Lecture 1 - Introduction to Fluid Mechanics and Rate Processes
Lecture 2 - The Continuum Hypothesis and Property
Lecture 3 - The Stress Tensor
Lecture 4 - Fluid Statics
Lecture 5 - Kinematics - 1
Lecture 6 - Kinematics 2 - Part A
Lecture 7 - Kinematics 2 - Part B
Lecture 8 - Reynolds Transport Theorem: Conservation of Mass
Lecture 9 - Conservation of Mass - Integral and Differential Forms - Part A
Lecture 10 - Conservation of Mass - Integral and Differential Forms - Part B
Lecture 11 - Integral Form of Momentum Theorem
Lecture 12 - Derivation of Differential Form of Momentum Equation
Lecture 13 - Continuity and Momentum Equations in Cartesian and Cylindrical Coordinate System
Lecture 14 - Boundary Conditions and Various Kind of Flows
Lecture 15 - Flow Between Two Parallel Plates
Lecture 16 - Flow in a Pipe of Circular Section
Lecture 17 - Integral Form of Total Energy Equation - I
Lecture 18 - Integral Form of Total Energy Equation - II
Lecture 19 - Integral Form of Total Energy Equation - III
Lecture 20 - Bernoulli Equation - Part A
Lecture 21 - Bernoulli Equation - Part B
Lecture 22 - Similitude and Modeling - I
Lecture 23 - Similitude and Modeling - II
Lecture 24 - Similitude and Modelling - III - Part A
Lecture 25 - Similitude and Modelling - III - Part B
Lecture 26 - Flow in a Pipe - I
Lecture 27 - Flow in a Pipe - II
Lecture 28 - Flow in a Pipe - II
Lecture 29 - Low Reynolds Number Flows: Stokes Equation
Lecture 30 - Viscous Flow: Concept of a Boundary Layer
Lecture 31 - Inviscid Flows: Velocity Potential
Lecture 32 - Potential Flow Equations
Lecture 33 - Some Simple 2D - Potential Flows
Lecture 34 - Potential Flows - Rankine Half Body and Doublet
Lecture 35 - Flow Past a Cylinder : Potential and Real Flow - Part A
Lecture 36 - Flow Past a Cylinder : Potential and Real Flow - Part B
Lecture 37 - Flow Past a Rotating Cylinder : Robins - Magnus Effect
Lecture 38 - Boundary Layer - Part A
Lecture 39 - Boundary Layer - Part B
Lecture 40 - Sports Aerodynamics - Conventional and Reverse Swing of a Cricket Ball
