MI 263: Fluid Mechanics
Lecture 1: Introduction
Autumn 2009
Dr. S. Dutta
Mechanical and Industrial Engineering
Indian Institute of Technology Roorkee
Outline
Fluid Mechanics Overview
Characteristics of Fluids
Measures of Fluid Mass and Weight
Viscosity
Co
Fluid Statics
Dr. S. Dutta
Mechanical and Industrial Engineering
Outline
Overview
Pressure at a Point
Basic Equations for the Pressure Field
Hydrostatic Condition
Standard Atmosphere
Manometry and Pressure Measurements
Example Problems
Fluid Mechanics Ove
MAE 3130: Fluid Mechanics
Lecture 5: Fluid Kinematics
Spring 2003
Outline
Introduction
Velocity Field
Acceleration Field
Control Volume and System
Representation
Reynolds Transport Theorem
Examples
Fluid Kinematics: Introduction
Fluids subject to shear
MI263: Fluid Mechanics
Mechanical and Industrial Engineering
Outline
Introduction
Newtons Second Law
Along a Streamline
Normal to a Streamline
Physical Interpretation
Static, Stagnation, Dynamic and Total Pressure
Use of the Bernoulli Equation
Examples
Be
MAE 3130: Fluid Mechanics
Lecture 3: Fluid Statics (Part B)
Outline
Hydrostatic Force on a Plane Surface
Pressure Prism
Hydrostatic Force on a Curved Surface
Buoyancy, Flotation, and Stability
Rigid Body Motion of a Fluid
Example Problems
Hydrostatic Forc
MAE 3130: Fluid Mechanics
Lecture 7: Differential Analysis/Part 1
Spring 2003
Mechanical and Aerospace Engineering
Outline
Introduction
Kinematics Review
Conservation of Mass
Stream Function
Linear Momentum
Inviscid Flow
Examples
Differential Analysis: In