1 Fluids and Their Properties
1.1 Definition of Fluids
1.2 Fluid as a Continuum
1.3 Inertia of Fluids
1.4 Compressibility and Expansibility of Fluids
1.5 Viscosity of Fluids
1.6 Surface Tension
Problems for Chapter 1
2 Fluid Statics
2.1 Forces Exerted on Fluids
2.2 Static Pressure of Fluids and Its Properties
2.3 Basic Equation of Fluids Statics
2.4 Measurement of Pressure
2.5 Relative Equilibrium of Liquid
2.6 Forces Acting on a Plane Due to Hydrostatic Pressure
2.7 Forces Acting on a Curved Surface Due to Hydrostatic Pressure
2.8 Buoyancy and Stability of Floating Bodies
Problems for Chapter 2
3 Fluid Dynamics
3.1 Basic Concepts of Flow
3.2 Flow Descriptions
3.3 Reynolds" Transport Theorem
3.4 Equation of Continuity
3.5 Momentum Equation
3.6 Moment-of-momentum Equation
3.7 Energy Equation
3.8 Bernoulli's Equation Along a Streamline
3.9 Bernoulli's Equation for Total Flow
3.10 Other Applications of Basic Equations of Fluid Dynamics
Problems for Chapter 3
4 Similitude and Dimensional Analysis
4.1 Similitude and Model Tests
4.2 Dimensional Analysis and the Buckingham
Problems for Chapter 4
5 Viscous Flow and Hydraulic Calculations
5.1 Fundamental Flow States of Viscous Fluids
5.2 Navier-Stokes Equations of a Real Fluid
5.3 Laminar Flow of Incompressible Viscous Fluid
5.4 Turbulent Flow of Viscous Fluids
5.5 Experimental Study on Head Loss
……
6 Vortex Flow
7 Irrotational Flow
8 Introduction to Boundary Layer Theory
9 Introduction to Aerodynamics
References
Index
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