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Mechanical Engineering
Fluid Mechanics (Web)
Syllabus
Co-ordinated by :
IIT Kanpur
Available from :
2009-12-31
Lec :
1
Modules / Lectures
Introduction and Fundamental Concepts
Definition of Stress
Ideal Fluid
Exercise Problem - Introduction and Fundamental Concepts
Fluid Statics
Forces on Fluid Elements
Units and scales of Pressure Measurement
Hydrostatic Thrusts on Submerged Plane Surface
Exercise Problem - Fluid Statics
Kinematics of Fluid
KINEMATICS OF FLUID
Variation of Flow Parameters in Time and Space
One, Two and Three Dimensional Flows
Exercise Problem - Kinematics of Fluid
Conservation Equations and Analysis of Finite Control Volume
System
Stream Function
Analysis Of Finite Control Volumes - the application of momentum theorem
Application of Moment of Momentum Theorem
Conservation of Energy
Exercise Problem - Conservation Equations and Analysis of Finite Control Volume
Equations of Motion and Mechanical Energy
Bernoulli's Equation In Irrotational Flow
Measurement Of Flow Rate Through Pipe
Concept of Static Pressure
Exercise Problem - Equations of Motion and Mechanical Energy
Principles of Physical Similarity and Dimensional Analysis
Principles of Physical Similarity - An Introduction
Magnitudes of Different Forces
The Application of Dynamic Similarity - The Dimensional Analysis
Exercise Problem - Principles of Physical Similarity and Dimensional Analysis
Flow of Ideal Fluids
Analysis of Inviscid, Incompressible, Irrotation Flows
Concept of Circulation in a Free Vortex Flow
Flow About a Cylinder without Circulation
Flow Past a Source
Exercise Problem - Flow of Ideal Fluids
Viscous Incompressible Flows
General Viscosity Law
A general way of deriving the Navier-Stokes equations from the basic laws of physics
Couette Flow
Low Reynolds Number Flow Around a Sphere
Exercise Problem - Viscous Incompressible Flows
Laminar Boundary Layers
Introduction - Laminar Boundary Layers
Wall Shear Stress
Karman-Pohlhausen Approximate Method For Solution Of Momentum Integral Equation Over A Flat Plate
Entry Flow In A Duct
Exercise Problem - Laminar Boundary Layers
Turbulent Flow
Introduction - Turbulent Flow
Intermittency
Universal Velocity Distribution Law And Friction Factor In Duct Flows For Very Large Reynolds Numbers
Exercise Problem - Turbulent Flow
Applications of Viscous Flows Through Pipes
Introduction - Applications of Viscous Flows Through Pipes
Flow Through Branched Pipes
Flow Through Pipes With Side Tappings
Exercise Problem - Applications of Viscous Flows Through Pipes
Compressible Flow
Introduction - Compressible Flow
Speed of Sound
Stagnation and Sonic Properties
Normal Shocks
Supplementary Questions - Compressible Flow
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