前辅文
 Chapter 7　Fundamentals of Multidimensional Flow of Ideal Fluid
  7.1　Differential continuity equations
  7.2　Kinematical analysis of micro fluid group
  7.3　Kinematical differential equations of ideal fluid
  7.4　Initial conditions　　Boundary conditions
  7.5　Integration of kinematical differential equations of ideal fluid
  7.6　Vortex line　　Vortex tube　　Vortex bundle　　Vortex flux
  7.7　Velocity circulation　　Stokes theorem
  7.8　Thompson theorem　　Helmholtz theorem
  7.9　Twodimensional vortex flow
  7.10　Velocity potential　　Stream function　　Flow nets
  7.11　Simple plane potential flow
  7.12　Superposition of simple plane potential flow
  7.13　Plane flow of uniform equal velocity flow around a circular cylinder
  7.14　Plane flow of uniform equal velocity flow around acircular cylinder with circulation
  7.15　KuttaJoukowsky formula of cascade
  7.16　Kutta condition
  Problems
 Chapter 8　Fundamentals of Multidimensional Flow of Viscous Fluid
  8.1　Kinematical differential equations of viscous fluid (NavierStokesequations)
  8.2　Laminar flow of incompressible viscous fluid
  8.3　Concepts and characteristics of boundary layer
  8.4　Differential equations of laminar boundary layer
  8.5　Integral relation of boundary layer momentum
  8.6　Displacement thickness and momentum loss thickness ofboundary layer
  8.7　Approximate calculation of boundary layer flow of plate
  8.8　Separation of boundary layer flow Karman vortex street
  8.9　Drag of bodies　　Free fall velocity
  8.10　Free submerged jet
  Problems
 Chapter 9　TwoDimensional Steady Flow of Gas
  9.1　Propagation of weak pressure wave in space　　Mach cone
  9.2　Stationary weak pressure wave　　Turning angle of gas flowHodograph
  9.3　Reflection and intersection of stationary weak pressure waves
  9.4　Stationary oblique shock wave　　Polar curve of velocity ofshock wave
  9.5　Reflection and intersection of stationary shock waves
  9.6　Mutual disturbance of stationary shock wave and boundary layer
  Problems
 Chapter 10　OneDimensional Unsteady Flow of Gas
  10.1　Relation of gasflow parameters before and after moving weakpressure wave　　Network chart of characteristics on state plane
  10.2　Reflection and intersection of moving weak pressure waves
  10.3　Moving,finitely strengthened pressure wave　　Method ofcharacteristics
  10.4　Relation of gasflow parameters before and after moving shock wave　　Polar curve of velocity of shock wave
  10.5　Reflection and intersection of moving shock waves
  10.6　Shock wave tube
  Problems
 Appendix C　Equation of Continuity and Motional Differential Equation ofIdeal Fluid in Normal Curved Coordinate Systems
 Appendix D　Functions of Compressible Fluid Flow
  Table D1　Standard atmosphere
  Table D2　Isoentropic change numbers of twodimensional supersonicgas flow
  Table D3　Parameters of gasflow before and after stationary obliqueshock wave(γ=14)
 References
 Index
 Synopsis