目录 DIVISION ONEFUNDAMENTAL PRINCIPLES Chapter 1 Parameters in Compressible Flow 1.1 Velocity of Sound and Mach Number 1.2 Viscosity,Reynolds Number 1.3 Heat Conduction,Prandtl Number 1.4 Property of Gas,Ratio of Specific Heat 1.5 Similarity of Flows Chapter 2 Steady One Dimensional Motion of a Perfect Compressible Fluid 2.1 Thermodynamic Relations,and Energy Equation 2.2 Perfect Gas Relations 2.3 Flow Area,Conditions at the Throat 2.4 Flow Through a De Laval Nozzle 2.5 Pressure and Velocity Relations in Isentropic Flow Chapter 3 Shock Wave 3.1 Relation of Quantities in front and behind the Shock 3.2 Thickness of Shock 3.3 Creation of Shock from Finite Compression Disturbances 3.4 Oblique Shock 3.5 Flow over a Wedge 3.6 Pitot Tube Appendix The Concept of Entropy and the Second Law of Thermodynamics Chapter 4 Basic Equations of Motion of a Compressible,Inviscid and Non Heat Conducting Fluid 4.1 General Equations 4.2 Kelvin Theorem 4.3 Helmholtz Theorem 4.4 Steady Two Dimensional Rotational Flow—Detached Shock 4.5 Non steady Irrotational Flow 4.6 Method of Approximate Solution of Irrotational Subsonic Isentropic Flow Appendix Vector Differentiation
DIVISION TWOTWO DIMENSIONAL FLOWS Chapter 5 RayleighJanzen Method 5.1 General Equations 5.2 Solution by means of Complex Variables 5.3 Flow around a Circular Cylinder 5.4 Pressure Coefficient as a Series of Ma 5.5 Higher Order of Approximation for the Circular Cylinder Bibliography Chapter 6 PrandtlGlauert Method 6.1 Basic Equations for Iteration 6.2 First Approximation—PrandtlGlauert Rule 6.3 First Approximation,Using Velocity Potential 6.4 Higher Approximations Bibliography Chapter 7 Hodograph Method and KrmnTsien Approximation 7.1 Basic Equations in Hodograph Variables 7.2 Formulation of Problem in Hodograph Plane 7.3 Karman—Tsien Approximation 7.4 Velocity and Pressure Correction Formulae 7.5 Coordinate Correction 7.6 Application to the Flow around an Elliptic Cylinder 7.7 Further Development of Karman—Tsien Approximation Bibliography Chapter 8 Velocity and Pressure Correction Formulae 8.1 Correction for Boundary Effects in Subsonic Flow 8.2 Limitations of the Correction Formulae 8.3 The Recommended Correction Formulae Bibliography Chapter 9 Exact Solution of Isentropic Irrotational Flow 9.1 Flow with 180° Turn 9.2 Limiting Line 9.3 Breakdown of Potential Flow 9.4 General Exact Solutions Bibliography Chapter 10 Two Dimensional Supersonic Flows 10.1 The Lost Solution 10.2 PrandtlMeyer Flow 10.3 Flow over an Airfoil 10.4 Ackerets Formulae 10.5 Further Remarks Bibliography Chapter 11 Transonic and Hypersonic Similarity Laws 11.1 Transonic Flow Equation 11.2 Transonic Similarity Law 11.3 Slightly Supersonic Flow 11.4 Hypersonic Flows and Similarity Laws Bibliography Chapter 12 Linearized Theory of Flow over a Slender Body of Revolution 12.1 Subsonic Flows with Axial Symmetry 12.2 Linearized Subsonic Flow 12.3 Subsonic Flow over a Slender Ellipsoid of Revolution 12.4 Supersonic Flow over a Slender Body of Revolution 12.5 Pressure Distribution 12.6 Wave Drag 12.7 Origin of Wave Drag—Transfer of Momentum 12.8 Body of Minimum Wave Drag 12.9 Lift of a Body of Revolution Bibliography Appendix Chapter 13 Non Linear Theory of Axially Symmetric Flows 13.1 Transonic Similarity Law 13.2 Hypersonic Similarity Law 13.3 "Lost Solution" of the Exact Equation 13.4 Exact Solution for Flow over a Cone Bibliography Chapter 14 Similarity Laws for Wings of Finite Span 14.1 Similarity Law in Subsonic Flow 14.2 Similarity Law in Transonic Flow 14.3 Similarity Laws in Supersonic Flow 14.4 Similarity Laws in Hypersonic Flow Chapter 15 Rectangular Wing in Supersonic Flow 15.1 Source and Dou
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