technology Lecture 9 - Testing of molding sands
Link NOC:Principles of Casting Technology Lecture 10 - Sand preparation for casting
Link NOC:Principles of Casting Technology Lecture 11 - Technology of mould making
Link NOC:Principles of Casting Technology Lecture 12 - Technology of core making
Link NOC:Principles of Casting Technology Lecture 13 - Special sand moulding process
Link NOC:Principles of Casting Technology Lecture 14 - Organic binders
Link NOC:Principles of Casting Technology Lecture 15 - Special moulding process
Link NOC:Principles of Casting Technology Lecture 16 - Introduction of gating design
Link NOC:Principles of Casting Technology Lecture 17 - Types of gate
Link NOC:Principles of Casting Technology Lecture 18 - Pouring time calculation
Link NOC:Principles of Casting Technology Lecture 19 - Aspiration effects in gating system
Link NOC:Principles of Casting Technology Lecture 20 - Problem solving on gating design
Link NOC:Principles of Casting Technology Lecture 21 - Solidification analysis
Link NOC:Principles of Casting Technology Lecture 22 - Risering methods
Link NOC:Principles of Casting Technology Lecture 23 - Shape factor
Link NOC:Principles of Casting Technology Lecture 24 - Feeding and Chills effect
Link NOC:Principles of Casting Technology Lecture 25 - Problem related to riser design
Link NOC:Principles of Casting Technology Lecture 26 - Special casting process - 1
Link NOC:Principles of Casting Technology Lecture 27 - Special casting process - 2
Link NOC:Principles of Casting Technology Lecture 28 - Special casting process - 3
Link NOC:Principles of Casting Technology Lecture 29 - Technology of melting
Link NOC:Principles of Casting Technology Lecture 30 - Melting practices
Link NOC:Principles of Casting Technology Lecture 31 - Melting and Casting of cast metal
Link NOC:Principles of Casting Technology Lecture 32 - Melting practice for gray iron
Link NOC:Principles of Casting Technology Lecture 33 - Melting practice for Malleable iron and S.G iron
Link NOC:Principles of Casting Technology Lecture 34 - Casting of steel and alloy steel
Link NOC:Principles of Casting Technology Lecture 35 - Casting practices for non-ferrous metals and alloys
Link NOC:Principles of Casting Technology Lecture 36 - Fettling of castings
Link NOC:Principles of Casting Technology Lecture 37 - Heat treatment of castings
Link NOC:Principles of Casting Technology Lecture 38 - Heat treatment practices for cast iron and non-ferrous metals and alloys
Link NOC:Principles of Casting Technology Lecture 39 - Casting defects
Link NOC:Principles of Casting Technology Lecture 40 - Diagnostics of casting defects
Link NOC:Steam and Gas Power Systems Lecture 1 - Review of Thermodynamics
Link NOC:Steam and Gas Power Systems Lecture 2 - Rankine Cycle
Link NOC:Steam and Gas Power Systems Lecture 3 - Performance of Rankine Cycle
Link NOC:Steam and Gas Power Systems Lecture 4 - Binary vapour cycle and co-generation
Link NOC:Steam and Gas Power Systems Lecture 5 - Problem Solving (Rankine Cycle)
Link NOC:Steam and Gas Power Systems Lecture 6 - Steam Generators
Link NOC:Steam and Gas Power Systems Lecture 7 - Fire Tube Boilers
Link NOC:Steam and Gas Power Systems Lecture 8 - Water Tube Boilers
Link NOC:Steam and Gas Power Systems Lecture 9 - Boiler Mountings and Accessories
Link NOC:Steam and Gas Power Systems Lecture 10 - High Pressure Boilers (Part-1)
Link NOC:Steam and Gas Power Systems Lecture 11 - High Pressure Boilers (Part-2)
Link NOC:Steam and Gas Power Systems Lecture 12 - Draught
Link NOC:Steam and Gas Power Systems Lecture 13 - Performance of Boiler
Link NOC:Steam and Gas Power Systems Lecture 14 - Combustion of Fuel
Link NOC:Steam and Gas Power Systems Lecture 15 - Combustion of Fuel (Problem Solving)
Link NOC:Steam and Gas Power Systems Lecture 16 - Boiler Trial
Link NOC:Steam and Gas Power Systems Lecture 17 - Nozzles and Diffusers - Momentum and Continuity Equations
Link NOC:Steam and Gas Power Systems Lecture 18 - Nozzles and Diffusers - Efficiency and Critical Pressure
Link NOC:Steam and Gas Power Systems Lecture 19 - Nozzles and Diffusers - General Relationships and Supersaturated Flow
Link NOC:Steam and Gas Power Systems Lecture 20 - Problem Solving (Nozzles and diffusers)
Link NOC:Steam and Gas Power Systems Lecture 21 - Steam Turbine
Link NOC:Steam and Gas Power Systems Lecture 22 - Compounding of Steam Turbine
Link NOC:Steam and Gas Power Systems Lecture 23 - Impulse Steam Turbine
Link NOC:Steam and Gas Power Systems Lecture 24 - Impulse Steam Turbine Performance
Link NOC:Steam and Gas Power Systems Lecture 25 - Problem solving (Impulse Steam Turbine)
Link NOC:Steam and Gas Power Systems Lecture 26 - Impulse Reaction Steam Turbine
Link NOC:Steam and Gas Power Systems Lecture 27 - Impulse Reaction Steam Turbine Performance
Link NOC:Steam and Gas Power Systems Lecture 28 - Energy Losses in Steam Turbine
Link NOC:Steam and Gas Power Systems Lecture 29 - Condensers
Link NOC:Steam and Gas Power Systems Lecture 30 - Problem Solving (Steam Turbine)
Link NOC:Steam and Gas Power Systems Lecture 31 - Gas turbine cycle
Link NOC:Steam and Gas Power Systems Lecture 32 - Gas Turbine cycle Performance Evaluations
Link NOC:Steam and Gas Power Systems Lecture 33 - Gas Turbine cycle - Modifications
Link NOC:Steam and Gas Power Systems Lecture 34 - Problem Solving (Gas Turbine Cycle)
Link NOC:Steam and Gas Power Systems Lecture 35 - Centrifugal Compressors
Link NOC:Steam and Gas Power Systems Lecture 36 - Centrifugal Compressors Characteristics
Link NOC:Steam and Gas Power Systems Lecture 37 - Axial Flow Compressor
Link NOC:Steam and Gas Power Systems Lecture 38 - Axial Flow Compressor Characteristics
Link NOC:Steam and Gas Power Systems Lecture 39 - Jet Propulsion
Link NOC:Steam and Gas Power Systems Lecture 40 - Problem Solving
Link NOC:Product Design and Development Lecture 1 - Introduction to product design and development
Link NOC:Product Design and Development Lecture 2 - Product life-cycle
Link NOC:Product Design and Development Lecture 3 - Product policy of an organization and selection of profitable products
Link NOC:Product Design and Development Lecture 4 - Product design
Link NOC:Product Design and Development Lecture 5 - Product design steps and product analysis
Link NOC:Product Design and Development Lecture 6 - Value engineering concepts
Link NOC:Product Design and Development Lecture 7 - Problem Identification and VEJP
Link NOC:Product Design and Development Lecture 8 - Function analysis
Link NOC:Product Design and Development Lecture 9 - Functional analysis system technique
Link NOC:Product Design and Development Lecture 10 - Case study on value engineering
Link NOC:Product Design and Development Lecture 11 - Quality function deployment
Link NOC:Product Design and Development Lecture 12 - Computer aided design
Link NOC:Product Design and Development Lecture 13 - Rubust design
Link NOC:Product Design and Development Lecture 14 - Design for X
Link NOC:Product Design and Development Lecture 15 - Ergonomics in product design
Link NOC:Product Design and Development Lecture 16 - DFMA guidelines
Link NOC:Product Design and Development Lecture 17 - Product design for manual assembly
Link NOC:Product Design and Development Lecture 18 - Design guidelines for different processes
Link NOC:Product Design and Development Lecture 19 - Rapid prototyping: concept, advantages
Link NOC:Product Design and Development Lecture 20 - Rapid prototyping processes
Link NOC:Fundamentals of Manufacturing Processes Lecture 1 - Understanding Manufacturing
Link NOC:Fundamentals of Manufacturing Processes Lecture 2 - Fundamental Approaches of Manufacturing
Link NOC:Fundamentals of Manufacturing Processes Lecture 3 - Manufacturing Process Specific Advantages and Limitations
Link NOC:Fundamentals of Manufacturing Processes Lecture 4 - Material and Manufacturing Processes
Link NOC:Fundamentals of Manufacturing Processes Lecture 5 - Classification of Manufacturing Processes
Link NOC:Fundamentals of Manufacturing Processes Lecture 6 - Selection of Manufacturing Processes
Link NOC:Fundamentals of Manufacturing Processes Lecture 7 - Applications of Manufacturing Processes
Link NOC:Fundamentals of Manufacturing Processes Lecture 8 - Effect of Manufacturing Processes on Mechanical Properties
Link NOC:Fundamentals of Manufacturing Processes Lecture 9 - Break Even Analysis in Manufacturing Processes
Link NOC:Fundamentals of Manufacturing Processes Lecture 10 - Casting: Introduction and Suitability
Link NOC:Fundamentals of Manufacturing Processes Lecture 11 - Steps of Casting Processes
Link NOC:Fundamentals of Manufacturing Processes Lecture 12 - Casting: Terminology
Link NOC:Fundamentals of Manufacturing Processes Lecture 13 - The Pattern Allowances - I
Link NOC:Fundamentals of Manufacturing Processes Lecture 14 - The Pattern Allowances - II
Link NOC:Fundamentals of Manufacturing Processes Lecture 15 - Casting: Sand Moulding - l
Link NOC:Fundamentals of Manufacturing Processes Lecture 16 - Sand Moulding - II
Link NOC:Fundamentals of Manufacturing Processes Lecture 17 - Casting: Core and Core Prints
Link NOC:Fundamentals of Manufacturing Processes Lecture 18 - Casting: Gating System
Link NOC:Fundamentals of Manufacturing Processes Lecture 19 - Casting: Yield and Riser Design
Link NOC:Fundamentals of Manufacturing Processes Lecture 20 - Casting: Riser Design
Link NOC:Fundamentals of Manufacturing Processes Lecture 21 - Casting: Cleaning of Castings
Link NOC:Fundamentals of Manufacturing Processes Lecture 22 - Casting: Casting Defects and their Preventions
Link NOC:Fundamentals of Manufacturing Processes Lecture 23 - Casting: Shell Mould Casting
Link NOC:Fundamentals of Manufacturing Processes Lecture 24 - Casting: Investment and Permanent Mould Casting
Link NOC:Fundamentals of Manufacturing Processes Lecture 25 - Metal Working Processes: Hot and Cold Working
Link NOC:Fundamentals of Manufacturing Processes Lecture 26 - Metal Working Processes: Rolling
Link NOC:Fundamentals of Manufacturing Processes Lecture 27 - Metal Working Processes: Forging
Link NOC:Fundamentals of Manufacturing Processes Lecture 28 - Metal Working Processes: Extrusion
Link NOC:Fundamentals of Manufacturing Processes Lecture 29 - Metal Working Processes: Wire Drawing
Link NOC:Fundamentals of Manufacturing Processes Lecture 30 - Metal Working Processes: Press
Link NOC:Fundamentals of Manufacturing Processes Lecture 31 - Sheet Metal Operations: Shearing
Link NOC:Fundamentals of Manufacturing Processes Lecture 32 - Metal Working Processes: Sheet Metal Operations - II
Link NOC:Fundamentals of Manufacturing Processes Lecture 33 - Metal Working Processes: Sheet Metal Operations - III
Link NOC:Fundamentals of Manufacturing Processes Lecture 34 - Metal Working Processes: Dies and Die sets
Link NOC:Fundamentals of Manufacturing Processes Lecture 35 - Material Removal Processes: Machining
Link NOC:Fundamentals of Manufacturing Processes Lecture 36 - Material Removal Processes: Mechanism of Metal Cutting
Link NOC:Fundamentals of Manufacturing Processes Lecture 37 - Material Removal Processes: Chip Formation
Link NOC:Fundamentals of Manufacturing Processes Lecture 38 - Material Removal Processes: Types of Chips and Power Consumption
Link NOC:Fundamentals of Manufacturing Processes Lecture 39 - Material Removal Processes: Heat Generation
Link NOC:Fundamentals of Manufacturing Processes Lecture 40 - Material Removal Processes: Tool Failure and Tool Life
Link NOC:Fundamentals of Manufacturing Processes Lecture 41 - Material Removal Processes: Tool materials
Link NOC:Fundamentals of Manufacturing Processes Lecture 42 - Material removal processes: Cutting fluids
Link NOC:Fundamentals of Manufacturing Processes Lecture 43 - Material removal processes: Grinding - I
Link NOC:Fundamentals of Manufacturing Processes Lecture 44 - Material removal Processes: Grinding - II
Link NOC:Fundamentals of Manufacturing Processes Lecture 45 - Material removal Processes: Grinding - III
Link NOC:Fundamentals of Manufacturing Processes Lecture 46 - Material removal processes: Grinding operations
Link NOC:Fundamentals of Manufacturing Processes Lecture 47 - Joining of metals: Fundamentals - I
Link NOC:Fundamentals of Manufacturing Processes Lecture 48 - Joining of metals: Fundamentals - II
Link NOC:Fundamentals of Manufacturing Processes Lecture 49 - Joining of metals: Welding processes - I
Link NOC:Fundamentals of Manufacturing Processes Lecture 50 - Brazing, soldering and weldability
Link NOC:Fundamentals of Manufacturing Processes Lecture 51 - Weldability and welding defects
Link NOC:Fundamentals of Manufacturing Processes Lecture 52 - Heat treatment: Fundamentals - I
Link NOC:Fundamentals of Manufacturing Processes Lecture 53 - Heat treatment: Fundamentals - II
Link NOC:Fundamentals of Manufacturing Processes Lecture 54 - Heat treatment: Fundamentals - III
Link NOC:Fundamentals of Manufacturing Processes Lecture 55 - Heat treatment: Normalizing and hardening
Link NOC:Fundamentals of Manufacturing Processes Lecture 56 - Heat treatment: Tempering
Link NOC:Fundamentals of Manufacturing Processes Lecture 57 - Improving surface properties: Introduction
Link NOC:Fundamentals of Manufacturing Processes Lecture 58 - Improving surface properties: Surface modification processes I
Link NOC:Fundamentals of Manufacturing Processes Lecture 59 - Improving surface properties: Changing chemical composition
Link NOC:Fundamentals of Manufacturing Processes Lecture 60 - Improving surface properties: Coating
Link NOC:Modelling and Simulation of Discrete Event System Lecture 1 - Introduction to Simulation
Link NOC:Modelling and Simulation of Discrete Event System Lecture 2 - Concept of System, Model and Simulation
Link NOC:Modelling and Simulation of Discrete Event System Lecture 3 - Time advance mechanism, Components of a simulation model
Link NOC:Modelling and Simulation of Discrete Event System Lecture 4 - Program organization and logic, Steps in a simulation study
Link NOC:Modelling and Simulation of Discrete Event System Lecture 5 - Simulation examples
Link NOC:Modelling and Simulation of Discrete Event System Lecture 6 - Statistical Models in Simulation
Link NOC:Modelling and Simulation of Discrete Event System Lecture 7 - Input probability distribution functions for discrete systems
Link NOC:Modelling and Simulation of Discrete Event System Lecture 8 - Continuous distribution functions
Link NOC:Modelling and Simulation of Discrete Event System Lecture 9 - Continuous distribution functions and empirical distribution functions
Link NOC:Modelling and Simulation of Discrete Event System Lecture 10 - Problem solving on statistical models in simulation
Link NOC:Modelling and Simulation of Discrete Event System Lecture 11 - Characteristics of a queueing system
Link NOC:Modelling and Simulation of Discrete Event System Lecture 12 - Performance measures of queueing system
Link NOC:Modelling and Simulation of Discrete Event System Lecture 13 - Analysis of a single server queueing system
Link NOC:Modelling and Simulation of Discrete Event System Lecture 14 - Simulation of a single server queueing system
Link NOC:Modelling and Simulation of Discrete Event System Lecture 15 - Computer representation of simulation of single server queuing system
Link NOC:Modelling and Simulation of Discrete Event System Lecture 16 - Generation of Random Numbers
Link NOC:Modelling and Simulation of Discrete Event System Lecture 17 - Issues and Challenges in Congruential Generators
Link NOC:Modelling and Simulation of Discrete Event System Lecture 18 - Testing of random numbers
Link NOC:Modelling and Simulation of Discrete Event System Lecture 19 - Generation of Random Variates
Link NOC:Modelling and Simulation of Discrete Event System Lecture 20 - Problem Solving on Random Number and Random Variate Generation
Link NOC:Modelling and Simulation of Discrete Event System Lecture 21 - Input modeling: Identifying distributions with data
Link NOC:Modelling and Simulation of Discrete Event System Lecture 22 - Input modeling: Estimation of parameters
Link NOC:Modelling and Simulation of Discrete Event System Lecture 23 - Input modeling: Goodness-of-fit tests and assessing sample dependence
Link NOC:Modelling and Simulation of Discrete Event System Lecture 24 - Input modeling: Multivariate input models
Link NOC:Modelling and Simulation of Discrete Event System Lecture 25 - Problem Solving on input modeling
Link NOC:Modelling and Simulation of Discrete Event System Lecture 26 - Output analysis of a single system: Introduction
Link NOC:Modelling and Simulation of Discrete Event System Lecture 27 - Obtaining a specified precision
Link NOC:Modelling and Simulation of Discrete Event System Lecture 28 - Comparison of alternative system configurations
Link NOC:Modelling and Simulation of Discrete Event System Lecture 29 - Confidence Intervals for comparing more than two systems
Link NOC:Modelling and Simulation of Discrete Event System Lecture 30 - Problem Solving on output analysis of single and alternative systems
Link NOC:Modelling and Simulation of Discrete Event System Lecture 31 - Introduction to simulation of manufacturing and material handling system
Link NOC:Modelling and Simulation of Discrete Event System Lecture 32 - Issues in material handling system
Link NOC:Modelling and Simulation of Discrete Event System Lecture 33 - Modeling of system randomness: Machine downtime
Link NOC:Modelling and Simulation of Discrete Event System Lecture 34 - Verification of simulation models
Link NOC:Modelling and Simulation of Discrete Event System Lecture 35 - Model validity and credibility
Link NOC:Modelling and Simulation of Discrete Event System Lecture 36 - Problem solving and case studies on simulation of manufacturing system
Link NOC:Modelling and Simulation of Discrete Event System Lecture 37 - Introduction to Monte Carlo Simulation
Link NOC:Modelling and Simulation of Discrete Event System Lecture 38 - Inventory Control Simulation using Monte Carlo Technique
Link NOC:Modelling and Simulation of Discrete Event System Lecture 39 - In this lecture, Monte Carlo technique was used to solve inventory system problems
Link NOC:Modelling and Simulation of Discrete Event System Lecture 40 - Problem solving on Monte Carlo Simulation
Link NOC:Processing of Polymers and Polymer Composites Lecture 1 - Introduction to course
Link NOC:Processing of Polymers and Polymer Composites Lecture 2 - Engineering materials and processing techniques
Link NOC:Processing of Polymers and Polymer Composites Lecture 3 - Thermoplastics and thermosets
Link NOC:Processing of Polymers and Polymer Composites Lecture 4 - Processing of polymers
Link NOC:Processing of Polymers and Polymer Composites Lecture 5 - Thermoforming processes
Link NOC:Processing of Polymers and Polymer Composites Lecture 6 - Extrusion - I
Link NOC:Processing of Polymers and Polymer Composites Lecture 7 - Extrusion - II
Link NOC:Processing of Polymers and Polymer Composites Lecture 8 - Compression molding
Link NOC:Processing of Polymers and Polymer Composites Lecture 9 - Injection molding - I
Link NOC:Processing of Polymers and Polymer Composites Lecture 10 - injection molding - II
Link NOC:Processing of Polymers and Polymer Composites Lecture 11 - Transfer molding
Link NOC:Processing of Polymers and Polymer Composites Lecture 12 - Rotational molding
Link NOC:Processing of Polymers and Polymer Composites Lecture 13 - Blow molding
Link NOC:Processing of Polymers and Polymer Composites Lecture 14 - Composite materials: Basic concepts
Link NOC:Processing of Polymers and Polymer Composites Lecture 15 - Classification of composite materials
Link NOC:Processing of Polymers and Polymer Composites Lecture 16 - Processing of polymer composites
Link NOC:Processing of Polymers and Polymer Composites Lecture 17 - Hand lay-up
Link NOC:Processing of Polymers and Polymer Composites Lecture 18 - Spray lay-up
Link NOC:Processing of Polymers and Polymer Composites Lecture 19 - Compression molding
Link NOC:Processing of Polymers and Polymer Composites Lecture 20 - Injection molding
Link NOC:Processing of Polymers and Polymer Composites Lecture 21 - Reaction injection molding
Link NOC:Processing of Polymers and Polymer Composites Lecture 22 - Autoclave molding
Link NOC:Processing of Polymers and Polymer Composites Lecture 23 - Resin transfer molding
Link NOC:Processing of Polymers and Polymer Composites Lecture 24 - Filament winding
Link NOC:Processing of Polymers and Polymer Composites Lecture 25 - Pultrusion process
Link NOC:Processing of Polymers and Polymer Composites Lecture 26 - Sheet molding
Link NOC:Processing of Polymers and Polymer Composites Lecture 27 - Pre-pregging and challenges in primary processing of composites
Link NOC:Processing of Polymers and Polymer Composites Lecture 28 - Secondary processing of polymer composites
Link NOC:Processing of Polymers and Polymer Composites Lecture 29 - Joining of polymer composites
Link NOC:Processing of Polymers and Polymer Composites Lecture 30 - Adhesive joining
Link NOC:Processing of Polymers and Polymer Composites Lecture 31 - Mechanical joining
Link NOC:Processing of Polymers and Polymer Composites Lecture 32 - Microwave joining
Link NOC:Processing of Polymers and Polymer Composites Lecture 33 - Induction and resistance welding
Link NOC:Processing of Polymers and Polymer Composites Lecture 34 - Drilling of polymer matrix composites - I
Link NOC:Processing of Polymers and Polymer Composites Lecture 35 - Drilling of polymer matrix composites - II
Link NOC:Processing of Polymers and Polymer Composites Lecture 36 - Methods to prevent drilling induced damage
Link NOC:Processing of Polymers and Polymer Composites Lecture 37 - Non-conventional drilling
Link NOC:Processing of Polymers and Polymer Composites Lecture 38 - Process simulation of secondary processing
Link NOC:Processing of Polymers and Polymer Composites Lecture 39 - Intelligent drilling of polymer matrix composites
Link NOC:Processing of Polymers and Polymer Composites Lecture 40 - Web based tools for polymer matrix composites
Link NOC:Operations Management Lecture 1 - Operations Management: Basics
Link NOC:Operations Management Lecture 2 - Operations Management: Objectives
Link NOC:Operations Management Lecture 3 - Operations Management: Functions and Scope
Link NOC:Operations Management Lecture 4 - Types of Production Systems
Link NOC:Operations Management Lecture 5 - Operations Strategy
Link NOC:Operations Management Lecture 6 - Product Life-Cycle
Link NOC:Operations Management Lecture 7 - Value Engineering Concepts
Link NOC:Operations Management Lecture 8 - Design for X (DFX)
Link NOC:Operations Management Lecture 9 - Ergonomics in Product Design
Link NOC:Operations Management Lecture 10 - Rapid Prototyping: Concept, Advantages
Link NOC:Operations Management Lecture 11 - Sales Forecasting
Link NOC:Operations Management Lecture 12 - Forecasting System
Link NOC:Operations Management Lecture 13 - Qualitative Methods of Forecasting
Link NOC:Operations Management Lecture 14 - Quantitative Methods - I
Link NOC:Operations Management Lecture 15 - Quantitative Methods - II
Link NOC:Operations Management Lecture 16 - Facility Planning
Link NOC:Operations Management Lecture 17 - Factors Affecting Plant Location
Link NOC:Operations Management Lecture 18 - Plant Location: Case Study on Uttarakhand
Link NOC:Operations Management Lecture 19 - Location Evaluation Methods - I
Link NOC:Operations Management Lecture 20 - Location Evaluation Methods - II
Link NOC:Operations Management Lecture 21 - Facility Layout and Planning - I
Link NOC:Operations Management Lecture 22 - Facility Layout and Planning - II
Link NOC:Operations Management Lecture 23 - Factors Influencing Plant Layout
Link NOC:Operations Management Lecture 24 - Material Flow Patterns
Link NOC:Operations Management Lecture 25 - Tools and Techniques used For Plant Layout Planning
Link NOC:Operations Management Lecture 26 - Production Planning and Control
Link NOC:Operations Management Lecture 27 - Process Planning
Link NOC:Operations Management Lecture 28 - Aggregate Production Planning
Link NOC:Operations Management Lecture 29 - Capacity Planning: Introduction
Link NOC:Operations Management Lecture 30 - Capacity Planning: Examples
Link NOC:Operations Management Lecture 31 - Project Scheduling
Link NOC:Operations Management Lecture 32 - Network Diagrams
Link NOC:Operations Management Lecture 33 - Critical Path Method
Link NOC:Operations Management Lecture 34 - Critical Path Method: Problems - I
Link NOC:Operations Management Lecture 35 - Critical Path Method: Problems - II
Link NOC:Operations Management Lecture 36 - Program Evaluation and Review Technique (PERT)
Link NOC:Operations Management Lecture 37 - PERT Problems - I
Link NOC:Operations Management Lecture 38 - PERT Problems - II
Link NOC:Operations Management Lecture 39 - Time Cost Trade Off (Crashing)
Link NOC:Operations Management Lecture 40 - Project Network: Crashing Problems
Link NOC:Operations Management Lecture 41 - Production Control
Link NOC:Operations Management Lecture 42 - Sequencing
Link NOC:Operations Management Lecture 43 - Sequencing Problems - I
Link NOC:Operations Management Lecture 44 - Sequencing Problems - II
Link NOC:Operations Management Lecture 45 - Master Production Scheduling (MPS)
Link NOC:Operations Management Lecture 46 - Concept of Quality
Link NOC:Operations Management Lecture 47 - Total Quality Management (TQM)
Link NOC:Operations Management Lecture 48 - Total Productive Maintenance
Link NOC:Operations Management Lecture 49 - Statistical Quality Control (SQC)
Link NOC:Operations Management Lecture 50 - Six Sigma
Link NOC:Operations Management Lecture 51 - Materials Management
Link NOC:Operations Management Lecture 52 - Inventory Control
Link NOC:Operations Management Lecture 53 - Economic Order Quantity (EOQ) Models
Link NOC:Operations Management Lecture 54 - Economic Order Quantity (EOQ): Problems
Link NOC:Operations Management Lecture 55 - Production Quantity Model
Link NOC:Operations Management Lecture 56 - Just In time (JIT)
Link NOC:Operations Management Lecture 57 - Kanban System
Link NOC:Operations Management Lecture 58 - Materials Requirement Planning (MRP) - I
Link NOC:Operations Management Lecture 59 - Materials Requirement Planning (MRP) - II
Link NOC:Operations Management Lecture 60 - Enterprise Resource Planning (ERP)
Link NOC:Theory of Production Processes Lecture 1 - Introduction to Theory and Practics of Casting
Link NOC:Theory of Production Processes Lecture 2 - Theory of Solidification: Cooling curves
Link NOC:Theory of Production Processes Lecture 3 - Solidification of pure metals and alloys
Link NOC:Theory of Production Processes Lecture 4 - Factors affecting solidification process
Link NOC:Theory of Production Processes Lecture 5 - Fluidity of liquid metals
Link NOC:Theory of Production Processes Lecture 6 - Technology of patternmaking: Pattern materials
Link NOC:Theory of Production Processes Lecture 7 - Patternmaking: Types of pattern and allowances
Link NOC:Theory of Production Processes Lecture 8 - Molding sand ingredients and sand testing methods
Link NOC:Theory of Production Processes Lecture 9 - Sand molding methods
Link NOC:Theory of Production Processes Lecture 10 - Coremaking: Properties and types of cores
Link NOC:Theory of Production Processes Lecture 11 - Gating system design: Types of gates
Link NOC:Theory of Production Processes Lecture 12 - Gating system design: Pouring time calculation
Link NOC:Theory of Production Processes Lecture 13 - Introduction to riser design
Link NOC:Theory of Production Processes Lecture 14 - Risering methods
Link NOC:Theory of Production Processes Lecture 15 - Problem solving on gating design and risering methods
Link NOC:Theory of Production Processes Lecture 16 - Theory of melting: Types of furnaces
Link NOC:Theory of Production Processes Lecture 17 - Melting and production of Iron castings
Link NOC:Theory of Production Processes Lecture 18 - Production of steel and non-ferrous castings
Link NOC:Theory of Production Processes Lecture 19 - Casting design considerations
Link NOC:Theory of Production Processes Lecture 20 - Casting defects: Types, causes and remedies
Link NOC:Theory of Production Processes Lecture 21 - Concept of stress and strain, Elastic and plastic behavior
Link NOC:Theory of Production Processes Lecture 22 - State of stress in two and three dimensions, Mohr’s circle
Link NOC:Theory of Production Processes Lecture 23 - Description of strain at a point
Link NOC:Theory of Production Processes Lecture 24 - Mean and deviator stresses, Elastic stress strain relationships
Link NOC:Theory of Production Processes Lecture 25 - Theory of plasticity: True stress and true strain, Flow curve
Link NOC:Theory of Production Processes Lecture 26 - Yield criteria for ductile materials
Link NOC:Theory of Production Processes Lecture 27 - Flow rules, Plastic stress strain relationships
Link NOC:Theory of Production Processes Lecture 28 - Classification of metal working processes
Link NOC:Theory of Production Processes Lecture 29 - Mechanics of metal working
Link NOC:Theory of Production Processes Lecture 30 - Temperature in metalworking: Hot and cold working
Link NOC:Theory of Production Processes Lecture 31 - Rolling process: Classification, Hot and cold rolling
Link NOC:Theory of Production Processes Lecture 32 - Analysis of rolling operation: Forces and geometrical relationships
Link NOC:Theory of Production Processes Lecture 33 - Introduction to forging Process: Classification and equipments
Link NOC:Theory of Production Processes Lecture 34 - Analysis of forging process
Link NOC:Theory of Production Processes Lecture 35 - Problem solving on rolling and forging processes
Link NOC:Theory of Production Processes Lecture 36 - Extrusion process: Classification and analysis
Link NOC:Theory of Production Processes Lecture 37 - Drawing of rods, tubes and wires
Link NOC:Theory of Production Processes Lecture 38 - Analysis of drawing operation
Link NOC:Theory of Production Processes Lecture 39 - Sheet metal operations
Link NOC:Theory of Production Processes Lecture 40 - Metal Forming Defects
Link NOC:Theory of Production Processes Lecture 41 - Classification of joining processes
Link NOC:Theory of Production Processes Lecture 42 - Heat flow in welding
Link NOC:Theory of Production Processes Lecture 43 - Metallurgy of fusion welds
Link NOC:Theory of Production Processes Lecture 44 - Heat affected zone in welding
Link NOC:Theory of Production Processes Lecture 45 - Heat treatment processes in welding
Link NOC:Theory of Production Processes Lecture 46 - Principle of shield arc welding processes
Link NOC:Theory of Production Processes Lecture 47 - Principle of gas shield arc welding processes
Link NOC:Theory of Production Processes Lecture 48 - Principle of Resistance welding
Link NOC:Theory of Production Processes Lecture 49 - Principle of Solid State Welding Processes
Link NOC:Theory of Production Processes Lecture 50 - Brazing, soldering and adhesive bonding
Link NOC:Theory of Production Processes Lecture 51 - Residual stresses in welding
Link NOC:Theory of Production Processes Lecture 52 - Methods of controlling residual stresses in welding
Link NOC:Theory of Production Processes Lecture 53 - Welding Distortion
Link NOC:Theory of Production Processes Lecture 54 - Control of welding distortion
Link NOC:Theory of Production Processes Lecture 55 - Preheat and postweld heat treatment of weldments
Link NOC:Theory of Production Processes Lecture 56 - Weldability of metals
Link NOC:Theory of Production Processes Lecture 57 - Weldability of steels
Link NOC:Theory of Production Processes Lecture 58 - Weldability of cast iron
Link NOC:Theory of Production Processes Lecture 59 - Weldability of non-ferrous materials
Link NOC:Theory of Production Processes Lecture 60 - Welding defects
Link NOC:Automatic Control Lecture 1 - Definition and Types
Link NOC:Automatic Control Lecture 2 - Performance Specifications
Link NOC:Automatic Control Lecture 3 - Design Process
Link NOC:Automatic Control Lecture 4 - Block Diagrams
Link NOC:Automatic Control Lecture 5 - Laplace Transform and Transfer Function
Link NOC:Automatic Control Lecture 6 - Translational Mechanical System
Link NOC:Automatic Control Lecture 7 - Rotational Mechanical System
Link NOC:Automatic Control Lecture 8 - Electrical System
Link NOC:Automatic Control Lecture 9 - Linearization of Nonlinear Systems
Link NOC:Automatic Control Lecture 10 - Numerical Problems
Link NOC:Automatic Control Lecture 11 - Poles and Zeros
Link NOC:Automatic Control Lecture 12 - First Order System
Link NOC:Automatic Control Lecture 13 - Second Order System
Link NOC:Automatic Control Lecture 14 - Underdamped Second Order System - I
Link NOC:Automatic Control Lecture 15 - Underdamped Second Order System - II
Link NOC:Automatic Control Lecture 16 - Definition of Stability
Link NOC:Automatic Control Lecture 17 - Routh-Hurwitz Criterion
Link NOC:Automatic Control Lecture 18 - Routh-Hurwitz Criterion- Special Cases
Link NOC:Automatic Control Lecture 19 - Steady State Errors
Link NOC:Automatic Control Lecture 20 - Static Error Constants
Link NOC:Automatic Control Lecture 21 - Define Root Locus
Link NOC:Automatic Control Lecture 22 - Sketching of Root Locus - I
Link NOC:Automatic Control Lecture 23 - Sketching of Root Locus - II
Link NOC:Automatic Control Lecture 24 - Sketching of Root Locus - III
Link NOC:Automatic Control Lecture 25 - Numerical Examples and Second Order Approximation
Link NOC:Automatic Control Lecture 26 - PI Controller Design
Link NOC:Automatic Control Lecture 27 - PD Controller Design
Link NOC:Automatic Control Lecture 28 - PID Controller Design
Link NOC:Automatic Control Lecture 29 - Lag Compensation
Link NOC:Automatic Control Lecture 30 - Lead and Lag-Lead Compensation
Link NOC:Automatic Control Lecture 31 - State Space Representation
Link NOC:Automatic Control Lecture 32 - Converting a Transfer Function to State Space
Link NOC:Automatic Control Lecture 33 - Converting From State Space to Transfer Function
Link NOC:Automatic Control Lecture 34 - Controller Design
Link NOC:Automatic Control Lecture 35 - Controller Design and Controllability
Link NOC:Automatic Control Lecture 36 - Transfer Function, Poles, Zeros, Response
Link NOC:Automatic Control Lecture 37 - Steady State Error, Root Locus
Link NOC:Automatic Control Lecture 38 - Design Via Root Locus, Compensation - I
Link NOC:Automatic Control Lecture 39 - Design Via Root Locus, Compensation - II
Link NOC:Automatic Control Lecture 40 - State Space Method
Link NOC:Failure Analysis and Prevention Lecture 1 - Introduction - Need and scope of failure analysis and prevention
Link NOC:Failure Analysis and Prevention Lecture 2 - Introduction - Engineering disasters and understanding failures
Link NOC:Failure Analysis and Prevention Lecture 3 - Fundamental sources of failures - Deficient design - I
Link NOC:Failure Analysis and Prevention Lecture 4 - Fundamental sources of failures - Deficient design - II
Link NOC:Failure Analysis and Prevention Lecture 5 - Fundamental sources of failures - Deficient design - III and upgrading of a part
Link NOC:Failure Analysis and Prevention Lecture 6 - Fundamental sources of failures - Imperfections in base metals
Link NOC:Failure Analysis and Prevention Lecture 7 - Fundamental sources of failures - Improper Manufacturing - I
Link NOC:Failure Analysis and Prevention Lecture 8 - Fundamental sources of failures - Improper Manufacturing - II
Link NOC:Failure Analysis and Prevention Lecture 9 - Fundamental sources of failures - Improper Manufacturing - III
Link NOC:Failure Analysis and Prevention Lecture 10 - Fundamental sources of failures - Improper Manufacturing - IV and improper service conditions
Link NOC:Failure Analysis and Prevention Lecture 11 - Fundamental sources of failures - Poor assembly, service and maintenance
Link NOC:Failure Analysis and Prevention Lecture 12 - Industrial engineering tool for failure analysis - Pareto diagram
Link NOC:Failure Analysis and Prevention Lecture 13 - Industrial engineering tool for failure analysis - Fishbone diagram and FMEA
Link NOC:Failure Analysis and Prevention Lecture 14 - Industrial engineering tool for failure analysis - FMEA
Link NOC:Failure Analysis and Prevention Lecture 15 - Industrial engineering tool for failure analysis - Fault tree analysis
Link NOC:Failure Analysis and Prevention Lecture 16 - Industrial engineering tool for failure analysis - Reliability - I
Link NOC:Failure Analysis and Prevention Lecture 17 - Industrial engineering tool for failure analysis - Reliability - II
Link NOC:Failure Analysis and Prevention Lecture 18 - General procedure of failure analysis - Steps
Link NOC:Failure Analysis and Prevention Lecture 19 - General procedure of failure analysis - Background information collection
Link NOC:Failure Analysis and Prevention Lecture 20 - General procedure of failure analysis - Preliminary examination
Link NOC:Failure Analysis and Prevention Lecture 21 - General procedure of failure analysis - NDT for failure analysis
Link NOC:Failure Analysis and Prevention Lecture 22 - General procedure of failure analysis - Destructive testing
Link NOC:Failure Analysis and Prevention Lecture 23 - General procedure of failure analysis - DT, selection, preservation, cleaning and sectioning of samples
Link NOC:Failure Analysis and Prevention Lecture 24 - General procedure of failure analysis - Macroscopy of fracture surfaces - I
Link NOC:Failure Analysis and Prevention Lecture 25 - General procedure of failure analysis - Macroscopy of fracture surfaces - II
Link NOC:Failure Analysis and Prevention Lecture 26 - General procedure of failure analysis - Macroscopy of fracture surfaces - III
Link NOC:Failure Analysis and Prevention Lecture 27 - General procedure of failure analysis - Macroscopy of fracture surfaces - IV
Link NOC:Failure Analysis and Prevention Lecture 28 - General procedure of failure analysis - Microscopy of fracture surfaces
Link NOC:Failure Analysis and Prevention Lecture 29 - General procedure of failure analysis - Metallography of failed components
Link NOC:Failure Analysis and Prevention Lecture 30 - General procedure of failure analysis - Determination of type of fracture - I
Link NOC:Failure Analysis and Prevention Lecture 31 - General procedure of failure analysis - Determination of type of fracture - II
Link NOC:Failure Analysis and Prevention Lecture 32 - General procedure of failure analysis - Determination of type of fracture - III and chemical analysis
Link NOC:Failure Analysis and Prevention Lecture 33 - General procedure of failure analysis - Application of fracture mechanics - I
Link NOC:Failure Analysis and Prevention Lecture 34 - General procedure of failure analysis - Application of fracture mechanics - II
Link NOC:Failure Analysis and Prevention Lecture 35 - General procedure of failure analysis - Simulated test service conditions and analysis of evidences
Link NOC:Failure Analysis and Prevention Lecture 36 - General procedure of failure analysis - Question for analysis
Link NOC:Failure Analysis and Prevention Lecture 37 - General procedure of failure analysis - Reporting failure analysis and failure analysis of welded joint
Link NOC:Failure Analysis and Prevention Lecture 38 - General procedure of failure analysis - Failure analysis of weld joint
Link NOC:Failure Analysis and Prevention Lecture 39 - General procedure of failure analysis - Examples of failure analysis
Link NOC:Failure Analysis and Prevention Lecture 40 - General procedure of failure analysis - Embrittlement of steels
Link NOC:Mechanical Measurement System Lecture 1 - Basic concepts of measurement
Link NOC:Mechanical Measurement System Lecture 2 - Functional elements of instruments
Link NOC:Mechanical Measurement System Lecture 3 - Classification of measuring instruments
Link NOC:Mechanical Measurement System Lecture 4 - Methods of correction for interfering and modifying inputs
Link NOC:Mechanical Measurement System Lecture 5 - Static characteristics of measuring instruments - 1
Link NOC:Mechanical Measurement System Lecture 6 - Static characteristics of measuring instruments - 2
Link NOC:Mechanical Measurement System Lecture 7 - Loading effect and Impedance matching
Link NOC:Mechanical Measurement System Lecture 8 - Statistical analysis
Link NOC:Mechanical Measurement System Lecture 9 - Chi-square test
Link NOC:Mechanical Measurement System Lecture 10 - Least square method
Link NOC:Mechanical Measurement System Lecture 11 - Uncertainty analysis
Link NOC:Mechanical Measurement System Lecture 12 - Problem solving - 1
Link NOC:Mechanical Measurement System Lecture 13 - Generalized model of a measuring system
Link NOC:Mechanical Measurement System Lecture 14 - Zero and first order system
Link NOC:Mechanical Measurement System Lecture 15 - First order system - step response
Link NOC:Mechanical Measurement System Lecture 16 - First order system - ramp response
Link NOC:Mechanical Measurement System Lecture 17 - First order system - impulse response
Link NOC:Mechanical Measurement System Lecture 18 - First order system - frequency response
Link NOC:Mechanical Measurement System Lecture 19 - Second order system - step response - 1
Link NOC:Mechanical Measurement System Lecture 20 - Second order system - step response - 2
Link NOC:Mechanical Measurement System Lecture 21 - Second order system - ramp response
Link NOC:Mechanical Measurement System Lecture 22 - Second order system - impulse and frequency response
Link NOC:Mechanical Measurement System Lecture 23 - Higher order systems
Link NOC:Mechanical Measurement System Lecture 24 - Compensation
Link NOC:Mechanical Measurement System Lecture 25 - Transducers - 1
Link NOC:Mechanical Measurement System Lecture 26 - Transducers - 2
Link NOC:Mechanical Measurement System Lecture 27 - Flow measurement - 1
Link NOC:Mechanical Measurement System Lecture 28 - Flow measurement - 2
Link NOC:Mechanical Measurement System Lecture 29 - Temperature measurement - 1
Link NOC:Mechanical Measurement System Lecture 30 - Temperature measurement - 2
Link NOC:Mechanical Measurement System Lecture 31 - Strain gauges
Link NOC:Mechanical Measurement System Lecture 32 - Piezoelectric transducers
Link NOC:Mechanical Measurement System Lecture 33 - Pressure measurement
Link NOC:Mechanical Measurement System Lecture 34 - Force and torque measurement
Link NOC:Mechanical Measurement System Lecture 35 - Displacement and acceleration measurement
Link NOC:Mechanical Measurement System Lecture 36 - Sound measurement
Link NOC:Mechanical Measurement System Lecture 37 - Thermophysical properties measurement
Link NOC:Mechanical Measurement System Lecture 38 - Flow visualization
Link NOC:Mechanical Measurement System Lecture 39 - Air pollution sampling and measurement
Link NOC:Mechanical Measurement System Lecture 40 - Problem solving - 2
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 1 - Introduction and need of surface engineering
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 2 - Surface/sub-surface regions and properties of importance for surface engineering
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 3 - Surface properties and their modification
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 4 - Classification of surface modification techniques - I
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 5 - Classification of surface modification techniques - II
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 6 - Comparison of surface modification techniques and scope of surface engineering
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 7 - Scope of surface engineering - I
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 8 - Surface properties for wear and friction resistance - I
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 9 - Surface properties for wear and friction resistance - II
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 10 - Surface properties for wear and friction resistance - III
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 11 - Issues and application of surface modification
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 12 - Surface damage: type and categories
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 13 - Surface damage: Adhesive wear - I
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 14 - Surface damage: Adhesive wear - II
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 15 - Surface damage: Classical law of adhesive wear and abrasive wear
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 16 - Surface damage: Abrasive wear - I
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 17 - Surface damage: Abrasive wear - II
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 18 - Surface damage: Erosive wear
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 19 - Surface damage: Melting wear and corrosive wear
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 20 - Surface damage: Diffusive wear and evaluation of surface damage
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 21 - Properties and mode of wear
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 22 - Metal systems
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 23 - Thermal barrier coatings
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 24 - Functionally graded materials and other materials
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 25 - Surface modification techniques: Principle of controlling surface metallurgy
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 26 - Surface modification techniques: Controlling surface metallurgy - I
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 27 - Surface modification techniques: Controlling surface metallurgy - II
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 28 - Surface modification techniques: Controlling surface metallurgy - III
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 29 - Surface modification techniques: Controlling surface metallurgy - IV
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 30 - Surface modification techniques: Changing surface composition
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 31 - Surface modification techniques: Carburizing - I
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 32 - Surface modification techniques: Carburizing - II
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 33 - Surface modification techniques: Carburizing and Cyaniding
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 34 - Surface modification techniques: Nitriding
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 35 - Surface modification techniques: Plasma carburizing and plasma nitriding
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 36 - Surface modification techniques: Vacuum based surface modification I
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 37 - Surface modification techniques: Ion implantation and ion plating
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 38 - Surface modification techniques: Sputtering and Ion beam assisted deposition
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 39 - Surface modification techniques: Chemical vapour deposition and boronizing
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 40 - Surface modification techniques: Laser alloying
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 41 - Surface modification techniques: Laser nitriding and developing surface layer
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 42 - Surface modification techniques: Fundamentals of surface modification by weld surfacing and thermal spraying
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 43 - Surface modification techniques: Fundamentals of surface modification by weld surfacing
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 44 - Surface modification techniques: Weld surfacing processes
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 45 - Surface modification techniques: Weld surfacing - I
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 46 - Surface modification techniques: Weld surfacing - II
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 47 - Surface modification techniques: Weld surfacing - III
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 48 - Surface modification techniques: Laser cladding
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 49 - Surface modification techniques: Principle of thermal spraying
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 50 - Surface modification techniques: Flame spraying
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 51 - Surface modification techniques: Improving the performance of flame spray coating
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 52 - Surface modification techniques: HVOF and Detonation spraying
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 53 - Surface modification techniques: Cold spraying, arc spraying
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 54 - Surface modification techniques: Plasma spraying, electroplating, electroless plating
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 55 - Characterization of modified surfaces: Surface roughness and thickness - I
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 56 - Characterization of modified surfaces: Surface roughness and thickness - II
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 57 - Characterization of modified surfaces: Thickness and soundness
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 58 - Characterization of modified surfaces: Soundness and mechanical properties
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 59 - Characterization of modified surfaces: Metallography
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 60 - Characterization of modified surfaces: Wear behavior
Link NOC:Work System Design Lecture 1 - Work System Design: Introduction
Link NOC:Work System Design Lecture 2 - Introduction and Concept of Productivity
Link NOC:Work System Design Lecture 3 - Measurement of Productivity
Link NOC:Work System Design Lecture 4 - Productivity Measures
Link NOC:Work System Design Lecture 5 - Productivity Measurement Models
Link NOC:Work System Design Lecture 6 - Factors Influencing Productivity
Link NOC:Work System Design Lecture 7 - Causes of Low Productivity
Link NOC:Work System Design Lecture 8 - Productivity Improvement Technique
Link NOC:Work System Design Lecture 9 - Numerical Problems on Productivity
Link NOC:Work System Design Lecture 10 - Case Study on Productivity
Link NOC:Work System Design Lecture 11 - Work Study: Basic Concept
Link NOC:Work System Design Lecture 12 - Steps Involved in Work Study
Link NOC:Work System Design Lecture 13 - Concept of Work Content
Link NOC:Work System Design Lecture 14 - Techniques of Work Study
Link NOC:Work System Design Lecture 15 - Human Aspects of Work Study
Link NOC:Work System Design Lecture 16 - Method Study: Basic Concept
Link NOC:Work System Design Lecture 17 - Method Study: Steps
Link NOC:Work System Design Lecture 18 - Method Study: Recording Techniques
Link NOC:Work System Design Lecture 19 - Operation Process Charts
Link NOC:Work System Design Lecture 20 - Operation Process Charts: Examples
Link NOC:Work System Design Lecture 21 - Flow Process Charts
Link NOC:Work System Design Lecture 22 - Flow Process Charts: Examples
Link NOC:Work System Design Lecture 23 - Two-Handed-Process Charts
Link NOC:Work System Design Lecture 24 - Multiple Activity Charts
Link NOC:Work System Design Lecture 25 - Flow Diagrams
Link NOC:Work System Design Lecture 26 - String Diagrams
Link NOC:Work System Design Lecture 27 - Principles of Motion Economy
Link NOC:Work System Design Lecture 28 - Micro-Motion Study
Link NOC:Work System Design Lecture 29 - Therbligs
Link NOC:Work System Design Lecture 30 - SIMO Charts
Link NOC:Work System Design Lecture 31 - Memo-Motion Study
Link NOC:Work System Design Lecture 32 - Cycle Graph and Chronocycle Graph
Link NOC:Work System Design Lecture 33 - Critical Examination Techniques
Link NOC:Work System Design Lecture 34 - Development and Selection of New Method
Link NOC:Work System Design Lecture 35 - Installation and Maintenance of Improved Methods
Link NOC:Work System Design Lecture 36 - Work Measurement: Basic Concept
Link NOC:Work System Design Lecture 37 - Techniques of Work Measurement
Link NOC:Work System Design Lecture 38 - Steps Involved in Time Study
Link NOC:Work System Design Lecture 39 - Steps and Equipment of Time Study
Link NOC:Work System Design Lecture 40 - Performance Rating
Link NOC:Work System Design Lecture 41 - Performance Rating: Examples
Link NOC:Work System Design Lecture 42 - Allowances in Time Study
Link NOC:Work System Design Lecture 43 - Computation of Standard Time - I
Link NOC:Work System Design Lecture 44 - Computation of Standard Time - II
Link NOC:Work System Design Lecture 45 - Work Measurement: Applications
Link NOC:Work System Design Lecture 46 - Work Sampling: Basic Concept
Link NOC:Work System Design Lecture 47 - Procedure of Work Sampling
Link NOC:Work System Design Lecture 48 - Work Sampling: Examples
Link NOC:Work System Design Lecture 49 - Introduction to Synthetic Data and PMTS
Link NOC:Work System Design Lecture 50 - Introduction to MTM and MOST
Link NOC:Work System Design Lecture 51 - Ergonomics: Basic Concept
Link NOC:Work System Design Lecture 52 - Industrial Ergonomics
Link NOC:Work System Design Lecture 53 - Ergonomics: Anthropometry
Link NOC:Work System Design Lecture 54 - Man-Machine System - 1
Link NOC:Work System Design Lecture 55 - Man-Machine System - 2
Link NOC:Work System Design Lecture 56 - Case Study: Office Chair
Link NOC:Work System Design Lecture 57 - Case Study: Tower Crane Cabin
Link NOC:Work System Design Lecture 58 - Case Study: Car Seat
Link NOC:Work System Design Lecture 59 - Case Study: Computer System
Link NOC:Work System Design Lecture 60 - Case Study: Assembly Line
Link NOC:Principles of Metal Forming Technology Lecture 1 - Introduction to Metal Forming Technology
Link NOC:Principles of Metal Forming Technology Lecture 2 - Classification of Metal Working Processes
Link NOC:Principles of Metal Forming Technology Lecture 3 - Behavior of Materials
Link NOC:Principles of Metal Forming Technology Lecture 4 - Failure of Materials
Link NOC:Principles of Metal Forming Technology Lecture 5 - Concept of stress and strain
Link NOC:Principles of Metal Forming Technology Lecture 6 - Description of stress
Link NOC:Principles of Metal Forming Technology Lecture 7 - State of stress in three dimension
Link NOC:Principles of Metal Forming Technology Lecture 8 - Description of strain
Link NOC:Principles of Metal Forming Technology Lecture 9 - Hydrostatic and deviator components of stress and strain
Link NOC:Principles of Metal Forming Technology Lecture 10 - Elastic stress strain relationships
Link NOC:Principles of Metal Forming Technology Lecture 11 - Introduction to theory of plasticity and flow curve
Link NOC:Principles of Metal Forming Technology Lecture 12 - True stress and true strain
Link NOC:Principles of Metal Forming Technology Lecture 13 - Yield criteria for ductile materials
Link NOC:Principles of Metal Forming Technology Lecture 14 - Yield locus, Octahedral shear stress and strain
Link NOC:Principles of Metal Forming Technology Lecture 15 - Plastic stress strain relationships
Link NOC:Principles of Metal Forming Technology Lecture 16 - Measures of yielding and ductility in tensile testing
Link NOC:Principles of Metal Forming Technology Lecture 17 - Instability in tension
Link NOC:Principles of Metal Forming Technology Lecture 18 - Strain rate effects on flow properties
Link NOC:Principles of Metal Forming Technology Lecture 19 - Temperature effects on flow properties
Link NOC:Principles of Metal Forming Technology Lecture 20 - Influence of various parameters on flow properties
Link NOC:Principles of Metal Forming Technology Lecture 21 - Classification of metal working processes
Link NOC:Principles of Metal Forming Technology Lecture 22 - Mechanics of metalworking and analysis methods
Link NOC:Principles of Metal Forming Technology Lecture 23 - Determination of flow stresses in metal working
Link NOC:Principles of Metal Forming Technology Lecture 24 - Hot working and cold working
Link NOC:Principles of Metal Forming Technology Lecture 25 - Metallurgical considerations in metal forming
Link NOC:Principles of Metal Forming Technology Lecture 26 - Introduction and classification of forging processes
Link NOC:Principles of Metal Forming Technology Lecture 27 - Equipments used in forging
Link NOC:Principles of Metal Forming Technology Lecture 28 - Forging in plane strain
Link NOC:Principles of Metal Forming Technology Lecture 29 - Introduction and classification of rolling processes
Link NOC:Principles of Metal Forming Technology Lecture 30 - Analysis of rolling load calculations
Link NOC:Principles of Metal Forming Technology Lecture 31 - Defects in rolled and forged products
Link NOC:Principles of Metal Forming Technology Lecture 32 - Introduction and classification of extrusion processes
Link NOC:Principles of Metal Forming Technology Lecture 33 - Analysis of extrusion processes
Link NOC:Principles of Metal Forming Technology Lecture 34 - Extrusion of tubes and pipes, extrusion defect
Link NOC:Principles of Metal Forming Technology Lecture 35 - Introduction to rod and wire drawing
Link NOC:Principles of Metal Forming Technology Lecture 36 - Analysis of wire drawing and tube drawing processes
Link NOC:Principles of Metal Forming Technology Lecture 37 - Sheet metal operations - I
Link NOC:Principles of Metal Forming Technology Lecture 38 - Sheet metal operations - II
Link NOC:Principles of Metal Forming Technology Lecture 39 - Powder metallurgy forming - I
Link NOC:Principles of Metal Forming Technology Lecture 40 - Powder metallurgy forming - II
Link NOC:Radiative Heat Transfer Lecture 1 - Introduction
Link NOC:Radiative Heat Transfer Lecture 2 - Fundamentals of Radiation
Link NOC:Radiative Heat Transfer Lecture 3 - Basic Laws of Thermal Radiation
Link NOC:Radiative Heat Transfer Lecture 4 - Properties of Plane Surfaces
Link NOC:Radiative Heat Transfer Lecture 5 - Radiative Properties of Materials
Link NOC:Radiative Heat Transfer Lecture 6 - View Factor
Link NOC:Radiative Heat Transfer Lecture 7 - Hottel Crossed String Method
Link NOC:Radiative Heat Transfer Lecture 8 - Inside Sphere and Monte Carlo Method
Link NOC:Radiative Heat Transfer Lecture 9 - Radiative Heat Exchange Between Black Surfaces
Link NOC:Radiative Heat Transfer Lecture 10 - Radiative Heat Exchange Between Gray Diffuse Surfaces
Link NOC:Radiative Heat Transfer Lecture 11 - Network Analogy
Link NOC:Radiative Heat Transfer Lecture 12 - Solution Methods for Governing Integral Equations
Link NOC:Radiative Heat Transfer Lecture 13 - Radiative Heat Exchange between Partially Specular Gray Surfaces
Link NOC:Radiative Heat Transfer Lecture 14 - Non-Gray Surfaces
Link NOC:Radiative Heat Transfer Lecture 15 - Radiative Heat Transfer in the Presence of Conduction/Convection
Link NOC:Radiative Heat Transfer Lecture 16 - Radiative Transfer in Participating Media
Link NOC:Radiative Heat Transfer Lecture 17 - Equation of Radiative Transfer
Link NOC:Radiative Heat Transfer Lecture 18 - Solution of Radiative Transfer Equation
Link NOC:Radiative Heat Transfer Lecture 19 - Radiative Heat Transfer in Cylindrical Media
Link NOC:Radiative Heat Transfer Lecture 20 - Approximate Methods-I
Link NOC:Radiative Heat Transfer Lecture 21 - Approximate Methods-II
Link NOC:Radiative Heat Transfer Lecture 22 - The Method of Spherical Harmonics (PN Approximation) - I
Link NOC:Radiative Heat Transfer Lecture 23 - The Method of Spherical Harmonics (PN Approximation) - II
Link NOC:Radiative Heat Transfer Lecture 24 - Discrete Ordinate Method (DOM)
Link NOC:Radiative Heat Transfer Lecture 25 - Zone Method
Link NOC:Radiative Heat Transfer Lecture 26 - Exchange Areas
Link NOC:Radiative Heat Transfer Lecture 27 - Monte Carlo Method for Thermal Radiation - I
Link NOC:Radiative Heat Transfer Lecture 28 - Monte Carlo Method for Thermal Radiation - II
Link NOC:Radiative Heat Transfer Lecture 29 - Radiative Properties of Gases
Link NOC:Radiative Heat Transfer Lecture 30 - Atomic and Molecular Spectra
Link NOC:Radiative Heat Transfer Lecture 31 - Line Radiation
Link NOC:Radiative Heat Transfer Lecture 32 - Spectral Modelling
Link NOC:Radiative Heat Transfer Lecture 33 - Wide Band Models
Link NOC:Radiative Heat Transfer Lecture 34 - WSGG Model
Link NOC:Radiative Heat Transfer Lecture 35 - k-Distribution Model
Link NOC:Radiative Heat Transfer Lecture 36 - Radiative Properties of Particulate Media
Link NOC:Radiative Heat Transfer Lecture 37 - Combustion and Flame
Link NOC:Radiative Heat Transfer Lecture 38 - Solar and Atmospheric Radiation
Link NOC:Radiative Heat Transfer Lecture 39 - Concentrated Solar Collector
Link NOC:Radiative Heat Transfer Lecture 40 - Experimental Methods
Link NOC:Weldability of Metals Lecture 1 - Understanding Weldability: Introduction - I
Link NOC:Weldability of Metals Lecture 2 - Understanding Weldability: Introduction - II
Link NOC:Weldability of Metals Lecture 3 - Metal Properties and Weldability - I
Link NOC:Weldability of Metals Lecture 4 - Metal Properties and Weldability - II
Link NOC:Weldability of Metals Lecture 5 - Weldability of Work Hardenable Metals
Link NOC:Weldability of Metals Lecture 6 - Weldability of Work Hardenable and Precipitation Strengthened Metals
Link NOC:Weldability of Metals Lecture 7 - Weldability of Precipitation Strengthened Metals
Link NOC:Weldability of Metals Lecture 8 - Weldability of Metals Strengthened by Grain Refinement, dispersion Hardening and Transformation Hardening
Link NOC:Weldability of Metals Lecture 9 - Weldability of Transformation Hardening Metals
Link NOC:Weldability of Metals Lecture 10 - Weldability of Metals: Combination of Strengthening Mechanisms
Link NOC:Weldability of Metals Lecture 11 - Weldability Consideration
Link NOC:Weldability of Metals Lecture 12 - Weldability of Carbon and Alloy Steel - I
Link NOC:Weldability of Metals Lecture 13 - Weldability of Carbon and Alloy Steel - II
Link NOC:Weldability of Metals Lecture 14 - Weldability of Carbon and Alloy Steel - III
Link NOC:Weldability of Metals Lecture 15 - Weldability of Low Carbon Steel and Mild Steel
Link NOC:Weldability of Metals Lecture 16 - Weldability of Medium Carbon Steel and High Carbon Steel
Link NOC:Weldability of Metals Lecture 17 - Weldability of Carbon and Welding Processes - I
Link NOC:Weldability of Metals Lecture 18 - Weldability of Carbon and Welding Processes - II
Link NOC:Weldability of Metals Lecture 19 - Weldability of Carbon Steel and Welding Processes - III
Link NOC:Weldability of Metals Lecture 20 - Weldability of Carbon Steel and Radiation Welding and Thermal Cutting
Link NOC:Weldability of Metals Lecture 21 - Weldability of High Strength Low Alloy Steels
Link NOC:Weldability of Metals Lecture 22 - Weldability of Q&T Steels - I
Link NOC:Weldability of Metals Lecture 23 - Weldability of Q&T Steels - II
Link NOC:Weldability of Metals Lecture 24 - Weldability of Q&T Steels - III
Link NOC:Weldability of Metals Lecture 25 - Weldability of Q&T Steels - IV
Link NOC:Weldability of Metals Lecture 26 - Weldability of HTLA Steel - I
Link NOC:Weldability of Metals Lecture 27 - Weldability of HTLA Steel - II
Link NOC:Weldability of Metals Lecture 28 - Weldability of Cr-Mo Steel - I
Link NOC:Weldability of Metals Lecture 29 - Weldability of Cr-Mo Steel - II
Link NOC:Weldability of Metals Lecture 30 - Weldability of Cr-Mo Steel - III
Link NOC:Weldability of Metals Lecture 31 - Weldability of Pre-Coated Steel - I
Link NOC:Weldability of Metals Lecture 32 - Weldability of Pre-Coated Steel - II
Link NOC:Weldability of Metals Lecture 33 - Weldability of Stainless Steel - I
Link NOC:Weldability of Metals Lecture 34 - Weldability of Stainless Steel - II
Link NOC:Weldability of Metals Lecture 35 - Weldability of Martensitic Stainless Steel - I
Link NOC:Weldability of Metals Lecture 36 - Weldability of Martensitic Stainless Steel - II
Link NOC:Weldability of Metals Lecture 37 - Weldability of Ferritic Stainless Steel - I
Link NOC:Weldability of Metals Lecture 38 - Weldability of Austenitic Stainless Steel - I
Link NOC:Weldability of Metals Lecture 39 - Weldability of Austenitic Stainless Steel - II
Link NOC:Weldability of Metals Lecture 40 - Weldability of PH Stainless Steel
Link NOC:Manufacturing Guidelines for Product Design Lecture 1 - Product Design : Basics
Link NOC:Manufacturing Guidelines for Product Design Lecture 2 - Introduction of Manufacturing Processes
Link NOC:Manufacturing Guidelines for Product Design Lecture 3 - Manufacturing Processes : Advantages and Limitations - I
Link NOC:Manufacturing Guidelines for Product Design Lecture 4 - Manufacturing Processes : Advantages and Limitations - II
Link NOC:Manufacturing Guidelines for Product Design Lecture 5 - Process Capabilities : Basics
Link NOC:Manufacturing Guidelines for Product Design Lecture 6 - Engineering Materials
Link NOC:Manufacturing Guidelines for Product Design Lecture 7 - Properties of materials
Link NOC:Manufacturing Guidelines for Product Design Lecture 8 - Selection of materials - I
Link NOC:Manufacturing Guidelines for Product Design Lecture 9 - Selection of materials - II
Link NOC:Manufacturing Guidelines for Product Design Lecture 10 - Applications of Engineering Material
Link NOC:Manufacturing Guidelines for Product Design Lecture 11 - Robust design
Link NOC:Manufacturing Guidelines for Product Design Lecture 12 - Design for X
Link NOC:Manufacturing Guidelines for Product Design Lecture 13 - Product Design for Manual Assembly
Link NOC:Manufacturing Guidelines for Product Design Lecture 14 - DFMA Guidelines
Link NOC:Manufacturing Guidelines for Product Design Lecture 15 - Ergonomics in Product Design
Link NOC:Manufacturing Guidelines for Product Design Lecture 16 - Selection of processes - I
Link NOC:Manufacturing Guidelines for Product Design Lecture 17 - Selection of processes - II
Link NOC:Manufacturing Guidelines for Product Design Lecture 18 - Process Capabilities.
Link NOC:Manufacturing Guidelines for Product Design Lecture 19 - Design Guidelines for Sand Casting
Link NOC:Manufacturing Guidelines for Product Design Lecture 20 - Design Guidelines for Die Casting
Link NOC:Manufacturing Guidelines for Product Design Lecture 21 - Product Design Guidelines : Compression Molding and Extrusion
Link NOC:Manufacturing Guidelines for Product Design Lecture 22 - Design Guidelines for Extrusion and Injection Molding
Link NOC:Manufacturing Guidelines for Product Design Lecture 23 - Design Guidelines for Sheet Metal Working
Link NOC:Manufacturing Guidelines for Product Design Lecture 24 - Design Guidelines for Machining
Link NOC:Manufacturing Guidelines for Product Design Lecture 25 - Design Guidelines for Powder Metal Processing
Link NOC:Manufacturing Guidelines for Product Design Lecture 26 - Assembly Processes : Introduction
Link NOC:Manufacturing Guidelines for Product Design Lecture 27 - Adhesive Joining : Guidelines
Link NOC:Manufacturing Guidelines for Product Design Lecture 28 - Design Guidelines for Mechanical Fasteners
Link NOC:Manufacturing Guidelines for Product Design Lecture 29 - Design Guidelines for Welding
Link NOC:Manufacturing Guidelines for Product Design Lecture 30 - Design guidelines : Brazing and Soldering
Link NOC:Manufacturing Guidelines for Product Design Lecture 31 - Induction Welding : Plastics
Link NOC:Manufacturing Guidelines for Product Design Lecture 32 - Ultrasonic Welding : Plastics
Link NOC:Manufacturing Guidelines for Product Design Lecture 33 - Vibration and Spin Welding : Plastics
Link NOC:Manufacturing Guidelines for Product Design Lecture 34 - Microwave Joining
Link NOC:Manufacturing Guidelines for Product Design Lecture 35 - Hole making : Guidelines
Link NOC:Manufacturing Guidelines for Product Design Lecture 36 - Design for Environment
Link NOC:Manufacturing Guidelines for Product Design Lecture 37 - Design for Environment : Steps
Link NOC:Manufacturing Guidelines for Product Design Lecture 38 - Product Architecture
Link NOC:Manufacturing Guidelines for Product Design Lecture 39 - Rapid Prototyping
Link NOC:Manufacturing Guidelines for Product Design Lecture 40 - Product Design : Manufacturing Perspective
Link NOC:Inspection and Quality Control in Manufacturing Lecture 1 - Introduction: Fundamental concepts of quality, inspection and their role in manufacturing
Link NOC:Inspection and Quality Control in Manufacturing Lecture 2 - Need of Inspection: Types and Principles
Link NOC:Inspection and Quality Control in Manufacturing Lecture 3 - Destructive Inspection - I
Link NOC:Inspection and Quality Control in Manufacturing Lecture 4 - Destructive Inspection - II
Link NOC:Inspection and Quality Control in Manufacturing Lecture 5 - Testing of Composite Materials
Link NOC:Inspection and Quality Control in Manufacturing Lecture 6 - Nondestructive Inspection - Visual Inspection
Link NOC:Inspection and Quality Control in Manufacturing Lecture 7 - Dye Penetrant Inspection
Link NOC:Inspection and Quality Control in Manufacturing Lecture 8 - Magnetic Particle Inspection
Link NOC:Inspection and Quality Control in Manufacturing Lecture 9 - Eddy Current Inspection
Link NOC:Inspection and Quality Control in Manufacturing Lecture 10 - Ultrasonic Inspection
Link NOC:Inspection and Quality Control in Manufacturing Lecture 11 - Acoustic Emission Inspection
Link NOC:Inspection and Quality Control in Manufacturing Lecture 12 - Radiography Inspection
Link NOC:Inspection and Quality Control in Manufacturing Lecture 13 - Leak Testing
Link NOC:Inspection and Quality Control in Manufacturing Lecture 14 - Thermographic Nondestructive Testing
Link NOC:Inspection and Quality Control in Manufacturing Lecture 15 - Advanced Nondestructive Testing Techniques, NDT Standards, Safety in NDT
Link NOC:Inspection and Quality Control in Manufacturing Lecture 16 - Engineering Metrology - Linear Measurement
Link NOC:Inspection and Quality Control in Manufacturing Lecture 17 - Angular Measurement and Measurement of Surface Finish
Link NOC:Inspection and Quality Control in Manufacturing Lecture 18 - Screw Thread Metrology
Link NOC:Inspection and Quality Control in Manufacturing Lecture 19 - Gear Measurement
Link NOC:Inspection and Quality Control in Manufacturing Lecture 20 - Miscellaneous Measurements
Link NOC:Financial Mathematics Lecture 1 - Introduction to Financial Mathematics
Link NOC:Financial Mathematics Lecture 2 - Important Mathematical Functions and its Characteristics
Link NOC:Financial Mathematics Lecture 3 - Progressions and Series, Growth and Decay Curves
Link NOC:Financial Mathematics Lecture 4 - Statistical Measures
Link NOC:Financial Mathematics Lecture 5 - Problem Solving on Mathematical Functions and Statistical Measures
Link NOC:Financial Mathematics Lecture 6 - Interest and Interest Rate, Time Value of Money
Link NOC:Financial Mathematics Lecture 7 - Simple Discount, Focal Date and Equation of Value
Link NOC:Financial Mathematics Lecture 8 - Introduction to Bank Discount
Link NOC:Financial Mathematics Lecture 9 - Introduction to Compound Interest
Link NOC:Financial Mathematics Lecture 10 - Problem Solving on Simple Interest and Bank Discount
Link NOC:Financial Mathematics Lecture 11 - Introduction to Discrete Compounding and Discrete Payments
Link NOC:Financial Mathematics Lecture 12 - Equal Payment Series and Gradient Series Factors
Link NOC:Financial Mathematics Lecture 13 - Geometric Gradient Series Factors
Link NOC:Financial Mathematics Lecture 14 - Annuities Due and Annuities Deferred
Link NOC:Financial Mathematics Lecture 15 - Problem Solving on Compounding Factors
Link NOC:Financial Mathematics Lecture 16 - Compounding Frequency of Interest
Link NOC:Financial Mathematics Lecture 17 - Interest Factors for Continuous Compounding
Link NOC:Financial Mathematics Lecture 18 - Introduction to Economic Equivalence
Link NOC:Financial Mathematics Lecture 19 - Principles of Equivalence
Link NOC:Financial Mathematics Lecture 20 - Problem Solving on Compounding Frequency and Economic Equivalence
Link NOC:Financial Mathematics Lecture 21 - Methods of Comparison of Alternatives
Link NOC:Financial Mathematics Lecture 22 - Payback Period
Link NOC:Financial Mathematics Lecture 23 - Capitalized Equivalent and Capital Recovery with Return
Link NOC:Financial Mathematics Lecture 24 - Project Balance
Link NOC:Financial Mathematics Lecture 25 - Problem Solving on Alternatives Comparison and Project Balance
Link NOC:Financial Mathematics Lecture 26 - Analysis of Credit and Loans
Link NOC:Financial Mathematics Lecture 27 - Assessing Interest and Structured Payments in Loans
Link NOC:Financial Mathematics Lecture 28 - Introduction to Cost of Credit and Amortization
Link NOC:Financial Mathematics Lecture 29 - Analysis of Amortization Schedule
Link NOC:Financial Mathematics Lecture 30 - Graduated Payment Mortgage, Sinking Funds
Link NOC:Financial Mathematics Lecture 31 - Introduction to Depreciation and Depletion
Link NOC:Financial Mathematics Lecture 32 - Types of Depreciation: SL Method and Declining Balance Method
Link NOC:Financial Mathematics Lecture 33 - Tax Depreciation Methods
Link NOC:Financial Mathematics Lecture 34 - SOD and UOP Method of Depreciation, Depletion
Link NOC:Financial Mathematics Lecture 35 - Problem Solving on Depreciation and Depletion
Link NOC:Financial Mathematics Lecture 36 - Introduction to Break-Even Analysis
Link NOC:Financial Mathematics Lecture 37 - Analysis of Break-Even Time and Dual Break-Even Points
Link NOC:Financial Mathematics Lecture 38 - Economic Order Quantity
Link NOC:Financial Mathematics Lecture 39 - Introduction to Leverage
Link NOC:Financial Mathematics Lecture 40 - Financial Leverage and Total Leverage
Link NOC:Financial Mathematics Lecture 41 - Introduction to Stocks
Link NOC:Financial Mathematics Lecture 42 - Stock Valuation
Link NOC:Financial Mathematics Lecture 43 - Two Stage Dividend Growth and Preferred Stocks
Link NOC:Financial Mathematics Lecture 44 - Introduction to Bonds
Link NOC:Financial Mathematics Lecture 45 - Bond Premium and Discount, Bond Purchase
Link NOC:Financial Mathematics Lecture 46 - Introduction to Mutual funds
Link NOC:Financial Mathematics Lecture 47 - Performance Measures
Link NOC:Financial Mathematics Lecture 48 - Options
Link NOC:Financial Mathematics Lecture 49 - Option Valuation
Link NOC:Financial Mathematics Lecture 50 - Introduction to Cost of Capital and Ratio Analysis
Link NOC:Financial Mathematics Lecture 51 - Introduction to Risk Measurement
Link NOC:Financial Mathematics Lecture 52 - Decision-Making Under Risk
Link NOC:Financial Mathematics Lecture 53 - Decision Under Uncertainty
Link NOC:Financial Mathematics Lecture 54 - Risk Premium, Portfolio Return and Risk
Link NOC:Financial Mathematics Lecture 55 - Portfolio Diversification
Link NOC:Financial Mathematics Lecture 56 - Introduction to Insurance, Mortality Table
Link NOC:Financial Mathematics Lecture 57 - Pure Endowment and Life Annuities
Link NOC:Financial Mathematics Lecture 58 - Introduction to Life Insurance
Link NOC:Financial Mathematics Lecture 59 - Types of Life Insurance Policies
Link NOC:Financial Mathematics Lecture 60 - Reserve Funds, Property and Casualty Insurance
Link NOC:Product Design Using Value Engineering Lecture 1 - Introduction to Product Design and Development
Link NOC:Product Design Using Value Engineering Lecture 2 - Product Design Steps and Product Analysis
Link NOC:Product Design Using Value Engineering Lecture 3 - Profit Consideration
Link NOC:Product Design Using Value Engineering Lecture 4 - Value Engineering (VE) History, Concept and Definitions
Link NOC:Product Design Using Value Engineering Lecture 5 - Value Engineering vs Cost Cutting
Link NOC:Product Design Using Value Engineering Lecture 6 - Creative Thinking
Link NOC:Product Design Using Value Engineering Lecture 7 - Problem Identification and VEJP
Link NOC:Product Design Using Value Engineering Lecture 8 - Types of Product Functions
Link NOC:Product Design Using Value Engineering Lecture 9 - Funtional Analysis
Link NOC:Product Design Using Value Engineering Lecture 10 - Functional Analysis System Technique
Link NOC:Product Design Using Value Engineering Lecture 11 - Function-Cost Relationship - I
Link NOC:Product Design Using Value Engineering Lecture 12 - Function-Cost Relationship - II
Link NOC:Product Design Using Value Engineering Lecture 13 - Value Engineering Applications in Product Design
Link NOC:Product Design Using Value Engineering Lecture 14 - Value Engineering: Case Study - I
Link NOC:Product Design Using Value Engineering Lecture 15 - Value Engineering: Case Study - II
Link NOC:Product Design Using Value Engineering Lecture 16 - Value Engineering Tools and Techniques - I
Link NOC:Product Design Using Value Engineering Lecture 17 - Value Engineering Tools and Techniques - II
Link NOC:Product Design Using Value Engineering Lecture 18 - Value Engineering Success Stories - I
Link NOC:Product Design Using Value Engineering Lecture 19 - Value Engineering Success Stories - II
Link NOC:Product Design Using Value Engineering Lecture 20 - Behavioral Roadblocks
Link NOC:Selection of Nanomaterials for Energy Harvesting and Storage Application Lecture 1 - Introduction
Link NOC:Selection of Nanomaterials for Energy Harvesting and Storage Application Lecture 2 - Solar Energy Harvesting
Link NOC:Selection of Nanomaterials for Energy Harvesting and Storage Application Lecture 3 - Perovskite Solar Cells
Link NOC:Selection of Nanomaterials for Energy Harvesting and Storage Application Lecture 4 - Solar Thermal Energy
Link NOC:Selection of Nanomaterials for Energy Harvesting and Storage Application Lecture 5 - Heat Transfer Fluids
Link NOC:Selection of Nanomaterials for Energy Harvesting and Storage Application Lecture 6 - Hydrogen Energy: Introduction and Hydrogen Production from Fossil Fuels and Biomass
Link NOC:Selection of Nanomaterials for Energy Harvesting and Storage Application Lecture 7 - Hydrogen Production from Thermochemical Process
Link NOC:Selection of Nanomaterials for Energy Harvesting and Storage Application Lecture 8 - Hydrogen Production from Electrolysis
Link NOC:Selection of Nanomaterials for Energy Harvesting and Storage Application Lecture 9 - Photo-electrochemical Production of Hydrogen Using Solar Energy
Link NOC:Selection of Nanomaterials for Energy Harvesting and Storage Application Lecture 10 - Hydrogen Production from Biological Process
Link NOC:Selection of Nanomaterials for Energy Harvesting and Storage Application Lecture 11 - Nanogenerators: Introduction and Piezoelectric Nanogenerators
Link NOC:Selection of Nanomaterials for Energy Harvesting and Storage Application Lecture 12 - Triboelectric Nanogenerators
Link NOC:Selection of Nanomaterials for Energy Harvesting and Storage Application Lecture 13 - Pyroelectric Nanogenerators
Link NOC:Selection of Nanomaterials for Energy Harvesting and Storage Application Lecture 14 - Thermoelectric Nanogenerators and Electromagnetic generators
Link NOC:Selection of Nanomaterials for Energy Harvesting and Storage Application Lecture 15 - Other Energy Resources
Link NOC:Selection of Nanomaterials for Energy Harvesting and Storage Application Lecture 16 - Energy Storage
Link NOC:Selection of Nanomaterials for Energy Harvesting and Storage Application Lecture 17 - Electrochemical Energy Storage (Batteries)
Link NOC:Selection of Nanomaterials for Energy Harvesting and Storage Application Lecture 18 - Supercapacitors
Link NOC:Selection of Nanomaterials for Energy Harvesting and Storage Application Lecture 19 - Hydrogen Storage
Link NOC:Selection of Nanomaterials for Energy Harvesting and Storage Application Lecture 20 - Thermal Energy Storage
Link NOC:Robotics and Control: Theory and Practice Lecture 1 - Introduction
Link NOC:Robotics and Control: Theory and Practice Lecture 2 - Coordinate Frames and Homogeneous Transformations - I
Link NOC:Robotics and Control: Theory and Practice Lecture 3 - Coordinate Frames and Homogeneous Frames - II
Link NOC:Robotics and Control: Theory and Practice Lecture 4 - Differential Transformations
Link NOC:Robotics and Control: Theory and Practice Lecture 5 - Transforming Differential Changes between Coordinate Frames
Link NOC:Robotics and Control: Theory and Practice Lecture 6 - Kinematic Model for Robot Manipulator
Link NOC:Robotics and Control: Theory and Practice Lecture 7 - Direct Kinematics
Link NOC:Robotics and Control: Theory and Practice Lecture 8 - Inverse Kinematics
Link NOC:Robotics and Control: Theory and Practice Lecture 9 - Manipulator Jacobian
Link NOC:Robotics and Control: Theory and Practice Lecture 10 - Manipulator Jacobian Example
Link NOC:Robotics and Control: Theory and Practice Lecture 11 - Trajectory Planning
Link NOC:Robotics and Control: Theory and Practice Lecture 12 - Dynamics of Manipulator
Link NOC:Robotics and Control: Theory and Practice Lecture 13 - Dynamics of Manipulator (Continued...)
Link NOC:Robotics and Control: Theory and Practice Lecture 14 - Manipulator Dynamics Multiple Degree of Freedom
Link NOC:Robotics and Control: Theory and Practice Lecture 15 - Stability of Dynamical System
Link NOC:Robotics and Control: Theory and Practice Lecture 16 - Manipulator Control
Link NOC:Robotics and Control: Theory and Practice Lecture 17 - Biped Robot Basics and Flat Foot Biped Model
Link NOC:Robotics and Control: Theory and Practice Lecture 18 - Biped Robot Flat Foot and Toe Foot Model
Link NOC:Robotics and Control: Theory and Practice Lecture 19 - Artificial Neural Network
Link NOC:Robotics and Control: Theory and Practice Lecture 20 - Neural Network based control for Robot Manipulator
Link NOC:Robotics and Control: Theory and Practice Lecture 21 - Redundancy Resolution of Human Fingers in Cooperative Object Translation - I
Link NOC:Robotics and Control: Theory and Practice Lecture 22 - Redundancy Resolution of Human Fingers in Cooperative Object Translation - II
Link NOC:Robotics and Control: Theory and Practice Lecture 23 - Fundamentals of Robot Manipulability
Link NOC:Robotics and Control: Theory and Practice Lecture 24 - Manipulability Analysis of Human Fingers in Cooperative Rotational Motion
Link NOC:Robotics and Control: Theory and Practice Lecture 25 - Robotic Exoskeletons: An Introduction
Link NOC:Robotics and Control: Theory and Practice Lecture 26 - Introduction to Robotic Hand Exoskeleton
Link NOC:Robotics and Control: Theory and Practice Lecture 27 - Design and Development of a Three Finger Exoskeleton
Link NOC:Robotics and Control: Theory and Practice Lecture 28 - Force Control of an Index Finger Exoskeleton
Link NOC:Robotics and Control: Theory and Practice Lecture 29 - Neural Control of a Hand Exoskeleton
Link NOC:Robotics and Control: Theory and Practice Lecture 30 - Neural Control of a Hand Exoskeleton Based on Human Subject’s Intention
Link NOC:Robotics and Control: Theory and Practice Lecture 31 - Robot Assisted Percutaneous Interventions
Link NOC:Robotics and Control: Theory and Practice Lecture 32 - Experiments on Robot Assisted Percutaneous Interventions
Link NOC:Robotics and Control: Theory and Practice Lecture 33 - Sliding Mode Control
Link NOC:Robotics and Control: Theory and Practice Lecture 34 - Higher Order Sliding Mode Control
Link NOC:Robotics and Control: Theory and Practice Lecture 35 - Smart Needles for Percutaneous Interventions - I
Link NOC:Robotics and Control: Theory and Practice Lecture 36 - Smart Needles for Percutaneous Interventions - II
Link NOC:Robotics and Control: Theory and Practice Lecture 37 - Flexible Link Kinematics - I
Link NOC:Robotics and Control: Theory and Practice Lecture 38 - Flexible Link Kinematics - II
Link NOC:Robotics and Control: Theory and Practice Lecture 39 - Model Based Control of Robot Manipulators
Link NOC:Robotics and Control: Theory and Practice Lecture 40 - Simulation of Robot Manipulators
Link NOC:Acoustic Metamaterials Lecture 1 - Introduction
Link NOC:Acoustic Metamaterials Lecture 2 - Sound Wave Propagation in Fluid - I
Link NOC:Acoustic Metamaterials Lecture 3 - Sound Wave Propagation in Fluid - II
Link NOC:Acoustic Metamaterials Lecture 4 - Sound Wave Propagation in Fluid - III
Link NOC:Acoustic Metamaterials Lecture 5 - Sound Propagation at Medium Boundaries - I
Link NOC:Acoustic Metamaterials Lecture 6 - Sound Propagation at Medium Boundaries - II
Link NOC:Acoustic Metamaterials Lecture 7 - Standing Waves and Modes
Link NOC:Acoustic Metamaterials Lecture 8 - Sound Signal Analysis - I
Link NOC:Acoustic Metamaterials Lecture 9 - Sound Signal Analysis - II
Link NOC:Acoustic Metamaterials Lecture 10 - Principles of Noise Control
Link NOC:Acoustic Metamaterials Lecture 11 - Acoustic Materials
Link NOC:Acoustic Metamaterials Lecture 12 - Enclosures
Link NOC:Acoustic Metamaterials Lecture 13 - Barriers
Link NOC:Acoustic Metamaterials Lecture 14 - Enclosures and Barriers - Tutorial
Link NOC:Acoustic Metamaterials Lecture 15 - Sound Absorbing Materials
Link NOC:Acoustic Metamaterials Lecture 16 - Porous-Fibrous Sound Absorbers
Link NOC:Acoustic Metamaterials Lecture 17 - Panel Sound Absorbers
Link NOC:Acoustic Metamaterials Lecture 18 - Helmholtz Resonators
Link NOC:Acoustic Metamaterials Lecture 19 - Tutorial on Sound Absorbers
Link NOC:Acoustic Metamaterials Lecture 20 - Perforated Panel Absorbers
Link NOC:Acoustic Metamaterials Lecture 21 - Microperforated Panel Absorbers - 1
Link NOC:Acoustic Metamaterials Lecture 22 - Microperforated Panel Absorbers - 2
Link NOC:Acoustic Metamaterials Lecture 23 - Microperforated Panel Absorbers - 3
Link NOC:Acoustic Metamaterials Lecture 24 - Introduction to Acoustic Metamaterials - 1
Link NOC:Acoustic Metamaterials Lecture 25 - Introduction to Acoustic Metamaterials - 2
Link NOC:Acoustic Metamaterials Lecture 26 - History of Acoustic Metamaterials
Link NOC:Acoustic Metamaterials Lecture 27 - Applications of Acoustic Metamaterials
Link NOC:Acoustic Metamaterials Lecture 28 - Membrane Type Acoustic Metamaterials - 1
Link NOC:Acoustic Metamaterials Lecture 29 - Membrane Type Acoustic Metamaterials - 2
Link NOC:Acoustic Metamaterials Lecture 30 - Membrane Type Acoustic Metamaterials - 3
Link NOC:Acoustic Metamaterials Lecture 31 - Membrane Type Acoustic Metamaterials - 4
Link NOC:Acoustic Metamaterials Lecture 32 - Advantages and Applications of Membrane Type AMM
Link NOC:Acoustic Metamaterials Lecture 33 - Tutorial on Membrane Type AMM
Link NOC:Acoustic Metamaterials Lecture 34 - Introduction to Sonic Crystals
Link NOC:Acoustic Metamaterials Lecture 35 - Fundamentals of Crystals
Link NOC:Acoustic Metamaterials Lecture 36 - Principle of Working of Sonic Crystals - 1
Link NOC:Acoustic Metamaterials Lecture 37 - Principle of Working of Sonic Crystals - 2
Link NOC:Acoustic Metamaterials Lecture 38 - Tutorial on Sonic Crystals
Link NOC:Acoustic Metamaterials Lecture 39 - More on Sonic Crystals and Conclusions
Link NOC:Power Plant Engineering Lecture 1 - Energy Scenario and Basic Concepts
Link NOC:Power Plant Engineering Lecture 2 - Steam Power Plant Cycle
Link NOC:Power Plant Engineering Lecture 3 - Fossil Fuel Steam Generator - I
Link NOC:Power Plant Engineering Lecture 4 - Fossil Fuel Steam Generator - II
Link NOC:Power Plant Engineering Lecture 5 - Mountings and Accessories - I
Link NOC:Power Plant Engineering Lecture 6 - Mountings and Accessories - II
Link NOC:Power Plant Engineering Lecture 7 - Boiler Performance
Link NOC:Power Plant Engineering Lecture 8 - Coal Properties
Link NOC:Power Plant Engineering Lecture 9 - Coal Handling
Link NOC:Power Plant Engineering Lecture 10 - Problem Solving - I
Link NOC:Power Plant Engineering Lecture 11 - Burning of Fuel
Link NOC:Power Plant Engineering Lecture 12 - Ash Handling
Link NOC:Power Plant Engineering Lecture 13 - Feed Water Treatment
Link NOC:Power Plant Engineering Lecture 14 - Steam Turbines
Link NOC:Power Plant Engineering Lecture 15 - Impulse Steam Turbines
Link NOC:Power Plant Engineering Lecture 16 - Impulse-Reaction Steam Turbines
Link NOC:Power Plant Engineering Lecture 17 - Energy Losses in Steam Turbines
Link NOC:Power Plant Engineering Lecture 18 - Steam Condensers
Link NOC:Power Plant Engineering Lecture 19 - Gas Turbines
Link NOC:Power Plant Engineering Lecture 20 - Problem Solving - II
Link NOC:Power Plant Engineering Lecture 21 - Hydroelectric power plant
Link NOC:Power Plant Engineering Lecture 22 - Hydro plants and forces on plates
Link NOC:Power Plant Engineering Lecture 23 - Hydro Turbines - I
Link NOC:Power Plant Engineering Lecture 24 - Hydro Turbines - II
Link NOC:Power Plant Engineering Lecture 25 - Problem solving - III
Link NOC:Power Plant Engineering Lecture 26 - Principles of nuclear energy
Link NOC:Power Plant Engineering Lecture 27 - Nuclear power plants - I
Link NOC:Power Plant Engineering Lecture 28 - Nuclear power plants - II
Link NOC:Power Plant Engineering Lecture 29 - Combined operations
Link NOC:Power Plant Engineering Lecture 30 - Solar radiations
Link NOC:Power Plant Engineering Lecture 31 - Solar thermal power
Link NOC:Power Plant Engineering Lecture 32 - Wind energy
Link NOC:Power Plant Engineering Lecture 33 - Wave and geothermal energy
Link NOC:Power Plant Engineering Lecture 34 - Photo-voltaic conversion
Link NOC:Power Plant Engineering Lecture 35 - Problem solving - IV
Link NOC:Power Plant Engineering Lecture 36 - Direct energy conversion
Link NOC:Power Plant Engineering Lecture 37 - Instrumentation in power plant
Link NOC:Power Plant Engineering Lecture 38 - Economic of power generation
Link NOC:Power Plant Engineering Lecture 39 - Environmental aspects of power generation
Link NOC:Power Plant Engineering Lecture 40 - Problem solving - V
Link NOC:Principles of Industrial Engineering Lecture 1 - Introduction
Link NOC:Principles of Industrial Engineering Lecture 2 - Introduction: Developments, Objectives, and Functions
Link NOC:Principles of Industrial Engineering Lecture 3 - Introduction: Functions and Tools
Link NOC:Principles of Industrial Engineering Lecture 4 - Tool of IE and Organizational Structure
Link NOC:Principles of Industrial Engineering Lecture 5 - Organisational Structure
Link NOC:Principles of Industrial Engineering Lecture 6 - Organizational Structure: Roles
Link NOC:Principles of Industrial Engineering Lecture 7 - Organizational Structure: Types
Link NOC:Principles of Industrial Engineering Lecture 8 - Organizational Structure: Product Strategies
Link NOC:Principles of Industrial Engineering Lecture 9 - Organizational Structure: Process and Product Organization
Link NOC:Principles of Industrial Engineering Lecture 10 - Organizational Structure and Culture
Link NOC:Principles of Industrial Engineering Lecture 11 - Organizational Structure: Principles
Link NOC:Principles of Industrial Engineering Lecture 12 - Plant Location and Layout: Selection of Site
Link NOC:Principles of Industrial Engineering Lecture 13 - Plant Location and Layout: Factor Affecting Selection of Site
Link NOC:Principles of Industrial Engineering Lecture 14 - Plant Location and Layout: Methods for Selection of Site - I
Link NOC:Principles of Industrial Engineering Lecture 15 - Plant Location and Layout: Methods for Selection of Site - II
Link NOC:Principles of Industrial Engineering Lecture 16 - Plant Location and Layout: Methods for Selection of Site - III
Link NOC:Principles of Industrial Engineering Lecture 17 - Plant Location and Layout: Methods for Selection of Site - IV
Link NOC:Principles of Industrial Engineering Lecture 18 - Plant Layout: Purpose and Types of Layout
Link NOC:Principles of Industrial Engineering Lecture 19 - Plant Layout: Types of Layout
Link NOC:Principles of Industrial Engineering Lecture 20 - Plant Layout: Cellular and Process Layout
Link NOC:Principles of Industrial Engineering Lecture 21 - Plant Layout: Process Layout Design - I
Link NOC:Principles of Industrial Engineering Lecture 22 - Plant Layout: Process Layout Design - II
Link NOC:Principles of Industrial Engineering Lecture 23 - Plant Layout: Product Layout Design
Link NOC:Principles of Industrial Engineering Lecture 24 - Organization of Facility
Link NOC:Principles of Industrial Engineering Lecture 25 - Organization of Facility and Material Handling
Link NOC:Principles of Industrial Engineering Lecture 26 - Material Handling
Link NOC:Principles of Industrial Engineering Lecture 27 - Production Planning and Control: Scope - I
Link NOC:Principles of Industrial Engineering Lecture 28 - Production Planning and Control: Scope - II
Link NOC:Principles of Industrial Engineering Lecture 29 - Production Planning and Control: Capacity Planning
Link NOC:Principles of Industrial Engineering Lecture 30 - Production Planning and Control: Capacity Planning and Scheduling
Link NOC:Principles of Industrial Engineering Lecture 31 - Production Planning and Control: MRP, Routing, Scheduling
Link NOC:Principles of Industrial Engineering Lecture 32 - Production Planning and Control: Scheduling
Link NOC:Principles of Industrial Engineering Lecture 33 - Production Planning and Control: Priority Sequencing - I
Link NOC:Principles of Industrial Engineering Lecture 34 - Production Planning and Control: Priority Sequencing - II
Link NOC:Principles of Industrial Engineering Lecture 35 - Production Planning and Control: Relative Performance of Priority Sequencing Rules
Link NOC:Principles of Industrial Engineering Lecture 36 - Inventory: Fundamentals
Link NOC:Principles of Industrial Engineering Lecture 37 - Inventory: Models - I
Link NOC:Principles of Industrial Engineering Lecture 38 - Inventory: Models - II
Link NOC:Principles of Industrial Engineering Lecture 39 - Inventory: Wilson Model
Link NOC:Principles of Industrial Engineering Lecture 40 - Inventory: Gradual Replenishment Model
Link NOC:Principles of Industrial Engineering Lecture 41 - Project Management and Network Modelling: Introduction
Link NOC:Principles of Industrial Engineering Lecture 42 - Network Modelling: PERT
Link NOC:Principles of Industrial Engineering Lecture 43 - Network Analysis: PERT - I
Link NOC:Principles of Industrial Engineering Lecture 44 - Network Analysis: PERT - II
Link NOC:Principles of Industrial Engineering Lecture 45 - Network Analysis: Crashing Network and CPM
Link NOC:Principles of Industrial Engineering Lecture 46 - Network Analysis: Critical Path Method
Link NOC:Principles of Industrial Engineering Lecture 47 - Forecasting: Introduction
Link NOC:Principles of Industrial Engineering Lecture 48 - Forecasting: Methods - I
Link NOC:Principles of Industrial Engineering Lecture 49 - Forecasting: Methods - II
Link NOC:Principles of Industrial Engineering Lecture 50 - Forecasting: Methods - III
Link NOC:Principles of Industrial Engineering Lecture 51 - Forecasting: Methods - IV
Link NOC:Principles of Industrial Engineering Lecture 52 - Forecasting: Methods - V
Link NOC:Principles of Industrial Engineering Lecture 53 - Quality Control: Introduction
Link NOC:Principles of Industrial Engineering Lecture 54 - Quality Control: Fundamentals
Link NOC:Principles of Industrial Engineering Lecture 55 - Quality Control: SPC - I
Link NOC:Principles of Industrial Engineering Lecture 56 - Quality Control: SPC - II
Link NOC:Principles of Industrial Engineering Lecture 57 - Quality Control: Control Charts - I
Link NOC:Principles of Industrial Engineering Lecture 58 - Quality Control: Control Charts - II
Link NOC:Principles of Industrial Engineering Lecture 59 - Quality Control: Control Charts for Attributes
Link NOC:Principles of Industrial Engineering Lecture 60 - Productivity and Work Study
Link NOC:Mechatronics Lecture 1 - Introduction
Link NOC:Mechatronics Lecture 2 - Mechatronics System Examples
Link NOC:Mechatronics Lecture 3 - Electric Circuits and Components
Link NOC:Mechatronics Lecture 4 - Semiconductor Electronics
Link NOC:Mechatronics Lecture 5 - Application of Transistors
Link NOC:Mechatronics Lecture 6 - Sensors Performance Terminology
Link NOC:Mechatronics Lecture 7 - Displacement, Position and Proximity Sensors - I
Link NOC:Mechatronics Lecture 8 - Displacement, Position and Proximity Sensors - II
Link NOC:Mechatronics Lecture 9 - Force, Fluid Flow Sensors
Link NOC:Mechatronics Lecture 10 - Acceleration and Vibration Measurement Sensors
Link NOC:Mechatronics Lecture 11 - Mechanical Actuation Systems
Link NOC:Mechatronics Lecture 12 - Hydraulic and Pneumatic Actuators
Link NOC:Mechatronics Lecture 13 - Electrical Actuation Systems - I
Link NOC:Mechatronics Lecture 14 - Electrical Actuation Systems - II
Link NOC:Mechatronics Lecture 15 - Data Presentation Systems
Link NOC:Mechatronics Lecture 16 - Introduction to Signal Conditioning and Op-Amp
Link NOC:Mechatronics Lecture 17 - OP-AMP As Signal Conditioner
Link NOC:Mechatronics Lecture 18 - Analogue To Digital Converters
Link NOC:Mechatronics Lecture 19 - Digital To Analogue Converters
Link NOC:Mechatronics Lecture 20 - Artificial Intelligence
Link NOC:Mechatronics Lecture 21 - Digital Circuits - I
Link NOC:Mechatronics Lecture 22 - Digital Circuits - II
Link NOC:Mechatronics Lecture 23 - Microprocessor
Link NOC:Mechatronics Lecture 24 - Microcontroller
Link NOC:Mechatronics Lecture 25 - Microcontroller Programming Example
Link NOC:Mechatronics Lecture 26 - Mechanical System Model
Link NOC:Mechatronics Lecture 27 - Electrical System Model
Link NOC:Mechatronics Lecture 28 - Fluid System Model
Link NOC:Mechatronics Lecture 29 - Dynamic Response of Systems
Link NOC:Mechatronics Lecture 30 - Transfer Function and Frequency Response
Link NOC:Mechatronics Lecture 31 - Controllers
Link NOC:Mechatronics Lecture 32 - Digital Controllers
Link NOC:Mechatronics Lecture 33 - Program Logic Controllers
Link NOC:Mechatronics Lecture 34 - Input, output and Communication systems
Link NOC:Mechatronics Lecture 35 - Fault Finding
Link NOC:Mechatronics Lecture 36 - Project using Microcontroller - ATMEGA16
Link NOC:Mechatronics Lecture 37 - Myoelectrically Controlled Robotic Arm
Link NOC:Mechatronics Lecture 38 - ABU Robocon 2019 - Part I
Link NOC:Mechatronics Lecture 39 - ABU Robocon 2019 - Part II
Link NOC:Mechatronics Lecture 40 - Design of a Legged Robot
Link NOC:Mechanics Lecture 1 - Course outline
Link NOC:Mechanics Lecture 2 - Vectorial representation of forces and moments
Link NOC:Mechanics Lecture 3 - Couple moment and reduction of a force system to a force and a couple
Link NOC:Mechanics Lecture 4 - Examples of couple moment
Link NOC:Mechanics Lecture 5 - Examples: moment in three dimensions
Link NOC:Mechanics Lecture 6 - Free body diagram and support reactions
Link NOC:Mechanics Lecture 7 - Equilibrium of rigid bodies in two and three dimensions
Link NOC:Mechanics Lecture 8 - Examples: Equilibrium of rigid bodies in two dimensions
Link NOC:Mechanics Lecture 9 - Examples: Equilibrium of rigid bodies in three dimensions
Link NOC:Mechanics Lecture 10 - Examples: Beams and distributed loads
Link NOC:Mechanics Lecture 11 - Flexible Cable
Link NOC:Mechanics Lecture 12 - Flexible Cable, Catenary curve
Link NOC:Mechanics Lecture 13 - Examples: Parabolic and Catenary cables
Link NOC:Mechanics Lecture 14 - Flexible Cable: Concentrated load
Link NOC:Mechanics Lecture 15 - Structures: Plane Trusses
Link NOC:Mechanics Lecture 16 - Analysis of trusses: Method of joints
Link NOC:Mechanics Lecture 17 - Analysis of trusses: Method of sections
Link NOC:Mechanics Lecture 18 - Shear force and bending moment
Link NOC:Mechanics Lecture 19 - Shear force and bending moment: distributed load
Link NOC:Mechanics Lecture 20 - Principle of virtual work
Link NOC:Mechanics Lecture 21 - Principle of virtual work: examples - I
Link NOC:Mechanics Lecture 22 - Principle of virtual work: examples - II
Link NOC:Mechanics Lecture 23 - Stable and unstable equilibrium
Link NOC:Mechanics Lecture 24 - Friction
Link NOC:Mechanics Lecture 25 - Friction: examples
Link NOC:Mechanics Lecture 26 - Rope and belt friction
Link NOC:Mechanics Lecture 27 - Rope and belt friction: examples
Link NOC:Mechanics Lecture 28 - Rolling resistance
Link NOC:Mechanics Lecture 29 - Revision: static
Link NOC:Mechanics Lecture 30 - Coordinate systems: Cartesian and planar polar coordinates
Link NOC:Mechanics Lecture 31 - Coordinate systems: spherical coordinates
Link NOC:Mechanics Lecture 32 - Coordinate systems: cylindrical coordinates
Link NOC:Mechanics Lecture 33 - Cartesian and planar polar coordinates: examples
Link NOC:Mechanics Lecture 34 - Spherical and cylindrical coordinates: examples
Link NOC:Mechanics Lecture 35 - Equation of motion in different coordinate systems
Link NOC:Mechanics Lecture 36 - Equation of motion: examples
Link NOC:Mechanics Lecture 37 - Work energy method
Link NOC:Mechanics Lecture 38 - Work energy method: examples
Link NOC:Mechanics Lecture 39 - Impulse momentum relation
Link NOC:Mechanics Lecture 40 - Variable mass
Link NOC:Mechanics Lecture 41 - Direct central impact
Link NOC:Mechanics Lecture 42 - Oblique central impact
Link NOC:Mechanics Lecture 43 - Moment of inertia
Link NOC:Mechanics Lecture 44 - Moment of inertia: examples
Link NOC:Mechanics Lecture 45 - Moment of inertia of composite bodies
Link NOC:Mechanics Lecture 46 - Product of inertia and principal axes of inertia
Link NOC:Mechanics Lecture 47 - Principal axes of inertia: examples - I
Link NOC:Mechanics Lecture 48 - Principal axes of inertia: examples - II
Link NOC:Mechanics Lecture 49 - Harmonic oscillator: simple harmonic motion
Link NOC:Mechanics Lecture 50 - Simple harmonic motion: examples
Link NOC:Mechanics Lecture 51 - Damped harmonic oscillator
Link NOC:Mechanics Lecture 52 - Translation and rotation of rigid bodies
Link NOC:Mechanics Lecture 53 - Translation and rotation of rigid bodies: examples
Link NOC:Mechanics Lecture 54 - Plane motion of a rigid body
Link NOC:Mechanics Lecture 55 - Plane motion of a rigid body: work energy equation
Link NOC:Mechanics Lecture 56 - Plane motion of a rigid body: impulse-momentum equation
Link NOC:Mechanics Lecture 57 - Three-dimensional dynamics of rigid bodies: angular momentum
Link NOC:Mechanics Lecture 58 - Euler’s equations of motion
Link NOC:Mechanics Lecture 59 - Euler’s equations of motion: examples
Link NOC:Mechanics Lecture 60 - Revision: Dynamics
Link Micro and Smart Systems Lecture 1 - Glimpses of Microsystems: Scaling Effects
Link Micro and Smart Systems Lecture 2 - Smart Materials and Systems
Link Micro and Smart Systems Lecture 3 - Microsensors
Link Micro and Smart Systems Lecture 4 - Microactuators
Link Micro and Smart Systems Lecture 5 - Microsystems: some Examples
Link Micro and Smart Systems Lecture 6 - Smart systems Application and Structural Health Monitoring
Link Micro and Smart Systems Lecture 7 - Microfabrication Technologies
Link Micro and Smart Systems Lecture 8 - Thin-film Materials and their Deposition
Link Micro and Smart Systems Lecture 9 - Approaches for Pattern Transfer
Link Micro and Smart Systems Lecture 10 - Surface Micromachining of Microstructures
Link Micro and Smart Systems Lecture 11 - Bulk Micromachining of Microsystems
Link Micro and Smart Systems Lecture 12 - Extended Approaches for Working Microsystems
Link Micro and Smart Systems Lecture 13 - Non-conventional Approaches for Microsystems
Link Micro and Smart Systems Lecture 14 - Packaging of Microsystems
Link Micro and Smart Systems Lecture 15 - Deformation Strains and Stresses
Link Micro and Smart Systems Lecture 16 - Microdevice Suspensions: Lumped Modeling
Link Micro and Smart Systems Lecture 17 - Residual Stress and Stress Gradients
Link Micro and Smart Systems Lecture 18 - Torsion and Twist
Link Micro and Smart Systems Lecture 19 - Vibrations of Microsystems Devices: Part-1
Link Micro and Smart Systems Lecture 20 - Vibrations of Microsystems Devices: Part-2 Micromachined Gyroscopes: Part-1
Link Micro and Smart Systems Lecture 21 - Micromachined Gyroscopes: Part-2 Modelling of Coupled Electrostatic Microsystems: Part-1
Link Micro and Smart Systems Lecture 22 - Modelling of Coupled Electrostatic Microsystems: Part-2
Link Micro and Smart Systems Lecture 23 - Coupled Electrothermal-elastic Modelling
Link Micro and Smart Systems Lecture 24 - Modelling of Microsystems: Scaling Effects
Link Micro and Smart Systems Lecture 25 - Finite Element Method and Microsystems
Link Micro and Smart Systems Lecture 26 - Theoretical Basis for the Finite Element Method
Link Micro and Smart Systems Lecture 27 - Energy Theorems and Weak Form of the Governing Equation
Link Micro and Smart Systems Lecture 28 - Finite Element Equation Development and Shape Functions
Link Micro and Smart Systems Lecture 29 - Isoparametric FE Formulation and some Examples
Link Micro and Smart Systems Lecture 30 - Finite Element for Structures with Piezoelectric Materials
Link Micro and Smart Systems Lecture 31 - Semiconductor Device Physics
Link Micro and Smart Systems Lecture 32 - BJT and MOSFET Characteristics and Op-Amps
Link Micro and Smart Systems Lecture 33 - Op-Amp Circuits and Signal conditioning for Microsystems Devices
Link Micro and Smart Systems Lecture 34 - Control and Microsystems
Link Micro and Smart Systems Lecture 35 - Vibration Control of a Beam
Link Micro and Smart Systems Lecture 36 - Signal Conditioning Circuits and Integration of Microsystems and Microelectronics
Link Micro and Smart Systems Lecture 37 - Pressure Sensor Design Concepts, Processing, and Packaging: Part-1
Link Micro and Smart Systems Lecture 38 - Pressure Sensor Design Concepts, Processing, and Packaging: Part-2
Link Micro and Smart Systems Lecture 39 - Pressure Sensor Design Concepts, Processing, and Packaging: Part-3 Capacitive Micro-accelerometer: Part-1
Link Micro and Smart Systems Lecture 40 - Capacitive Micro-accelerometer: Part-2
Link NOC:Variational Methods in Mechanics Lecture 1 - Classification of optimization problems and the place of Calculus of Variations in it - Part I
Link NOC:Variational Methods in Mechanics Lecture 2 - Classification of optimization problems and the place of Calculus of Variations in it - Part II
Link NOC:Variational Methods in Mechanics Lecture 3 - Genesis of Calculus of Variations - Part I
Link NOC:Variational Methods in Mechanics Lecture 4 - Genesis of Calculus of Variations - Part II
Link NOC:Variational Methods in Mechanics Lecture 5 - Formulation of Calculus of Variations problems in geometry and mechanics and design - Part I
Link NOC:Variational Methods in Mechanics Lecture 6 - Formulation of Calculus of Variations problems in geometry and mechanics and design - Part II
Link NOC:Variational Methods in Mechanics Lecture 7 - Unconstrained minimization in one and many variables - Part I
Link NOC:Variational Methods in Mechanics Lecture 8 - Unconstrained minimization in one and many variables - Part II
Link NOC:Variational Methods in Mechanics Lecture 9 - Constrained minimization KKT conditions - Part I
Link NOC:Variational Methods in Mechanics Lecture 10 - Constrained minimization KKT conditions - Part II
Link NOC:Variational Methods in Mechanics Lecture 11 - Sufficient conditions for constrained minimization - Part I
Link NOC:Variational Methods in Mechanics Lecture 12 - Sufficient conditions for constrained minimization - Part II
Link NOC:Variational Methods in Mechanics Lecture 13 - Mathematical preliminaries function, functional, metrics and metric space, norm and vector spaces - Part I
Link NOC:Variational Methods in Mechanics Lecture 14 - Mathematical preliminaries function, functional, metrics and metric space, norm and vector spaces - Part II
Link NOC:Variational Methods in Mechanics Lecture 15 - Function spaces and Gateaux variation
Link NOC:Variational Methods in Mechanics Lecture 16 - First variation of a functional Freche?t differential and variational derivative
Link NOC:Variational Methods in Mechanics Lecture 17 - Fundamental lemma of calculus of variations and Euler Lagrange equations - Part I
Link NOC:Variational Methods in Mechanics Lecture 18 - Fundamental lemma of calculus of variations and Euler Lagrange equations - Part II
Link NOC:Variational Methods in Mechanics Lecture 19 - Extension of Euler-Lagrange equations to multiple derivatives
Link NOC:Variational Methods in Mechanics Lecture 20 - Extension of Euler-Lagrange equations to multiple functions in a functional
Link NOC:Variational Methods in Mechanics Lecture 21 - Global Constraints in calculus of variations - Part I
Link NOC:Variational Methods in Mechanics Lecture 22 - Global Constraints in calculus of variations - Part II
Link NOC:Variational Methods in Mechanics Lecture 23 - Local (finite subsidiary) constrains in calculus of variations - Part I
Link NOC:Variational Methods in Mechanics Lecture 24 - Local (finite subsidiary) constrains in calculus of variations - Part II
Link NOC:Variational Methods in Mechanics Lecture 25 - Size optimization of a bar for maximum stiffness for given volume - Part I
Link NOC:Variational Methods in Mechanics Lecture 26 - Size optimization of a bar for maximum stiffness for given volume - Part II
Link NOC:Variational Methods in Mechanics Lecture 27 - Size optimization of a bar for maximum stiffness for given volume - Part III
Link NOC:Variational Methods in Mechanics Lecture 28 - Calculus of variations in functionals involving two and three independent variables - Part I
Link NOC:Variational Methods in Mechanics Lecture 29 - Calculus of variations in functionals involving two and three independent variables - Part II
Link NOC:Variational Methods in Mechanics Lecture 30 - General variation of a functional, transversality conditions. Broken extremals, Wierstrass-Erdmann corner conditions - Part I
Link NOC:Variational Methods in Mechanics Lecture 31 - General variation of a functional, transversality conditions. Broken extremals, Wierstrass-Erdmann corner conditions - Part II
Link NOC:Variational Methods in Mechanics Lecture 32 - Variational (energy) methods in statics; principles of minimum potential energy and virtual work
Link NOC:Variational Methods in Mechanics Lecture 33 - General framework of optimal structural designs - Part I
Link NOC:Variational Methods in Mechanics Lecture 34 - General framework of optimal structural designs - Part II
Link NOC:Variational Methods in Mechanics Lecture 35 - Optimal structural design of bars and beams using the optimality criteria method
Link NOC:Variational Methods in Mechanics Lecture 36 - Invariants of Euler-Lagrange equations and canonical forms
Link NOC:Variational Methods in Mechanics Lecture 37 - Noether’s theorem
Link NOC:Variational Methods in Mechanics Lecture 38 - Minimum characterization of Sturm-Liouville problems
Link NOC:Variational Methods in Mechanics Lecture 39 - Rayleigh quotient for natural frequencies and mode shapes of elastic systems
Link NOC:Variational Methods in Mechanics Lecture 40 - Stability analysis and buckling using calculus of variations
Link NOC:Variational Methods in Mechanics Lecture 41 - Strongest (most stable) column
Link NOC:Variational Methods in Mechanics Lecture 42 - Dynamic compliance optimization
Link NOC:Variational Methods in Mechanics Lecture 43 - Electro-thermal-elastic structural optimization
Link NOC:Variational Methods in Mechanics Lecture 44 - Formulating the extremization problem starting from the differential equation, self-adjointness of the differential operator, and methods to deal with conservative and dissipative system
Link NOC:Compliant Mechanisms: Principles and Design Lecture 1 - Overview
Link NOC:Compliant Mechanisms: Principles and Design Lecture 2 - Spirit of compliant design
Link NOC:Compliant Mechanisms: Principles and Design Lecture 3 - A glimpse of applications
Link NOC:Compliant Mechanisms: Principles and Design Lecture 4 - Mobility and degrees of freedom in compliant mechanisms
Link NOC:Compliant Mechanisms: Principles and Design Lecture 5 - Maxwell’s rule and Grübler’s formula
Link NOC:Compliant Mechanisms: Principles and Design Lecture 6 - Using compatibility and force equilibrium matrices to identify degrees of freedom and states of self-stress in trusses
Link NOC:Compliant Mechanisms: Principles and Design Lecture 7 - Empirical formula for flexure joints
Link NOC:Compliant Mechanisms: Principles and Design Lecture 8 - Types of elastic pairs (flexures)
Link NOC:Compliant Mechanisms: Principles and Design Lecture 9 - Linear finite element analysis of compliant mechanisms with beam elements
Link NOC:Compliant Mechanisms: Principles and Design Lecture 10 - A compliant mechanism kit
Link NOC:Compliant Mechanisms: Principles and Design Lecture 11 - Linear and nonlinear finite element analyses using continuum elements
Link NOC:Compliant Mechanisms: Principles and Design Lecture 12 - Subtleties in finite element analysis: geometric nonlinearity and contact
Link NOC:Compliant Mechanisms: Principles and Design Lecture 13 - Deformation of a cantilever under a tip-load, using elliptic integrals
Link NOC:Compliant Mechanisms: Principles and Design Lecture 14 - Elliptic integrals and their use in elastica analysis
Link NOC:Compliant Mechanisms: Principles and Design Lecture 15 - Frisch-Fay’s approach to large deformation of beam
Link NOC:Compliant Mechanisms: Principles and Design Lecture 16 - Burns-Crossley’s kinematic model
Link NOC:Compliant Mechanisms: Principles and Design Lecture 17 - Howell-Midha’s elastic model
Link NOC:Compliant Mechanisms: Principles and Design Lecture 18 - Putting together the pseudo rigid-body model
Link NOC:Compliant Mechanisms: Principles and Design Lecture 19 - Modeling a partially compliant mechanism
Link NOC:Compliant Mechanisms: Principles and Design Lecture 20 - Kinematic coefficients of a four-bar linkage with and without springs
Link NOC:Compliant Mechanisms: Principles and Design Lecture 21 - Solving equations of PRB modeling and comparing with finite element analysis
Link NOC:Compliant Mechanisms: Principles and Design Lecture 22 - Loop-closure equations for PRB models of compliant mechanisms
Link NOC:Compliant Mechanisms: Principles and Design Lecture 23 - Burmester theory for compliant mechanisms
Link NOC:Compliant Mechanisms: Principles and Design Lecture 24 - PRB-based Synthesis Examples
Link NOC:Compliant Mechanisms: Principles and Design Lecture 25 - Structural optimization approach
Link NOC:Compliant Mechanisms: Principles and Design Lecture 26 - Early works on design for compliance
Link NOC:Compliant Mechanisms: Principles and Design Lecture 27 - Design for deflection of trusses
Link NOC:Compliant Mechanisms: Principles and Design Lecture 28 - Design for deflection of beams and frames
Link NOC:Compliant Mechanisms: Principles and Design Lecture 29 - Design of elastic continua for desired deflection
Link NOC:Compliant Mechanisms: Principles and Design Lecture 30 - Continuum element-based topology optimization of compliant mechanisms
Link NOC:Compliant Mechanisms: Principles and Design Lecture 31 - YinSyn; synthesis of nonlinear responses with compliant mechanisms
Link NOC:Compliant Mechanisms: Principles and Design Lecture 32 - Five different formulations for compliant mechanism design and some benchmark problems
Link NOC:Compliant Mechanisms: Principles and Design Lecture 33 - Distributed compliance
Link NOC:Compliant Mechanisms: Principles and Design Lecture 34 - How to achieve distributed compliance
Link NOC:Compliant Mechanisms: Principles and Design Lecture 35 - Shape optimization
Link NOC:Compliant Mechanisms: Principles and Design Lecture 36 - Cam-flexure clamp-case-study
Link NOC:Compliant Mechanisms: Principles and Design Lecture 37 - SL model for compliant mechanisms
Link NOC:Compliant Mechanisms: Principles and Design Lecture 38 - Feasibility maps for compliant mechanisms
Link NOC:Compliant Mechanisms: Principles and Design Lecture 39 - Selection of compliant mechanisms for given user-specifications
Link NOC:Compliant Mechanisms: Principles and Design Lecture 40 - Two case-studies using feasibility maps technique
Link NOC:Compliant Mechanisms: Principles and Design Lecture 41 - SML model for compliant mechanisms for dynamic response
Link NOC:Compliant Mechanisms: Principles and Design Lecture 42 - Re-design of compliant mechanisms; Matlab and Java codes
Link NOC:Compliant Mechanisms: Principles and Design Lecture 43 - Non-dimensional analysis of beams
Link NOC:Compliant Mechanisms: Principles and Design Lecture 44 - Deformation index and slenderness ratio of compliant mechanisms
Link NOC:Compliant Mechanisms: Principles and Design Lecture 45 - Kinetoelastostatic maps
Link NOC:Compliant Mechanisms: Principles and Design Lecture 46 - Designing with kinetoelastic maps
Link NOC:Compliant Mechanisms: Principles and Design Lecture 47 - Non-dimensinalization of stress, frequency, and other measures
Link NOC:Compliant Mechanisms: Principles and Design Lecture 48 - Designing compliant suspensions using kinetoelastic maps
Link NOC:Compliant Mechanisms: Principles and Design Lecture 49 - Instant centre method for designing compliant mechanisms
Link NOC:Compliant Mechanisms: Principles and Design Lecture 50 - Stiffness and compliance ellipsoids
Link NOC:Compliant Mechanisms: Principles and Design Lecture 51 - Building block method of designing compliant mechanisms
Link NOC:Compliant Mechanisms: Principles and Design Lecture 52 - Comparative analysis of different methods for designing compliant mechanisms
Link NOC:Compliant Mechanisms: Principles and Design Lecture 53 - Aspects of Mechanical advantage of compliant mechanisms
Link NOC:Compliant Mechanisms: Principles and Design Lecture 54 - Mechanical advantage of rigid-body and compliant mechanisms
Link NOC:Compliant Mechanisms: Principles and Design Lecture 55 - Bistability in elastic systems
Link NOC:Compliant Mechanisms: Principles and Design Lecture 56 - Analysis of bistable arches
Link NOC:Compliant Mechanisms: Principles and Design Lecture 57 - Compliant mechanisms with bistable arches
Link NOC:Compliant Mechanisms: Principles and Design Lecture 58 - Static balancing and zero-free-length springs
Link NOC:Compliant Mechanisms: Principles and Design Lecture 59 - Static balance of a compliant mechanism using a linkage
Link NOC:Compliant Mechanisms: Principles and Design Lecture 60 - Static balancing method for compliant mechanisms
Link NOC:Compliant Mechanisms: Principles and Design Lecture 61 - A catalogue of compliant mechanisms
Link NOC:Compliant Mechanisms: Principles and Design Lecture 62 - Compliant suspension mechanism in microsystems (MEMS)
Link NOC:Compliant Mechanisms: Principles and Design Lecture 63 - Micromechanical signal processors using compliant mechanisms
Link NOC:Compliant Mechanisms: Principles and Design Lecture 64 - A few special concepts of compliant mechanisms
Link NOC:Compliant Mechanisms: Principles and Design Lecture 65 - Materials and prototyping of compliant mechanisms
Link NOC:Compliant Mechanisms: Principles and Design Lecture 66 - Summary of the course
Link NOC:Compliant Mechanisms: Principles and Design Lecture 67 - Micromachined accelerometers with Displacement-amplifying Compliant Mechanisms (DaCMs)
Link NOC:Compliant Mechanisms: Principles and Design Lecture 68 - Miniature compliant mechanisms as cell-manipulation tools
Link NOC:Compliant Mechanisms: Principles and Design Lecture 69 - Micro-newton force sensor
Link NOC:Compliant Mechanisms: Principles and Design Lecture 70 - Compliant tissue cutting mechanism
Link NOC:Compliant Mechanisms: Principles and Design Lecture 71 - A compliant pipe-crawling robots
Link NOC:Compliant Mechanisms: Principles and Design Lecture 72 - A compliant easy-chair for the elderly
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 1 - Introduction to Multiphase
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 2 - Thermodynamics of Multiphase systems
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 3 - Thermodynamics of Interface - I
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 4 - Thermodynamics of Interface - II
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 5 - Interfacial phenomena key concepts - I
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 6 - Interfacial phenomena key concepts - II
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 7 - Interfacial heat and mass transfer - I - Interfacial mass, momentum and energy balance, Surface tension, WettingL07
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 8 - Interfacial heat and mass transfer - II - Interfacial dynamics, Instabilities of the interface
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 9 - Interfacial heat and mass transfer - III - Evaporation from thin films
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 10 - Governing equations and interfacial conditions
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 11 - Governing equations : Averaging techniques - I
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 12 - Governing equations : Averaging techniques - II
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 13 - Governing equations : Averaging techniques - III
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 14 - Interface shapes
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 15 - Transport processes at interface with key concepts - I
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 16 - Transport processes at interface with key concepts - II
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 17 - Interfacial transport
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 18 - Interfacial transport including dynamic behavior
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 19 - Interface behavior
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 20 - Heat transfer and evaporation in droplets
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 21 - Droplet vaporization models - I
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 22 - Droplet vaporization models - II
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 23 - Droplet vaporization dynamics - I
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 24 - Droplet vaporization dynamics - II
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 25 - Droplet liquid phase transport
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 26 - Comprehensive droplet vaporization model and correlations - I
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 27 - Comprehensive droplet vaporization model and correlations - II
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 28 - Comparison of droplet vaporization models
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 29 - Species transport in droplet
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 30 - Heat transfer and transport processes in sessile droplets
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 31 - Introduction to atomization
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 32 - Atomization principles and governing parameters
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 33 - Spray / droplet breakup models – I (TAB model)
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 34 - Spray / droplet breakup models – II (WAVE model)
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 35 - Droplet combustion - I
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 36 - Droplet combustion - II
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 37 - Regimes in spray combustion
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 38 - Boiling - I
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 39 - Boiling - II (Bubble dynamics)
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 40 - Boiling - II (Bubble dynamics and critical heat flux)
Link NOC:Convective Heat Transfer (2018) Lecture 1 - Introduction to convective heat transfer
Link NOC:Convective Heat Transfer (2018) Lecture 2 - Governing equations I - Momentum Conservation
Link NOC:Convective Heat Transfer (2018) Lecture 3 - Governing equations II - Energy Conservation
Link NOC:Convective Heat Transfer (2018) Lecture 4 - Introduction to external forced convection
Link NOC:Convective Heat Transfer (2018) Lecture 5 - Scaling Analysis - Momentum
Link NOC:Convective Heat Transfer (2018) Lecture 6 - Scaling Analysis - Energy I
Link NOC:Convective Heat Transfer (2018) Lecture 7 - Scaling Analysis - Energy II
Link NOC:Convective Heat Transfer (2018) Lecture 8 - Similarity solution - Momentum
Link NOC:Convective Heat Transfer (2018) Lecture 9 - Similarity solution - Energy
Link NOC:Convective Heat Transfer (2018) Lecture 10 - Integral solutions - Momentum
Link NOC:Convective Heat Transfer (2018) Lecture 11 - Integral solutions - Energy
Link NOC:Convective Heat Transfer (2018) Lecture 12 - Suction and Blowing
Link NOC:Convective Heat Transfer (2018) Lecture 13 - Falkner-Skan solution
Link NOC:Convective Heat Transfer (2018) Lecture 14 - Arbitrary Wall temperature
Link NOC:Convective Heat Transfer (2018) Lecture 15 - Internal forced convection - Developing flow
Link NOC:Convective Heat Transfer (2018) Lecture 16 - Hydrodynamic fully developed flow
Link NOC:Convective Heat Transfer (2018) Lecture 17 - Mean temperature in fully developed flow
Link NOC:Convective Heat Transfer (2018) Lecture 18 - Uniform heat flux
Link NOC:Convective Heat Transfer (2018) Lecture 19 - Uniform wall temperature
Link NOC:Convective Heat Transfer (2018) Lecture 20 - Tube surrounded by isothermal flow
Link NOC:Convective Heat Transfer (2018) Lecture 21 - Heat transfer to fully developed flow - I
Link NOC:Convective Heat Transfer (2018) Lecture 22 - Heat transfer to fully developed flow - II
Link NOC:Convective Heat Transfer (2018) Lecture 23 - Laminar slug flow
Link NOC:Convective Heat Transfer (2018) Lecture 24 - Power law fluids
Link NOC:Convective Heat Transfer (2018) Lecture 25 - Forced convection - Tutorial I
Link NOC:Convective Heat Transfer (2018) Lecture 26 - Forced convection - Tutorial II
Link NOC:Convective Heat Transfer (2018) Lecture 27 - Forced convection - Tutorial III
Link NOC:Convective Heat Transfer (2018) Lecture 28 - Introduction to external natural convection
Link NOC:Convective Heat Transfer (2018) Lecture 29 - Scaling analysis - I
Link NOC:Convective Heat Transfer (2018) Lecture 30 - Scaling analysis - II
Link NOC:Convective Heat Transfer (2018) Lecture 31 - Integral solution
Link NOC:Convective Heat Transfer (2018) Lecture 32 - Similarity solution
Link NOC:Convective Heat Transfer (2018) Lecture 33 - Uniform wall heat flux
Link NOC:Convective Heat Transfer (2018) Lecture 34 - Thermal stratification
Link NOC:Convective Heat Transfer (2018) Lecture 35 - Mixed convection
Link NOC:Convective Heat Transfer (2018) Lecture 36 - Internal natural convection - Scaling analysis
Link NOC:Convective Heat Transfer (2018) Lecture 37 - Heat transfer regimes
Link NOC:Convective Heat Transfer (2018) Lecture 38 - Regime III
Link NOC:Convective Heat Transfer (2018) Lecture 39 - Regime IV - Shallow enclosure limit - I
Link NOC:Convective Heat Transfer (2018) Lecture 40 - Regime IV - Shallow enclosure limit - II
Link NOC:Convective Heat Transfer (2018) Lecture 41 - Partially divided enclosures
Link NOC:Convective Heat Transfer (2018) Lecture 42 - Inclined enclosures
Link NOC:Convective Heat Transfer (2018) Lecture 43 - Natural convection - Tutorial I
Link NOC:Convective Heat Transfer (2018) Lecture 44 - Natural convection - Tutorial II
Link NOC:Convective Heat Transfer (2018) Lecture 45 - Introduction to Turbulence
Link NOC:Convective Heat Transfer (2018) Lecture 46 - Reynold’s Averaged Navier Stokes equation - I
Link NOC:Convective Heat Transfer (2018) Lecture 47 - Reynold’s Averaged Navier Stokes equation - II
Link NOC:Convective Heat Transfer (2018) Lecture 48 - Turbulent boundary layer - Viscous sub layer
Link NOC:Convective Heat Transfer (2018) Lecture 49 - Turbulent boundary layer - Fully turbulent sub layer
Link NOC:Convective Heat Transfer (2018) Lecture 50 - Heat transfer in turbulent boundary layer
Link NOC:Convective Heat Transfer (2018) Lecture 51 - Turbulent internal flow - I
Link NOC:Convective Heat Transfer (2018) Lecture 52 - Turbulent internal flow - II
Link NOC:Convective Heat Transfer (2018) Lecture 53 - Turbulent internal flow - III
Link NOC:Convective Heat Transfer (2018) Lecture 54 - K - ε model
Link NOC:Convective Heat Transfer (2018) Lecture 55 - Turbulence - Tutorial
Link NOC:Convective Heat Transfer (2018) Lecture 56 - Experimental techniques - Thermochromic liquid crystals
Link NOC:Convective Heat Transfer (2018) Lecture 57 - Experimental techniques - IR thermography
Link NOC:Convective Heat Transfer (2018) Lecture 58 - Droplet evaporation - Sessile I
Link NOC:Convective Heat Transfer (2018) Lecture 59 - Droplet evaporation - Sessile II
Link NOC:Convective Heat Transfer (2018) Lecture 60 - Droplet evaporation - Contact free
Link NOC:A Short Lecture series on Contour Integration in the Complex Plane Lecture 1 - Introduction to complex variables
Link NOC:A Short Lecture series on Contour Integration in the Complex Plane Lecture 2 - Cauchy Riemann Equations
Link NOC:A Short Lecture series on Contour Integration in the Complex Plane Lecture 3 - Analytic Functions
Link NOC:A Short Lecture series on Contour Integration in the Complex Plane Lecture 4 - Simple definitions
Link NOC:A Short Lecture series on Contour Integration in the Complex Plane Lecture 5 - Definition of sets, domains, theorem on antiderivative
Link NOC:A Short Lecture series on Contour Integration in the Complex Plane Lecture 6 - Cauchy Gorsat Theorem
Link NOC:A Short Lecture series on Contour Integration in the Complex Plane Lecture 7 - Implications of Cauchy Gorsat Theorem, Cauchy Integral Formula
Link NOC:A Short Lecture series on Contour Integration in the Complex Plane Lecture 8 - Implications of CIF, converse of CG theorem
Link NOC:A Short Lecture series on Contour Integration in the Complex Plane Lecture 9 - Examples in contour integrals, ratios of polynomials
Link NOC:A Short Lecture series on Contour Integration in the Complex Plane Lecture 10 - Contour integration of sinc function
Link NOC:A Short Lecture series on Contour Integration in the Complex Plane Lecture 11 - Method of path deformation
Link NOC:A Short Lecture series on Contour Integration in the Complex Plane Lecture 12 - Method of path deformation (Continued...)
Link NOC:A Short Lecture series on Contour Integration in the Complex Plane Lecture 13 - Infinite and finite branch cuts
Link NOC:A Short Lecture series on Contour Integration in the Complex Plane Lecture 14 - Finite Branch Cut
Link NOC:A Short Lecture series on Contour Integration in the Complex Plane Lecture 15 - Infinite branch cut example
Link NOC:A Short Lecture series on Contour Integration in the Complex Plane Lecture 16 - Contour integration: rectangular contour
Link NOC:A Short Lecture series on Contour Integration in the Complex Plane Lecture 17 - Finite square root branch cut
Link NOC:A Short Lecture series on Contour Integration in the Complex Plane Lecture 18 - Example on finite branch cut
Link NOC:A Short Lecture series on Contour Integration in the Complex Plane Lecture 19 - Pole on a branch cut
Link NOC:A Short Lecture series on Contour Integration in the Complex Plane Lecture 20 - L shaped branch cut
Link NOC:A Short Lecture series on Contour Integration in the Complex Plane Lecture 21 - L shaped branch cut continued
Link NOC:A Short Lecture series on Contour Integration in the Complex Plane Lecture 22 - Inverse Laplace Transform
Link NOC:A Short Lecture series on Contour Integration in the Complex Plane Lecture 23 - Inverse Laplace Transform (Continued...)
Link NOC:A Short Lecture series on Contour Integration in the Complex Plane Lecture 24 - Additional material or corrections to lectures
Link NOC:A Short Lecture series on Contour Integration in the Complex Plane Lecture 25 - Summary of the total course
Link NOC:Introduction to Soft Matter Lecture 1 - Introduction
Link NOC:Introduction to Soft Matter Lecture 2 - Deborah number
Link NOC:Introduction to Soft Matter Lecture 3 - Response of Elastic solid
Link NOC:Introduction to Soft Matter Lecture 4 - Response of Viscous fluid
Link NOC:Introduction to Soft Matter Lecture 5 - Viscoelastic material
Link NOC:Introduction to Soft Matter Lecture 6 - Creep and stress relaxation
Link NOC:Introduction to Soft Matter Lecture 7 - Creep and stress relaxation functions
Link NOC:Introduction to Soft Matter Lecture 8 - Linearity
Link NOC:Introduction to Soft Matter Lecture 9 - Mechanical Analogues
Link NOC:Introduction to Soft Matter Lecture 10 - Tutorial
Link NOC:Introduction to Soft Matter Lecture 11 - Atoms and bonds
Link NOC:Introduction to Soft Matter Lecture 12 - Interatomic bonds
Link NOC:Introduction to Soft Matter Lecture 13 - Polymers
Link NOC:Introduction to Soft Matter Lecture 14 - Polymers (Continued...)
Link NOC:Introduction to Soft Matter Lecture 15 - Polymers (Continued...)
Link NOC:Introduction to Soft Matter Lecture 16 - Freely jointed model
Link NOC:Introduction to Soft Matter Lecture 17 - Constitutive equations
Link NOC:Introduction to Soft Matter Lecture 18 - Constitutive equations (Continued...)
Link NOC:Introduction to Soft Matter Lecture 19 - Constitutive equations (Continued...)
Link NOC:Introduction to Soft Matter Lecture 20 - Viscoelastic effects
Link NOC:Introduction to Soft Matter Lecture 21 - Lab Session
Link NOC:Introduction to Soft Matter Lecture 22 - Polymer concentrations
Link NOC:Introduction to Soft Matter Lecture 23 - Lagrangian and Eulerian perspectives
Link NOC:Introduction to Soft Matter Lecture 24 - Maxwell model
Link NOC:Introduction to Soft Matter Lecture 25 - Maxwell model (Continued...)
Link NOC:Introduction to Soft Matter Lecture 26 - Kelvin-Meyer-Voigt model
Link NOC:Introduction to Soft Matter Lecture 27 - Three parameter model
Link NOC:Introduction to Soft Matter Lecture 28 - Three parameter model (Continued...)
Link NOC:Introduction to Soft Matter Lecture 29 - Three parameter model (Continued...)
Link NOC:Introduction to Soft Matter Lecture 30 - Jefferey’s model
Link NOC:Introduction to Soft Matter Lecture 31 - Two Maxwell model
Link NOC:Introduction to Soft Matter Lecture 32 - N-Maxwell model
Link NOC:Introduction to Soft Matter Lecture 33 - N-Maxwell model (Continued...)
Link NOC:Introduction to Soft Matter Lecture 34 - N-Kelvin Meyer Voigt model
Link NOC:Introduction to Soft Matter Lecture 35 - Constitutive modelling
Link NOC:Introduction to Soft Matter Lecture 36 - Objectivity
Link NOC:Introduction to Soft Matter Lecture 37 - Objectivity
Link NOC:Introduction to Soft Matter Lecture 38 - Sinusoidal oscillations
Link NOC:Introduction to Soft Matter Lecture 39 - Sinusoidal oscillations (Continued...)
Link NOC:Introduction to Soft Matter Lecture 40 - Sinusoidal oscillations (Continued...)
Link NOC:Introduction to Soft Matter Lecture 41 - Summary
Link NOC:Introduction to Soft Matter Lecture 42 - Tutorial
Link NOC:Introduction to Soft Matter Lecture 43 - Tutorial (Continued...)
Link NOC:Robotics: Basics and Selected Advanced Concepts Lecture 1 - Introduction, Types and Classification of Robots
Link NOC:Robotics: Basics and Selected Advanced Concepts Lecture 2 - Main Elements of a Robot
Link NOC:Robotics: Basics and Selected Advanced Concepts Lecture 3 - Modelling and Analysis of Robots
Link NOC:Robotics: Basics and Selected Advanced Concepts Lecture 4 - Mathematical Preliminaries, Homogeneous Transformations
Link NOC:Robotics: Basics and Selected Advanced Concepts Lecture 5 - Elements of robot - Joints, Elements of robots - Links
Link NOC:Robotics: Basics and Selected Advanced Concepts Lecture 6 - Examples of D-H parameters and Link transformation matrices
Link NOC:Robotics: Basics and Selected Advanced Concepts Lecture 7 - Introduction, Direct Kinematics of Serial Robots
Link NOC:Robotics: Basics and Selected Advanced Concepts Lecture 8 - Inverse Kinematics of Serial Robots
Link NOC:Robotics: Basics and Selected Advanced Concepts Lecture 9 - Inverse Kinematics of Serial Robots with n < 6, Inverse Kinematics of Serial Robots with n > 6
Link NOC:Robotics: Basics and Selected Advanced Concepts Lecture 10 - Elimination Theory and Solution of Non-linear Equations, Inverse Kinematics of a General 6R Robot
Link NOC:Robotics: Basics and Selected Advanced Concepts Lecture 11 - Introduction, Loop-closure Equations
Link NOC:Robotics: Basics and Selected Advanced Concepts Lecture 12 - Direct Kinematics of Parallel Manipulators
Link NOC:Robotics: Basics and Selected Advanced Concepts Lecture 13 - Mobility of Parallel Manipulators
Link NOC:Robotics: Basics and Selected Advanced Concepts Lecture 14 - Inverse Kinematics of Parallel Manipulators
Link NOC:Robotics: Basics and Selected Advanced Concepts Lecture 15 - Direct Kinematics of Stewart Platform Manipulators
Link NOC:Robotics: Basics and Selected Advanced Concepts Lecture 16 - Sun tracking using 3-DOF parallel manipulator
Link NOC:Robotics: Basics and Selected Advanced Concepts Lecture 17 - Stewart-Gough platform-based force-torque sensor
Link NOC:Robotics: Basics and Selected Advanced Concepts Lecture 18 - Vibration isolation using a Stewart-Gough platform
Link NOC:Robotics: Basics and Selected Advanced Concepts Lecture 19 - Introduction, Linear and Angular Velocity of Links
Link NOC:Robotics: Basics and Selected Advanced Concepts Lecture 20 - Serial Manipulator Jacobian Matrix
Link NOC:Robotics: Basics and Selected Advanced Concepts Lecture 21 - Parallel Manipulator Jacobian Matrix
Link NOC:Robotics: Basics and Selected Advanced Concepts Lecture 22 - Singularities in Serial and Parallel Manipulators
Link NOC:Robotics: Basics and Selected Advanced Concepts Lecture 23 - Statics of Serial and Parallel Manipulators
Link NOC:Robotics: Basics and Selected Advanced Concepts Lecture 24 - Hyper-redundant robots
Link NOC:Robotics: Basics and Selected Advanced Concepts Lecture 25 - Redundancy resolution in human arm
Link NOC:Robotics: Basics and Selected Advanced Concepts Lecture 26 - Flexible robots
Link NOC:Robotics: Basics and Selected Advanced Concepts Lecture 27 - Introduction, Lagrangian formulation
Link NOC:Robotics: Basics and Selected Advanced Concepts Lecture 28 - Examples of Equations of Motion
Link NOC:Robotics: Basics and Selected Advanced Concepts Lecture 29 - Inverse Dynamics and Simulation of Equations of Motion
Link NOC:Robotics: Basics and Selected Advanced Concepts Lecture 30 - Recursive Formulations of Dynamics of Manipulators
Link NOC:Robotics: Basics and Selected Advanced Concepts Lecture 31 - Motion planning
Link NOC:Robotics: Basics and Selected Advanced Concepts Lecture 32 - Control of a single link
Link NOC:Robotics: Basics and Selected Advanced Concepts Lecture 33 - Control of a multi-link serial manipulator
Link NOC:Robotics: Basics and Selected Advanced Concepts Lecture 34 - Control of a multi-link manipulator
Link NOC:Robotics: Basics and Selected Advanced Concepts Lecture 35 - Control of constrained and parallel manipulator, Cartesian control of serial manipulators
Link NOC:Robotics: Basics and Selected Advanced Concepts Lecture 36 - Force control of manipulators, Hybrid position/force control of manipulators
Link NOC:Robotics: Basics and Selected Advanced Concepts Lecture 37 - Advanced topics in non-linear control of manipulators
Link NOC:Robotics: Basics and Selected Advanced Concepts Lecture 38 - Wheeled Mobile Robots (WMR) on Flat Terrain
Link NOC:Robotics: Basics and Selected Advanced Concepts Lecture 39 - Wheeled Mobile Robots (WMR) on Uneven Terrain
Link NOC:Robotics: Basics and Selected Advanced Concepts Lecture 40 - Kinematics and Dynamics of WMR on Uneven Terrain
Link NOC:Robotics: Basics and Selected Advanced Concepts Lecture 41 - Over-Constrained Mechanism and Deployable Structures
Link NOC:Robotics: Basics and Selected Advanced Concepts Lecture 42 - Kinematic and Static Analysis
Link NOC:Sound and Structural Vibration Lecture 1 - The longitudinal wave in vibrating spring
Link NOC:Sound and Structural Vibration Lecture 2 - Harmonically excited systems
Link NOC:Sound and Structural Vibration Lecture 3 - The concept of coincidence frequency
Link NOC:Sound and Structural Vibration Lecture 4 - A classical problem in sound-structure interaction
Link NOC:Sound and Structural Vibration Lecture 5 - Classical problem (Continued...)
Link NOC:Sound and Structural Vibration Lecture 6 - Uncoupled solution to the classical problem
Link NOC:Sound and Structural Vibration Lecture 7 - Uncoupled solution (Continued...).
Link NOC:Sound and Structural Vibration Lecture 8 - Introduction to the coupled problem.
Link NOC:Sound and Structural Vibration Lecture 9 - The coupled roots
Link NOC:Sound and Structural Vibration Lecture 10 - Physical meaning of terms
Link NOC:Sound and Structural Vibration Lecture 11 - Derivation of coupled roots using asymptotic method
Link NOC:Sound and Structural Vibration Lecture 12 - Coupled roots derivation (Continued...)
Link NOC:Sound and Structural Vibration Lecture 13 - Regions of heavy and light fluid loading
Link NOC:Sound and Structural Vibration Lecture 14 - Light and heavy fluid loading (Continued...)
Link NOC:Sound and Structural Vibration Lecture 15 - The coupled vibration field
Link NOC:Sound and Structural Vibration Lecture 16 - The coupled acoustic field and stationary phase
Link NOC:Sound and Structural Vibration Lecture 17 - The 2-D structural-acoustic waveguide
Link NOC:Sound and Structural Vibration Lecture 18 - The coupled partial differential equations
Link NOC:Sound and Structural Vibration Lecture 19 - Derivation of the coupled dispersion equation
Link NOC:Sound and Structural Vibration Lecture 20 - A schematic of coupled waves
Link NOC:Sound and Structural Vibration Lecture 21 - Derivation of coupled waves using asymptotic method
Link NOC:Sound and Structural Vibration Lecture 22 - Asymptotic method (Continued...) and Maple demo
Link NOC:Sound and Structural Vibration Lecture 23 - Physics of the coupled waves
Link NOC:Sound and Structural Vibration Lecture 24 - Critical points
Link NOC:Sound and Structural Vibration Lecture 25 - Heavy fluid loading
Link NOC:Sound and Structural Vibration Lecture 26 - Summary of the rectangular waveguide
Link NOC:Sound and Structural Vibration Lecture 27 - Impedance and mobility
Link NOC:Sound and Structural Vibration Lecture 28 - Derivation of acoustic and vibration response
Link NOC:Sound and Structural Vibration Lecture 29 - Derivation of vibro-acoustic response (Continued...)
Link NOC:Sound and Structural Vibration Lecture 30 - Derivation of vibro-acoustic response (Continued...)
Link NOC:Sound and Structural Vibration Lecture 31 - Numerical example
Link NOC:Sound and Structural Vibration Lecture 32 - Coupled resonance analysis using matrices
Link NOC:Sound and Structural Vibration Lecture 33 - Coupled resonance analysis (Continued...)
Link NOC:Sound and Structural Vibration Lecture 34 - Sound radiation from a baffled panel
Link NOC:Sound and Structural Vibration Lecture 35 - Derivation of pressure response.
Link NOC:Sound and Structural Vibration Lecture 36 - Radiation efficiency
Link NOC:Sound and Structural Vibration Lecture 37 - Physics of volume velocity cancellation
Link NOC:Sound and Structural Vibration Lecture 38 - Derivations in the frequency domain: 1-D
Link NOC:Sound and Structural Vibration Lecture 39 - Physics of the vibration spectrum in 2-D
Link NOC:Sound and Structural Vibration Lecture 40 - Modal character across the frequency range
Link NOC:Sound and Structural Vibration Lecture 41 - Simultaneous radiation from several modes
Link NOC:Sound and Structural Vibration Lecture 42 - Panel radiation model using monopoles
Link NOC:Sound and Structural Vibration Lecture 43 - Physics of panel radiation using monopole model
Link NOC:Sound and Structural Vibration Lecture 44 - Physics of panel radiation using monopole model (Cointinued...)
Link NOC:Sound and Structural Vibration Lecture 45 - Radiation resistance derivation from Maidanik’s work (Continued...)
Link NOC:Sound and Structural Vibration Lecture 46 - Radiation resistance derivation from Maidanik’s work (Continued...)
Link NOC:Sound and Structural Vibration Lecture 47 - Radiation resistance derivation from Maidanik’s work (Continued...)
Link NOC:Sound and Structural Vibration Lecture 48 - Modal average radiation efficiency
Link NOC:Sound and Structural Vibration Lecture 49 - Modal average radiation efficiency (Cointinued...)
Link NOC:Sound and Structural Vibration Lecture 50 - Transmission of sound through a rigid panel with flexible mounts
Link NOC:Sound and Structural Vibration Lecture 51 - Frequency dependence of sound transmission
Link NOC:Sound and Structural Vibration Lecture 52 - Sound transmission through a flexible partition
Link NOC:Sound and Structural Vibration Lecture 53 - Transmission loss in different situations
Link NOC:Sound and Structural Vibration Lecture 54 - Cylindrical shell vibration
Link NOC:Sound and Structural Vibration Lecture 55 - Behavior of uncoupled shell waves
Link NOC:Sound and Structural Vibration Lecture 56 - Fluid waves in rigid-walled cylindrical shells
Link NOC:Sound and Structural Vibration Lecture 57 - Wave propagation characteristics in flexible cylindrical shells carrying fluid: Fullers paper
Link NOC:Sound and Structural Vibration Lecture 58 - Wave impedance of an infinite plate: fluid loading
Link NOC:Sound and Structural Vibration Lecture 59 - Fluid loading in a finite plate
Link NOC:Sound and Structural Vibration Lecture 60 - Summary of the entire course
Link NOC:Vibrations of Plates and Shells Lecture 1 - Introduction to differential geometry
Link NOC:Vibrations of Plates and Shells Lecture 2 - Properties of surfaces: First fundamental form
Link NOC:Vibrations of Plates and Shells Lecture 3 - Properties of surfaces: Second fundamental form
Link NOC:Vibrations of Plates and Shells Lecture 4 - Surfaces of revolution
Link NOC:Vibrations of Plates and Shells Lecture 5 - Gauss Codazzi relations
Link NOC:Vibrations of Plates and Shells Lecture 6 - Gauss Codazzi (Continued...)
Link NOC:Vibrations of Plates and Shells Lecture 7 - Differential element length in a thin shell
Link NOC:Vibrations of Plates and Shells Lecture 8 - Strain of a differential element
Link NOC:Vibrations of Plates and Shells Lecture 9 - Explicit strain expressions
Link NOC:Vibrations of Plates and Shells Lecture 10 - Love simplifications and inconsistencies Of the theory
Link NOC:Vibrations of Plates and Shells Lecture 11 - Euler Bernoulli Beam equation using the Hamilton's Law
Link NOC:Vibrations of Plates and Shells Lecture 12 - Euler Bernoulli Beam and Hamilton's Law (Continued...)
Link NOC:Vibrations of Plates and Shells Lecture 13 - Beta definition, force and moment resultants
Link NOC:Vibrations of Plates and Shells Lecture 14 - Hamilton's Law for a general shell
Link NOC:Vibrations of Plates and Shells Lecture 15 - The Hamilton's law (Continued...)
Link NOC:Vibrations of Plates and Shells Lecture 16 - Final Dynamical Equations and boundary conditions
Link NOC:Vibrations of Plates and Shells Lecture 17 - Physics of each term in the dynamic equations
Link NOC:Vibrations of Plates and Shells Lecture 18 - Physics of each term (Continued...)
Link NOC:Vibrations of Plates and Shells Lecture 19 - The sixth equation of motion
Link NOC:Vibrations of Plates and Shells Lecture 20 - The sixth equation of motion (Continued...)
Link NOC:Vibrations of Plates and Shells Lecture 21 - Equations of motion for a rectangular plate using Hamilton's law
Link NOC:Vibrations of Plates and Shells Lecture 22 - Equations of motion for a rectangular Plate (Continued...)
Link NOC:Vibrations of Plates and Shells Lecture 23 - Rectangular plate boundary conditions
Link NOC:Vibrations of Plates and Shells Lecture 24 - Rectangular plate equation using force balance
Link NOC:Vibrations of Plates and Shells Lecture 25 - Modeshapes and resonances of a vibrating beam
Link NOC:Vibrations of Plates and Shells Lecture 26 - Modeshapes and resonances of a vibrating Rectangular plate
Link NOC:Vibrations of Plates and Shells Lecture 27 - Modeshapes and resonances of a vibrating Circular plate
Link NOC:Vibrations of Plates and Shells Lecture 28 - Vibrating circular plate (Continued...)
Link NOC:Vibrations of Plates and Shells Lecture 29 - Modeshapes and resonances of a vibrating Circular ring
Link NOC:Vibrations of Plates and Shells Lecture 30 - Details of vibrating rings
Link NOC:Vibrations of Plates and Shells Lecture 31 - Insights into vibrations of ring
Link NOC:Vibrations of Plates and Shells Lecture 32 - Cylindrical shell equations of motion using Force balance
Link NOC:Vibrations of Plates and Shells Lecture 33 - Cylindrical shell: Transverse equation of motion
Link NOC:Vibrations of Plates and Shells Lecture 34 - Orthogonality of modeshapes
Link NOC:Vibrations of Plates and Shells Lecture 35 - Orthogonality of Modes (Continued...)
Link NOC:Vibrations of Plates and Shells Lecture 36 - The Rayleigh Quotient
Link NOC:Vibrations of Plates and Shells Lecture 37 - Rayleigh Quotient Example: Simply-supported beam
Link NOC:Vibrations of Plates and Shells Lecture 38 - The Rayleigh Ritz method
Link NOC:Vibrations of Plates and Shells Lecture 39 - The Rayleigh Ritz method applied to a Complicated system
Link NOC:Vibrations of Plates and Shells Lecture 40 - The Lagrange Multiplier method
Link NOC:Vibrations of Plates and Shells Lecture 41 - The penalty method
Link NOC:Vibrations of Plates and Shells Lecture 42 - Orthogonal polynomials of RB Bhat
Link NOC:Vibrations of Plates and Shells Lecture 43 - Rayleigh Ritz paper by RB Bhat
Link NOC:Vibrations of Plates and Shells Lecture 44 - Numerical examples of the Rayleigh Ritz method
Link NOC:Vibrations of Plates and Shells Lecture 45 - Numerical examples of Rayleigh Ritz method And animations
Link NOC:Vibrations of Plates and Shells Lecture 46 - Raylegh Ritz applied to curved structures
Link NOC:Vibrations of Plates and Shells Lecture 47 - Forced response of plates and shells
Link NOC:Vibrations of Plates and Shells Lecture 48 - Forced response (Continued...)
Link NOC:Vibrations of Plates and Shells Lecture 49 - Simply-supported plate response to various forces
Link NOC:Vibrations of Plates and Shells Lecture 50 - Simply-supported plate response to various Forces (Continued...)
Link NOC:Vibrations of Plates and Shells Lecture 51 - Simply-supported cylindrical shell response to a Point harmonic force
Link NOC:Vibrations of Plates and Shells Lecture 52 - Cylindrical shell response (Continued...)
Link NOC:Vibrations of Plates and Shells Lecture 53 - Cylindrical shell response (Continued...)
Link NOC:Vibrations of Plates and Shells Lecture 54 - Cylindrical shell response to a traveling load using Only transverse modes
Link NOC:Vibrations of Plates and Shells Lecture 55 - The Receptance method
Link NOC:Vibrations of Plates and Shells Lecture 56 - The receptance method (Continued...)
Link NOC:Vibrations of Plates and Shells Lecture 57 - Stiffening a cylindrical shell using rings
Link NOC:Vibrations of Plates and Shells Lecture 58 - Stiffening of a cylindrical shell (Continued...)
Link NOC:Vibrations of Plates and Shells Lecture 59 - Damping in structures
Link NOC:Vibrations of Plates and Shells Lecture 60 - Loss factor and Complex Young modulus
Link NOC:Dynamics and Control of Mechanical Systems Lecture 1 - Introduction to Course
Link NOC:Dynamics and Control of Mechanical Systems Lecture 2 - Position and Orientation of a Rigid Body
Link NOC:Dynamics and Control of Mechanical Systems Lecture 3 - Homogenous Transformation
Link NOC:Dynamics and Control of Mechanical Systems Lecture 4 - Linear and angular velocity of rigid body
Link NOC:Dynamics and Control of Mechanical Systems Lecture 5 - Motion of Rigid Body and Particles
Link NOC:Dynamics and Control of Mechanical Systems Lecture 6 - Introduction to multi-body systems
Link NOC:Dynamics and Control of Mechanical Systems Lecture 7 - Joints, Degrees of Freedom and Constraints
Link NOC:Dynamics and Control of Mechanical Systems Lecture 8 - Position, Velocity and Acceleration in Multi-body Systems
Link NOC:Dynamics and Control of Mechanical Systems Lecture 9 - Mass and Inertia of a Rigid Body
Link NOC:Dynamics and Control of Mechanical Systems Lecture 10 - External forces and moments
Link NOC:Dynamics and Control of Mechanical Systems Lecture 11 - Angular momentum, Spinning tops and Gyroscopes
Link NOC:Dynamics and Control of Mechanical Systems Lecture 12 - Free-body diagram and Equations of motion
Link NOC:Dynamics and Control of Mechanical Systems Lecture 13 - Newton-Euler Formulation for Serial Chains
Link NOC:Dynamics and Control of Mechanical Systems Lecture 14 - Lagrangian Formulation
Link NOC:Dynamics and Control of Mechanical Systems Lecture 15 - Examples of Equations of Motion
Link NOC:Dynamics and Control of Mechanical Systems Lecture 16 - Equations of Motion Using Computer Tools
Link NOC:Dynamics and Control of Mechanical Systems Lecture 17 - Introduction and Examples of equations of motion
Link NOC:Dynamics and Control of Mechanical Systems Lecture 18 - Inverse dynamics and Simulations of equations Of motion
Link NOC:Dynamics and Control of Mechanical Systems Lecture 19 - Simulation using Computer Tools
Link NOC:Dynamics and Control of Mechanical Systems Lecture 20 - Introduction and Goal of control
Link NOC:Dynamics and Control of Mechanical Systems Lecture 21 - State Space Formulation
Link NOC:Dynamics and Control of Mechanical Systems Lecture 22 - Solution of State Equations
Link NOC:Dynamics and Control of Mechanical Systems Lecture 23 - Stability of Dynamical Systems
Link NOC:Dynamics and Control of Mechanical Systems Lecture 24 - Controllability and Observability of Linear Systems
Link NOC:Dynamics and Control of Mechanical Systems Lecture 25 - Examples of Controllability and Observability
Link NOC:Dynamics and Control of Mechanical Systems Lecture 26 - Introduction to Classical Control
Link NOC:Dynamics and Control of Mechanical Systems Lecture 27 - Root Locus
Link NOC:Dynamics and Control of Mechanical Systems Lecture 28 - Frequency Domain Approach
Link NOC:Dynamics and Control of Mechanical Systems Lecture 29 - PID Control
Link NOC:Dynamics and Control of Mechanical Systems Lecture 30 - Root Locus based Controller Design
Link NOC:Dynamics and Control of Mechanical Systems Lecture 31 - State Space Design
Link NOC:Dynamics and Control of Mechanical Systems Lecture 32 - 3 Case Studies
Link NOC:Optical Methods for Solid and Fluid Mechanics Lecture 1 - Introduction
Link NOC:Optical Methods for Solid and Fluid Mechanics Lecture 2 - Mathematical Preliminaries - I
Link NOC:Optical Methods for Solid and Fluid Mechanics Lecture 3 - Tensors and Deformations
Link NOC:Optical Methods for Solid and Fluid Mechanics Lecture 4 - Lagrangian and Eulerian Perspectives
Link NOC:Optical Methods for Solid and Fluid Mechanics Lecture 5 - Mathematical Preliminaries - II
Link NOC:Optical Methods for Solid and Fluid Mechanics Lecture 6 - Image Processing Preliminaries
Link NOC:Optical Methods for Solid and Fluid Mechanics Lecture 7 - Image Processing Operations
Link NOC:Optical Methods for Solid and Fluid Mechanics Lecture 8 - Light Matter Interaction - I
Link NOC:Optical Methods for Solid and Fluid Mechanics Lecture 9 - Lab Demo I: Optical Microscope
Link NOC:Optical Methods for Solid and Fluid Mechanics Lecture 10 - Optical System: Lenses
Link NOC:Optical Methods for Solid and Fluid Mechanics Lecture 11 - Lab Demo II: Lenses and Camera
Link NOC:Optical Methods for Solid and Fluid Mechanics Lecture 12 - Light Matter Interaction - II (Lab Demostration)
Link NOC:Optical Methods for Solid and Fluid Mechanics Lecture 13 - Light Matter Interaction - II (Lab Demostration)
Link NOC:Optical Methods for Solid and Fluid Mechanics Lecture 14 - Tracer Particles for Flow Visualisation
Link NOC:Optical Methods for Solid and Fluid Mechanics Lecture 15 - Particle Tracking Velocimetry
Link NOC:Optical Methods for Solid and Fluid Mechanics Lecture 16 - Particle Image Velocimetry - I
Link NOC:Optical Methods for Solid and Fluid Mechanics Lecture 17 - Particle Image Velocimetry - II
Link NOC:Optical Methods for Solid and Fluid Mechanics Lecture 18 - Particle Image Velocimetry - III
Link NOC:Optical Methods for Solid and Fluid Mechanics Lecture 19 - Particle Image Velocimetry - IV
Link NOC:Optical Methods for Solid and Fluid Mechanics Lecture 20 - Particle Image Velocimetry - V
Link NOC:Optical Methods for Solid and Fluid Mechanics Lecture 21 - Particle Image Velocimetry - VI
Link NOC:Optical Methods for Solid and Fluid Mechanics Lecture 22 - Schlieren and Shadowgraphy
Link NOC:Optical Methods for Solid and Fluid Mechanics Lecture 23 - Lab Demo III: PIV and Schlieren
Link NOC:Optical Methods for Solid and Fluid Mechanics Lecture 24 - Introduction to optical methods for solids
Link NOC:Optical Methods for Solid and Fluid Mechanics Lecture 25 - Basics of Digital Image Correlation
Link NOC:Optical Methods for Solid and Fluid Mechanics Lecture 26 - Iterative implementation of DIC
Link NOC:Optical Methods for Solid and Fluid Mechanics Lecture 27 - Example implementations
Link NOC:Optical Methods for Solid and Fluid Mechanics Lecture 28 - How is a DIC experiment set up ?
Link NOC:Optical Methods for Solid and Fluid Mechanics Lecture 29 - DIY(C)!
Link NOC:Optical Methods for Solid and Fluid Mechanics Lecture 30 - Introduction to Photoelasticity
Link NOC:Optical Methods for Solid and Fluid Mechanics Lecture 31 - Why do we see fringes ?
Link NOC:Optical Methods for Solid and Fluid Mechanics Lecture 32 - How does light interact with matter ?
Link NOC:Optical Methods for Solid and Fluid Mechanics Lecture 33 - Origin of Birefringence
Link NOC:Optical Methods for Solid and Fluid Mechanics Lecture 34 - Loaded sample in a polarizer
Link NOC:Optical Methods for Solid and Fluid Mechanics Lecture 35 - Stress-induced birefringence
Link NOC:Optical Methods for Solid and Fluid Mechanics Lecture 36 - Analyses of optical paths using matrix methods
Link NOC:Optical Methods for Solid and Fluid Mechanics Lecture 37 - Putting it all together
Link NOC:Optical Methods for Solid and Fluid Mechanics Lecture 38 - What is tomography ?
Link NOC:Optical Methods for Solid and Fluid Mechanics Lecture 39 - Signal processing and Fourier methods
Link NOC:Optical Methods for Solid and Fluid Mechanics Lecture 40 - Rays and the Radon transforms
Link NOC:Optical Methods for Solid and Fluid Mechanics Lecture 41 - Geometric interpretations
Link NOC:Optical Methods for Solid and Fluid Mechanics Lecture 42 - The inverse problem: From Radon transform to 2D cross-section
Link NOC:Optical Methods for Solid and Fluid Mechanics Lecture 43 - Cone beams, parallel beams and the Feldkamp algorithm
Link NOC:Statistical Thermodynamics for Engineers Lecture 1 - Introduction to Statistical Thermodynamics
Link NOC:Statistical Thermodynamics for Engineers Lecture 2 - Basic Probability Theory and Statistics
Link NOC:Statistical Thermodynamics for Engineers Lecture 3 - Important Probability Distributions
Link NOC:Statistical Thermodynamics for Engineers Lecture 4 - Combinatorial Analysis for Statistical Thermodynamics
Link NOC:Statistical Thermodynamics for Engineers Lecture 5 - Basic Concepts
Link NOC:Statistical Thermodynamics for Engineers Lecture 6 - Macrostates and Microstates
Link NOC:Statistical Thermodynamics for Engineers Lecture 7 - Bose Einstein and Fermi Dirac Statistics
Link NOC:Statistical Thermodynamics for Engineers Lecture 8 - Entropy and the equilibrium particle distribution
Link NOC:Statistical Thermodynamics for Engineers Lecture 9 - Operator Theory - 1
Link NOC:Statistical Thermodynamics for Engineers Lecture 10 - Stirling Approximation and Lagrange Multipliers
Link NOC:Statistical Thermodynamics for Engineers Lecture 11 - Equilibrium particle distribution
Link NOC:Statistical Thermodynamics for Engineers Lecture 12 - The Dilute Limit and Concept of Molecular Partition Function
Link NOC:Statistical Thermodynamics for Engineers Lecture 13 - The Molecular Partition Function and its relationship with Classical Thermodynamics
Link NOC:Statistical Thermodynamics for Engineers Lecture 14 - Historical Survey of Quantum Mechanics
Link NOC:Statistical Thermodynamics for Engineers Lecture 15 - Operator Theory - 2
Link NOC:Statistical Thermodynamics for Engineers Lecture 16 - Operator Theory - 3
Link NOC:Statistical Thermodynamics for Engineers Lecture 17 - Bohr Model for the Spectrum of Atomic Hydrogen
Link NOC:Statistical Thermodynamics for Engineers Lecture 18 - Heuristic Introduction to the Schrodinger Equation
Link NOC:Statistical Thermodynamics for Engineers Lecture 19 - The postulates of Quantum Mechanics
Link NOC:Statistical Thermodynamics for Engineers Lecture 20 - The Steady State Schrodinger Equation: Single Particle Analysis
Link NOC:Statistical Thermodynamics for Engineers Lecture 21 - Coordinate System - 1
Link NOC:Statistical Thermodynamics for Engineers Lecture 22 - Coordinate System - 2
Link NOC:Statistical Thermodynamics for Engineers Lecture 23 - Coordinate System - 3
Link NOC:Statistical Thermodynamics for Engineers Lecture 24 - The Steady State Schrodinger Equation: Multiparticle analysis
Link NOC:Statistical Thermodynamics for Engineers Lecture 25 - The Particle in a Box
Link NOC:Statistical Thermodynamics for Engineers Lecture 26 - The Uncertainity Principle
Link NOC:Statistical Thermodynamics for Engineers Lecture 27 - The Pauli Exclusion and the Correspondence Principle
Link NOC:Statistical Thermodynamics for Engineers Lecture 28 - Problem Solving - 1
Link NOC:Statistical Thermodynamics for Engineers Lecture 29 - Problem Solving - 2
Link NOC:Statistical Thermodynamics for Engineers Lecture 30 - The Internal Motion for a two particle system
Link NOC:Statistical Thermodynamics for Engineers Lecture 31 - The rotational and vibrational energy mode for a diatomic molecule
Link NOC:Statistical Thermodynamics for Engineers Lecture 32 - Hermite polynomials as vibrational energy mode solution
Link NOC:Statistical Thermodynamics for Engineers Lecture 33 - Equivalent two body model of atomic hydrogen
Link NOC:Statistical Thermodynamics for Engineers Lecture 34 - The Electronic Energy Mode for Atomic Hydrogen
Link NOC:Statistical Thermodynamics for Engineers Lecture 35 - Problem Solving - 3
Link NOC:Statistical Thermodynamics for Engineers Lecture 36 - The four quantum numbers and multielectron systems
Link NOC:Statistical Thermodynamics for Engineers Lecture 37 - Spectroscopic term symbols for multielectron atoms
Link NOC:Statistical Thermodynamics for Engineers Lecture 38 - Electron energies for multielectron systems
Link NOC:Statistical Thermodynamics for Engineers Lecture 39 - Combined energy modes for atoms and diatomic molecules
Link NOC:Statistical Thermodynamics for Engineers Lecture 40 - Perturbation analysis of the Schrodinger Wave equation
Link NOC:Statistical Thermodynamics for Engineers Lecture 41 - Selection rules
Link NOC:Statistical Thermodynamics for Engineers Lecture 42 - The Rotational and vibrational spectroscopy
Link NOC:Statistical Thermodynamics for Engineers Lecture 43 - Ro-vibrational spectroscopy (Simplex model)
Link NOC:Statistical Thermodynamics for Engineers Lecture 44 - Rotation vibration coupling (Complex model)
Link NOC:Statistical Thermodynamics for Engineers Lecture 45 - Ro-vibrational spectroscopy (Complex model)
Link NOC:Statistical Thermodynamics for Engineers Lecture 46 - Ro-vibronic spectroscopy
Link NOC:Statistical Thermodynamics for Engineers Lecture 47 - Working with Spectroscopic Schemes, Notations and Term Symbols
Link NOC:Statistical Thermodynamics for Engineers Lecture 48 - From Particles to assembly - I
Link NOC:Statistical Thermodynamics for Engineers Lecture 49 - From Particles to assembly - II
Link NOC:Statistical Thermodynamics for Engineers Lecture 50 - Connecting Quantum Mechanics to Classical Mechanics
Link NOC:Statistical Thermodynamics for Engineers Lecture 51 - The Equipartition principle and ideal gas
Link NOC:Statistical Thermodynamics for Engineers Lecture 52 - Thermodynamic properties of ideal monoatomic and diatomic gas
Link NOC:Statistical Thermodynamics for Engineers Lecture 53 - The zero of energy (rotational and vibrational)
Link NOC:Statistical Thermodynamics for Engineers Lecture 54 - Specific heats, Internal energy through Vibrational and Ro-vibrational energy modes
Link NOC:Statistical Thermodynamics for Engineers Lecture 55 - The Ro-vibrational partition function and Introduction to intersction of Radiationand Matter
Link NOC:Statistical Thermodynamics for Engineers Lecture 56 - Absorption and Emission of Radiation
Link NOC:Statistical Thermodynamics for Engineers Lecture 57 - The Rabi frequency and Beer's Law
Link NOC:Statistical Thermodynamics for Engineers Lecture 58 - Insights into radiative spectral transitions
Link NOC:Statistical Thermodynamics for Engineers Lecture 59 - Theory of Absoprtion Spectroscopy
Link NOC:Fundamentals of Acoustics (2024) Lecture 1 - The vibrating spring-mass-damper system
Link NOC:Fundamentals of Acoustics (2024) Lecture 2 - Power calculations in a vibrating spring-mass-damper system
Link NOC:Fundamentals of Acoustics (2024) Lecture 3 - Wave propagation on a string
Link NOC:Fundamentals of Acoustics (2024) Lecture 4 - Examples of waves on strings: finite and semi-infinite cases
Link NOC:Fundamentals of Acoustics (2024) Lecture 5 - General solution to 1-D wave equation: physical insights
Link NOC:Fundamentals of Acoustics (2024) Lecture 6 - Wave solution: real notation vs complex notation
Link NOC:Fundamentals of Acoustics (2024) Lecture 7 - The vibrating string with a general mechanical impedance
Link NOC:Fundamentals of Acoustics (2024) Lecture 8 - The forced finite string with an end mass
Link NOC:Fundamentals of Acoustics (2024) Lecture 9 - The one-D wave solution: physical insights
Link NOC:Fundamentals of Acoustics (2024) Lecture 10 - Longitudinal wave propagation in a rod
Link NOC:Fundamentals of Acoustics (2024) Lecture 11 - Forced semi-infinite and finite rods
Link NOC:Fundamentals of Acoustics (2024) Lecture 12 - The derivation of the acoustic wave equation
Link NOC:Fundamentals of Acoustics (2024) Lecture 13 - The derivation of the acoustic wave equation (Continued...)
Link NOC:Fundamentals of Acoustics (2024) Lecture 14 - The derivation of the acoustic wave equation (Continued...)
Link NOC:Fundamentals of Acoustics (2024) Lecture 15 - The derivation of the acoustic wave equation (Continued...)
Link NOC:Fundamentals of Acoustics (2024) Lecture 16 - Sound propagation in piston driven semi-infinite and finite ducts
Link NOC:Fundamentals of Acoustics (2024) Lecture 17 - Acoustics inside a piston driven finite duct with a general end impedance
Link NOC:Fundamentals of Acoustics (2024) Lecture 18 - Time averaged power in a 1-D acoustic wave
Link NOC:Fundamentals of Acoustics (2024) Lecture 19 - The Free Space Green Function in acoustics
Link NOC:Fundamentals of Acoustics (2024) Lecture 20 - The Free Space Green Function (Continued...)
Link NOC:Fundamentals of Acoustics (2024) Lecture 21 - Various Green Functions and their uses
Link NOC:Fundamentals of Acoustics (2024) Lecture 22 - Derivation of the interior Kirchhoff Helmholtz Integral Equation
Link NOC:Fundamentals of Acoustics (2024) Lecture 23 - Derivation of the exterior Kirchhoff Helmholtz Integral Equation
Link NOC:Fundamentals of Acoustics (2024) Lecture 24 - Acoustic wave equation in spherical coordinates
Link NOC:Fundamentals of Acoustics (2024) Lecture 25 - Legendre polynomials, spherical harmonics, orthogonality relations
Link NOC:Fundamentals of Acoustics (2024) Lecture 26 - Spherical harmonics, Legendre polynomials and their orthogonality relations (Continued...)
Link NOC:Fundamentals of Acoustics (2024) Lecture 27 - Interior Neumann Green function
Link NOC:Fundamentals of Acoustics (2024) Lecture 28 - Exterior Neumann and Dirichlet Green functions
Link NOC:Fundamentals of Acoustics (2024) Lecture 29 - Pulsating sphere using the exterior Neumann Green function
Link NOC:Fundamentals of Acoustics (2024) Lecture 30 - Equivalence of Neumann Green function and separation of variables solution
Link NOC:Fundamentals of Acoustics (2024) Lecture 31 - Sound from a pulsating sphere using boundary matching technique
Link NOC:Fundamentals of Acoustics (2024) Lecture 32 - Sound from a pulsating sphere using boundary matching technique (Continued...)
Link NOC:Fundamentals of Acoustics (2024) Lecture 33 - Sound radiation from a spherical cap on a rigid sphere using the Neumann Green function
Link NOC:Fundamentals of Acoustics (2024) Lecture 34 - Scattering of a plane acoustic wave from a rigid sphere
Link NOC:Fundamentals of Acoustics (2024) Lecture 35 - Example to show that the surface in the KHIE is notional (not actual)
Link NOC:Fundamentals of Acoustics (2024) Lecture 36 - The Rayleigh Integral
Link NOC:Fundamentals of Acoustics (2024) Lecture 37 - Sound field of an oscillating piston in a rigid baffle
Link NOC:Fundamentals of Acoustics (2024) Lecture 38 - Sound field of an oscillating piston in a rigid baffle (Continued...)
Link NOC:Fundamentals of Acoustics (2024) Lecture 39 - Physics of the sound field of an oscillating piston in a rigid baffle
Link NOC:Fundamentals of Acoustics (2024) Lecture 40 - Physics of the sound field of an oscillating piston in a rigid baffle (Continued...)
Link NOC:Fundamentals of Acoustics (2024) Lecture 41 - Physics of the sound field of the oscillating piston (cap) on a rigid sphere
Link NOC:Fundamentals of Acoustics (2024) Lecture 42 - The Sommerfeld radiation condition
Link NOC:Fundamentals of Acoustics (2024) Lecture 43 - Sound field inside a rigid walled box due to initial conditions
Link NOC:Fundamentals of Acoustics (2024) Lecture 44 - Sound field inside a rigid walled box due to a harmonic source
Link NOC:Fundamentals of Acoustics (2024) Lecture 45 - Sound field inside a rigid walled hollow cylinder due to initial conditions
Link NOC:Fundamentals of Acoustics (2024) Lecture 46 - Modeshape visualization inside a rigid walled cylinder
Link NOC:Fundamentals of Acoustics (2024) Lecture 47 - Sound field inside a rigid walled hollow cylinder due to initial conditions (Continued...)
Link NOC:Fundamentals of Acoustics (2024) Lecture 48 - Green function inside a rigid walled cylinder
Link NOC:Fundamentals of Acoustics (2024) Lecture 49 - Measures of sound
Link NOC:Fundamentals of Acoustics (2024) Lecture 50 - Measures of sound (Continued...)
Link NOC:Fundamentals of Acoustics (2024) Lecture 51 - Average mean square value of different frequency sinusoids
Link NOC:Fundamentals of Acoustics (2024) Lecture 52 - Frequency analysis of sounds in terms of third octave bands
Link NOC:Fundamentals of Acoustics (2024) Lecture 53 - Transient solution of the wave equation using Fourier series
Link NOC:Fundamentals of Acoustics (2024) Lecture 54 - Total soln of harmonically forced wave equation with initial conditions using Fourier series
Link NOC:Fundamentals of Acoustics (2024) Lecture 55 - Total soln of forced wave eqn with initial conditns using Laplace transform and Fourierseries
Link NOC:Fundamentals of Acoustics (2024) Lecture 56 - Branched systems, Helmholtz resonator
Link NOC:Fundamentals of Acoustics (2024) Lecture 57 - The radiation impedance and acoustic power
Link NOC:Fundamentals of Acoustics (2024) Lecture 58 - Acoustic potential, combined systems, special techniques for solving acoustic wave equation
Link NOC:Fundamentals of Acoustics (2024) Lecture 59 - Why do we take the real value of the solution in acoustic wave problems
Link NOC:Fundamentals of Acoustics (2024) Lecture 60 - Course summary - Part 1
Link NOC:Fundamentals of Acoustics (2024) Lecture 61 - Course summary - Part 2