Modern Compressible Flow: With Historical Perspective 4/e
售價
$
1,600
- 一般書籍
- ISBN:9781260570823
- 作者:John D. Anderson
- 版次:4
- 年份:2021
- 出版商:McGraw-Hill
- 頁數/規格:792頁/平裝單色
- 參考網頁:Modern Compressible Flow: With Historical Perspective 4/e
書籍介紹
本書特色
目錄
Description
Modern Compressible Flow: With Historical Perspective, Fourth Edition, is designed to be read and digested by the reader. The author's informal writing style talks to readers, piques their interest, and makes the study of compressible flow a relevant and enjoyable experience. Modern Compressible Flow blends the classical nature of compressible flow with modern aspects of computational fluid dynamics and high-temperature gas dynamics that are so important to modern applications.
Modern Compressible Flow: With Historical Perspective, Fourth Edition, is designed to be read and digested by the reader. The author's informal writing style talks to readers, piques their interest, and makes the study of compressible flow a relevant and enjoyable experience. Modern Compressible Flow blends the classical nature of compressible flow with modern aspects of computational fluid dynamics and high-temperature gas dynamics that are so important to modern applications.
New to the Fourth Edition
Hallmark Features
- Hints have been added to end-of-chapter problems to provide readers with suggestions on how to solve the problems and demonstrate how answers can be mutually supportive of each other
- New homework problems
- New section on hypersonic vehicles to reflect burgeoning research on hypersonic flow
Hallmark Features
- Easily accessible and understandable writing style
- Combination of classical and modern aspects of computational fluid dynamics
- Aimed at supporting both senior undergraduates and first-year graduates
- Amply illustrated with figures and photographs
Table of Contents
1 Compressible Flow - Some History and Introductory Thoughts
2 Integral Forms of the Conservation Equations for Inviscid Flows
3 One-Dimensional Flow
4 Oblique Shock and Expansion Waves
5 Quasi-One-Dimensional Flow
6 Differential Conservation Equations for Inviscid Flows
7 Unsteady Wave Motion
8 General Conservation Equations Revisited: Velocity Potential Equation
9 Linearized Flow
10 Conical Flow
11 Numerical Techniques for Steady Supersonic Flow
12 The Time-Marching Technique: With Application to Supersonic Blunt Bodies and Nozzles
13 Three-Dimensional Flow
14 Transonic Flow
15 Hypersonic Flow
16 Properties of High-Temperature Gases
17 High-Temperature Flows: Basic Examples
1 Compressible Flow - Some History and Introductory Thoughts
2 Integral Forms of the Conservation Equations for Inviscid Flows
3 One-Dimensional Flow
4 Oblique Shock and Expansion Waves
5 Quasi-One-Dimensional Flow
6 Differential Conservation Equations for Inviscid Flows
7 Unsteady Wave Motion
8 General Conservation Equations Revisited: Velocity Potential Equation
9 Linearized Flow
10 Conical Flow
11 Numerical Techniques for Steady Supersonic Flow
12 The Time-Marching Technique: With Application to Supersonic Blunt Bodies and Nozzles
13 Three-Dimensional Flow
14 Transonic Flow
15 Hypersonic Flow
16 Properties of High-Temperature Gases
17 High-Temperature Flows: Basic Examples
