Engineering Fluid Mechanics
Instructor notes to accompany CE 3305 at TTU
Introduction
Problem Solving and Documentation (pp 11-13)
Computational Hydraulics (pg. 9 - 10)
Fluid Mechanics - A definition (pp. 3-6, and p. 18)
Dimensions and Units (pp. 6-8)
Fluid Properties (pp. 13-31)
Intensive and Extensive Properties (pp. 28-35)
Viscosity (pp 18-26)
Exercise Set 1
Liquid Properties (pp. 28-31)
Vapor Pressure (pp. 27)
Exercise Set 2
Fluid Pressure (pp. 45-50)
Exercise Set 3
Fluid Statics (pp. 64-90)
Pressure Force on Submerged Objects (pp 64-78)
Line of Action of Equivalent Point Force (pp. 78-84)
Bouyancy (pp. 85-88)
Stability (pp. 88-90)
Exercise Set 4
Flow Kinematics (pp. 91-177)
Flow Patterns and Visualization (pp. 137-141)
Exercise Set 5 (Forces on Submerged Objects)
Euler’s and Bernoulli’s Equation(s) (pp. 91-97 ; 213-216; 217-219)
Euler’s Equation and the Bernoulli Equation (pp. 91-96)
Bernoulli Applications
Exercise Set 6 (Flow Kinematics; Acceleration etc.)
Fluid Rotation and Vorticity (pp. 336-354)
Bernoulli Equation Applications (pp. 220-232)
Rotation of a Fluid (pp. )
Volumetric and Mass Flow Rate (pp. 168-174)
Exercise Set 7 (Bernoulli Applications)
Conservation of Mass (pp 168-211)
Volumetric and Mass Flow Rate
CV Relationships for Mass Conservation (Continunity) (pp. 179)
Example Applications of Continunity (pp. 182)
Exercise Set 8 (Conservation of Mass)
Conservation of Energy (pp. 212-243)
Conservation of Linear Momentum (pp. 280-297)
Linear Momentum (pp. 281-283)
Applications of Linear Momentum (pp. 284-297)
Exercise Set 9 (Conservation of Momentum)
Conservation of Angular Momentum
Example 1: Application of Angular Momentum to a Reaction Turbine
Dimensional Analysis (pp. 410-426)
Similitude (pp. 427-449)
Viscous Internal Flows (pp. 450-496)
Closed Conduits (pp. 496-551)
Closed Conduit Head Loss Models (pp. 517-523)
Hydraulic Machines: Pumps (pp. 784-833)
Computational Hydraulics: Pipe Networks (pp. 524-529)
Open Conduits (pp. 632-691)
Flow over Bump (p. 644)
Gradually Varied Flow
Water Surface Profile Computation
Direct Step Method
Standard Spatial-Step Method
Natural Channels
Rapidly Varying Flow
Computational Hydraulics : Water Surface Profiles (pp. 659-665)
Boundary Layers (pp. 552-631)
Drag and Lift
BLT - Flow Over a Flat Plate
BLT - Flow Around a Cylinder
Application of Drag
repository
open issue
Index
