NOC:Continuum Mechanics and Transport Phenomena (USB)

Media Storage Type : 64 GB USB Stick

NPTEL Subject Matter Expert : Prof. T. Renganathan

NPTEL Co-ordinating Institute : IIT Madras

NPTEL Lecture Count : 116

NPTEL Course Size : 42 GB

NPTEL PDF Text Transcription : Available and Included

NPTEL Subtitle Transcription : Available and Included (SRT)

Lecture Titles:

Lecture 1 - Measurement and Prediction - Part 1
Lecture 2 - Measurement and Prediction - Part 2
Lecture 3 - Overview of Transport Phenomena
Lecture 4 - Scope of Course
Lecture 5 - Continuum Hypothesis
Lecture 6 - Lagrangian and Eulerian Descriptions - Part 1
Lecture 7 - Lagrangian and Eulerian Descriptions - Part 2
Lecture 8 - Substantial Derivative - Part 1
Lecture 9 - Substantial Derivative - Part 2
Lecture 10 - Substantial Derivative Example - 1
Lecture 11 - Substantial Derivative Example - 2
Lecture 12 - Visualization of Flow Patterns: Streamline, Pathline
Lecture 13 - Visualization of Flow Patterns: Streakline
Lecture 14 - Streamline, Pathline: Steady Flow Example
Lecture 15 - Streamline, Pathline, Streakline: Unsteady Flow Example
Lecture 16 - System and Control Volume
Lecture 17 - Reynolds transport theorem : Introduction
Lecture 18 - Reynolds transport theorem : Simplified form
Lecture 19 - Reynolds transport theorem : General form - Part 1
Lecture 20 - Reynolds transport theorem : General form - Part 2
Lecture 21 - Integral and differential balances
Lecture 22 - Integral total mass balance
Lecture 23 - Integral total mass balance : Simplification
Lecture 24 - Integral total mass balance : Examples
Lecture 25 - Differential total mass balance - Part 1
Lecture 26 - Differential total mass balance - Part 2
Lecture 27 - Differential total mass balance : Examples - Part 1
Lecture 28 - Differential total mass balance : Examples - Part 2
Lecture 29 - Integral linear momentum balance - Part 1
Lecture 30 - Integral linear momentum balance - Part 2
Lecture 31 - Integral linear momentum balance : Examples - Part 1
Lecture 32 - Integral linear momentum balance : Examples - Part 2
Lecture 33 - Integral linear momentum balance : Examples - Part 3
Lecture 34 - Differential linear momentum balance : Introduction
Lecture 35 - Differential linear momentum balance : Transient, convection and body force terms
Lecture 36 - Stress vector - Part 1
Lecture 37 - Stress vector - Part 2
Lecture 38 - Stress tensor - Part 1
Lecture 39 - Stress tensor - Part 2
Lecture 40 - Cauchy's formula
Lecture 41 - Components of Stress Vector : Example
Lecture 42 - Properties of stress tensor - Part 1
Lecture 43 - Properties of stress tensor - Part 2
Lecture 44 - Total stress tensor for fluids
Lecture 45 - Comparison of solids and fluids
Lecture 46 - Fluids at rest
Lecture 47 - Differential linear momentum balance : Surface force terms
Lecture 48 - Differential linear momentum balance : All terms
Lecture 49 - Convective momentum flux tensor
Lecture 50 - Differential linear momentum balance : Closure problem
Lecture 51 - Normal Strain and Shear Strain - Part 1
Lecture 52 - Normal Strain and Shear Strain - Part 2
Lecture 53 - Displacement Field and Displacement Gradient - Part 1
Lecture 54 - Displacement Field and Displacement Gradient - Part 2
Lecture 55 - Strain Displacement Gradient Relation : Example
Lecture 56 - Strain Displacement Gradient Relation : Normal and shear strain
Lecture 57 - Strain Displacement Gradient Relation : Rotation and volumetric strain
Lecture 58 - Strain Displacement Gradient Relation : Examples
Lecture 59 - Displacement Gradient Tensor
Lecture 60 - Components of Total Displacement - Part 1
Lecture 61 - Components of Total Displacement - Part 2
Lecture 62 - Strain Tensor and Rotation Tensor - Part 1
Lecture 63 - Components of Total Displacement : Example
Lecture 64 - Normal and Shear Strain Rate
Lecture 65 - Strain Rate Velocity Gradient Relation
Lecture 66 - Volumetric Strain Rate
Lecture 67 - Velocity Gradient Tenso
Lecture 68 - Strain Rate : Example 1
Lecture 69 - Strain Rate : Example 2
Lecture 70 - Stress Strain Relation : Introduction
Lecture 71 - Material Properties
Lecture 72 - Hooke’s Law - Strain-stress Relation
Lecture 73 - Relation Between Material Properties
Lecture 74 - Hooke’s Law - Stress-strain Relation
Lecture 75 - Hooke’s Law : Examples
Lecture 76 - Stress Strain Rate Relation : Introduction
Lecture 77 - Newton’s Law of Viscosity : 1D Form
Lecture 78 - Newton’s Law of Viscosity : 3D Form
Lecture 79 - Navier Stokes Equation
Lecture 80 - Fluid at Rest : Pressure Distribution
Lecture 81 - Hydrostatic Pressure Distribution in Liquid
Lecture 82 - Hydrostatic Pressure Distribution in Gas
Lecture 83 - Fluid in Rigid Body Motion : Pressure Distribution
Lecture 84 - Flow Regimes : Laminar and Turbulent flow
Lecture 85 - Euler Equation
Lecture 86 - Bernoulli Equation : Inviscid Flow
Lecture 87 - Bernoulli Equation : Example 1
Lecture 88 - Bernoulli Equation : Irrotational Flow
Lecture 89 - Bernoulli Equation : Example 2
Lecture 90 - Planar Couette Flow - Governing Equations
Lecture 91 - Planar Couette Flow - Velocity and Pressure Distribution
Lecture 92 - Planar Couette Flow - Shear Force
Lecture 93 - Planar Poiseuille Flow : Governing Equations
Lecture 94 - Planar Poiseuille Flow : Velocity and Pressure Distribution
Lecture 95 - Planar Poiseuille Flow : Shear force
Lecture 96 - Planar Poiseuille Flow : Shear Stress Distribution
Lecture 97 - Viscous Stress vs. Molecular Momentum Flux - Part 1
Lecture 98 - Viscous Stress vs. Molecular Momentum Flux - Part 2
Lecture 99 - Linear Momentum Balance : Fluid Mechanics vs. Momentum Transport - Part 1
Lecture 100 - Linear Momentum Balance : Fluid Mechanics vs. Momentum Transport - Part 2
Lecture 101 - Viscous Stress vs. Molecular Momentum Flux - Part 3
Lecture 102 - Integral Energy Balance - Part 1
Lecture 103 - Integral Energy Balance - Part 2
Lecture 104 - Simplification of Integral Energy Balance
Lecture 105 - Integral Energy Balance : Examples
Lecture 106 - Differential Energy Balance : Introduction
Lecture 107 - Differential Total Energy Balance - Part 1
Lecture 108 - Differential Total Energy Balance - Part 2
Lecture 109 - Differential Energy Balance - Part 1
Lecture 110 - Differential Energy Balance - Part 2
Lecture 111 - Differential Energy Balance - Part 3
Lecture 112 - Fourier’s Law of Heat Conduction
Lecture 113 - Simplifications of Differential Energy Balance
Lecture 114 - Heat Conduction in Slab
Lecture 115 - Heat Conduction in Furnace Wall
Lecture 116 - Non Isothermal Planar Couette Flow