Introductory Concepts – Viscosity – Surface Tension and Fluid Statics – Fluid Under Rigid Body Motion – Fluid Kinematics – Dynamics of Inviscid Flows – Integral Forms of Control Volume Conservation Equations (Reynolds Transport theorem) – Dynamics of Viscous Flows : Navier Stokes Equation – Some Exact Solutions of Navier Stokes Equation – Introduction to Turbulence – Boundary Layer Theory – Flow Past Immersed Bodies – Potential Flow Past Immersed Bodies – Flow Past Immersed Bodies of Special Shapes – and Sports Ball Aerodynamics – Pipe Flows – Principle of Similarity and Dimensional Analysis – Introduction to Fluid Machines – Compressible Flows

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Course Curriculum

Introductory Concepts Details 58:34
Introductory Concepts (Contd.) Details 54:42
Introductory Concepts (Contd. ) Details 55:20
Viscosity Details 56:7
Viscosity (Contd.) Details 57:26
Viscosity (Contd.) and Surface Tension Details 57:14
Surface Tension (Contd.) and Fluid Statics Details 57:40
Fluid Statics (Contd.) Details 57:23
Fluid Statics ( Contd.) Details 58:14
Fluid Statics (Contd.) and Fluid Under Rigid Body Motion Details 58:59
Fluid Kinematics Details 58:50
Fluid Kinematics (Contd.) Details 57:46
Fluid Kinematics (Contd.) Details 57:33
Fluid Kinematics (Contd.) Details 57:49
Fluid Kinematics ( Contd.) Details 58:29
Dynamics of Inviscid Flows Details 57:57
Dynamics of Inviscid Flows (Contd.) Details 57:51
Dynamics of Inviscid Flows (Contd.) Details 58:42
Dynamics of Inviscid Flows (Contd. ) Details 59:43
Dynamics of Inviscid Flows ( Contd.) Details 59:8
Integral Forms of Control Volume Conservation Equations (Reynolds Transport Theorem) Details 59:21
Integral Forms of Control Volume Conservation Equations Details 59:25
Integral Forms of Control Volume Conservation Equations Details 58:52
Integral Forms of Control Volume Conservation Equations Details 58:39
Integral Forms of Control Volume Conservation Equations Details 57:48
Integral Forms of Control Volume Conservation Equations Details 59:15
Integral Forms of Control Volume Conservation Equations Details 57:41
Dynamics of Viscous Flows : Navier Stokes Equation Details 58:42
Dynamics of Viscous Flows : Navier Stokes Equation (Contd.) Details 59:2
Some Exact Solutions of Navier Stokes Equation Details 58:38
Some Exact Solutions of Navier Stokes Equation (Contd.) Details 58:52
Some Exact Solutions of Navier Stokes Equation ( Contd.) Details 57:8
Introduction to Turbulence Details 59:59
Introduction to Turbulence (Contd.) Details 59:25
Introduction to Turbulence ( Contd.) Details 57:50
Introduction to Turbulence ( Contd.) Details 1:2
Boundary Layer Theory Details 59:14
Boundary Layer Theory (Contd) Details 58:27
Boundary Layer Theory (Contd.) Details 57:50
Boundary Layer Theory (Contd.) and Flow Past Immersed Bodies Details 57:32
Flow past Immersed Bodies (Contd.) Details 59:20
Potential Flow Past Immersed Bodies Details 58:52
Potential Flow (Contd.) and Flow Past Immersed Bodies of Special Shapes Details 58:3
Flow Past Immersed Bodies (Contd.) and Sports Ball Aerodynamics Details 59:37
Pipe Flow Details 58:1
Pipe Flow (Contd.) Details 59:10
Pipe Flow (Contd.) Details 59:48
Principles of Similarity and Dimensional Analysis Details 1:15
Introduction to Fluid Machines Details 1:7
Introduction to Fluid Machines (Contd.) Details 58:54

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