Preface
绪论
Chapter One Basic Concepts of Fluid Mechanics and Fluid Properties
第1章  流体力学的基本概念与流体的特性”
  1．1 The Definition of a Fluid and Continuum Hypothesis
  流体的定义与连续介质假设
  1．2 Physical Properties of a Fluid
  流体的物理性质
  1．3 F0rces on a Fluid
  作用在流体上的力-．
  1．4 Compressibility and Expansibility of a Fluid
  流体的压缩性与膨胀性
  1．5 Viscosity of a Fluid
  流体的黏性
  1．6 Surface Tension and Capillary Phenomenon
  表面张力与毛细现象
  1．7 Vapor Pressure
  蒸汽压强
  Problems
  习题
Chapter Two Fluid Statics
第2章  流体静力学
  2．1  Static Pressure and Its Characteristics
  静压强及其特性
  2．2 Equilibrium Equation in a Static Fluid
  静止流体的平衡方程
  2．3 Pressure Distribution in a Static Fluid
  静止流体中的压强分布
  2．4 Fluid in Relative Equilibrium
  流体的相对平衡
  2．5 Forces Exerted on a Plate by Static Liquid
  静止液体对平面的作用力
，2．6  Forces Exerted on a Curved Surface by Static Liquid
  静止液体对曲面的作用力
  2．7 Buoyancy
  浮力
  Problems
  习题
Chapter Three Basic Concepts and Equations of lilllids in Motion
第3章  流体流动的基本概念与方程
  3．1 Approaches Describing the Motion of Fluids
  描述流体流动的方法
  3．2 Classification and Basic Concepts of Fluid Flow
  流体流动的分类与基本概念
  3．3 Reynolds Transport Theorem
  雷诺输运定理
  3．4 Continuity Equation
  连续性方程
  3．5 Bernoulli Equation
  伯努利方程
  3．6 Momentum Equation
  动量方程
  3．7 Moment of Momentum Equation
  动量矩方程
  3．8 Energy Equation
  能量方程
  3．9 Bernoulli’S Equation for Total Flow
  总流的伯努利方程
  Problems
  习题
Chapter Four Vortex Theory and Potential Theory
第4章  漩涡理论与势流理论
  4．1 Kinematic Analysis of Fluid Element
  流体微团的运动分析
  4．2  Rotational and Irrotational Ideal F10w
  理想流体的有旋流动和无旋流动
  4．3  Velocity Potential Function of Irrotational Flow
  无旋流动的速度势函数
  4．4  Stream Function of Planar Flow
  平面流动的流函数
  4．5 Basic Planar Potential Flows
  基本平面势流
  4．6  Combination of Basic P1anar Potential Flows
  基本平面势流的叠加
  4．7 Flow around a Cylinder
  绕圆柱体流动
  Problems
  习题
Chapter Five Similitude and Dimensional Analysis
第5章  相似原理与量纲分析
  5．1  Similitude and Model’rests
  相似原理与模型实验
  5．2 Dimensional Analysis
  量纲分析
  Problems
  习题
Chapter Six Viscous Flow in Pipes and Energy Losses
第6章  黏性流体的管内流动与能量损失
  6．1 Stress Analysis for Viscous Fluid
  黏性流体中的应力分析
  6．2 Navier—Stokes Equation for Incompressible Viscous Fluid
  不可压缩黏性流体的纳维一斯托克斯方程
  6．3 Two Flow Regimes of Viscous Fluid
  黏性流体的两种流态
  6．4 Frictional Loss of Uniform Flow and Relationship with Shear Stress
  均匀流的沿程损失与切应力的关系
  6．5 Laminar Flow in Round Pipe
  圆管中的层流流动
  6．6 Turbulent Flow in Round Pipe
  圆管中的湍流流动
  6．7  Frictional LoSS Calculation in Turbulent F10W
  湍流沿程损失的计算
  6．8 Minor Head Josses
  局部水头损失
  6．9 Pipe Systems
  管道系统
  Problems
  习题
Chapter Seven Orifice and Nozzle Flow，Weir Flow
第7章  孔口及管嘴出流、堰流
  7．1  Orifice FlOW
  孔口出流
  7．2  Nozzle F。low
  管嘴出流
  7．3 Weir F10W
  堰流
  Problems
  习题
Chapter Eight Boundary Layer Theory
第8章  边界层理论
  8．1  Introduction
  引言
  8．2 Basic Concepts of Boundary Layer
  边界层的基本概念
  8．3 Kinetic Differential Equation of Boundary Lay’er
  边界层的运动微分方程式
  8．4 Variable Thickness of Boundary Layer
  各种边界层厚度
  8．5 Momentum Equation for Boundary Layer and Frictional shear Stress
  边界层的动量方程和摩擦切应力
  8．6 Laminar Boundary Layer on Smooth Plate
  光滑平板上的层流边界层
  8．7 Turbulent Boundary Layer on Smooth Plate
  光滑平板上的湍流边界层
  8．8 Mixed Boundary Layer on Flat Plate
  平板混合边界层
  8．9 Boundary Layer Separation
  边界层分离
  Problems
  习题
References
参考文献