Fundamentals of aerodynamics / John D. Anderson, Jr.
Series: McGraw-Hill series in aeronautical and aerospace engineeringPublication details: Boston : McGraw-Hill Higher Education, c2007.Edition: 4th editionDescription: xxiv, 1008 p. : ill. ; 24cmISBN:- 0072950463 (hard copy : alk. paper)
- 9780072950465
- 629.1323 22 AND
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| 629.132/3 HOU 1 Aerodynamics for engineering students / | 629.1323 AND 1 Fundamentals of aerodynamics / | 629.1323 AND 2 Fundamentals of aerodynamics / | 629.1323 AND 3 Fundamentals of aerodynamics / | 629.1323 AND 4 Fundamentals of aerodynamics / | 629.1323 AND 5 Fundamentals of aerodynamics / | 629.13237 BOU 1 Boundary element acoustics : fundamentals and computer codes / |
CONTENTS
PART 1.Fundamental principles
Chapter 1 Aerodynamics: some Introductory thought
1.1 Importance of aerodynamics: historical examples
1.2 Aerodynamics: classification and practical objectives
1.3 Road map for this chapter
1.4 Some fundamental aerodynamic variables
1.5 Aerodynamic forces and moments
Etc.
Chapter 2 Aerodynamics: Some fundamental principles and equation
2.1 Introduction and road map
2.2 Review of vector relations
2.3 Models of the fluid: control volumes and fluids elements
2.4 Continuity equation
2.5 Momentum equation
Etc.
PART 3
Inviscid, Incompressible flow
Chapter 3 Fundamentals
3.1 Introduction to road map
3.2 Bernoulli’s equation
Chapter 4 Incompressible flow over airfoils
4.1 Introduction
4.2 Airfoils nomenclature
4.3 Airfoils Characteristics
4.4 Philosophy of theorem and the solutions for low speed flow over airfoils: the Vortex sheet
4.5 The Kutta condition
Etc.
Chapter 5 Incompressible flow over finite wings
5.1 Introduction: downwash and induced drag
5.2 The Vortex filament the Biot-savart law, and Helmholtz's theorem
5.3 Prandtl's classical lifting line
5.4 A numerical nonlinear lifting line method
5.5 The lifting surface theory and the vortex Lattice numerical methods
Etc.
Chapter 6 Three dimensional Incompressible flow
6.1 Introduction
6.2 Three dimensional source
6.3 Three dimensional doublet
6.4 Flow over a sphere
6.5 General three dimensional flows: panel techniques
Etc.
PART 3 Inviscid, Compressible flow
Chapter 7 Compressible flow: Some preliminary aspects
7.1 Introduction
7.2 A brief review of thermodynamics
7.3 Definition of compressibility
7.4 Governing equations for inviscid, compressible flow
7.5 Definition of total (stagnation)
Etc.
Chapter 8 Normal shock waves and related topics
8.1 Introduction
8.2 The basic normal shock equations
8.3 Speed of sound
8.4 Special forms of the energy equation
8.5 When is a flow comprehensive
Etc.
Chapter 9 Oblique shock and expansion waves
9.1 Introduction
9.2 Oblique shock relations
9.3 Supersonic flow over wedges and cones
9.4 Shock interactions and reflections
9.5 Detached shock wave in front of blunt body.
Chapter 10 Compressible flow through Nozzles diffusers, and wind tunnels
10. 1 Introduction
10. 2 Governing equations for quasi-one dimensional
10.3 Nozzle flow
10.4 Diffusers
10.5 Supersonic wind tunnels
Etc.
11. Subsonic Compressible flow over airfoils Linear theory
11.1 Introduction
11.2 The Velocity potential equation
11.3 The linearized Velocity potential equation
11.4 Prandtl Gluaert compressibility correction
11.5 Improved compressibility
Etc.
Chapter 12 Linearized supersonic pressure coefficient flow
12.1 Introduction
12.2 Derivation of linearized supersonic pressure formula
12.3 Application to supersonic airfoils
12.4 Viscous flow: Supersonic airfoil drag
12.5 Summary
Etc.
Chapter 13 Introduction to numerical techniques for nonlinear supersonic flow
13.1 Introduction: Philosophy of computational fluid dynamics
13.2 Elements of the method of characteristics
13.3 Supersonic Nozzle design
13.4 Elements of finite difference methods
13.5 The time dependents techniques: application to supersonic blunt bodies
Etc.
Chapter 14 Elements of hypersonic flow
14.1 Introduction
14.2 Qualitative aspects of hypersonic flow
14.3 Newtonian theory
14.4 The lift and drag of wings at hypersonic
14.5 Hypersonic shock wave relations and another look at Newtonian theory.
Etc.
PART 4 Viscous flow
Chapter Introduction to the fundamental principles and equations of viscous flow
15.1 Introduction
15.2 Qualitative aspects of viscous flow
15.3 Viscosity and thermal conduction
15.4 The Navier stock equations
15.5 The Viscous flow energy equation
Etc.
16 Some special cases: Couette and poiseuille flows
16.1 Introduction
16.2 Couette flow: general discussion
16.3 Incompressible (Constant property)
Etc.
Chapter 17 Introduction to boundary layers
17.1 Introduction
17.2 Boundary layer properties
17.3 The boundary layer equations
Etc.
Chapter 18 Laminar boundary layers
18.1 Introduction
18.2 Incompressible flow over a flat plate
18.3 Compressible flow over a flat plate
Etc.
Chapter 19 Turbulent boundary layers
19. Introduction
19.2 Results for turbulent boundary layers
19.3 Turbulence modelling
Etc.
Chapter 20 Naiver stocks solutions: some examples
20.1 Introduction
20. 2 The approach
20.3 Examples of some solutions
Etc.
Includes bibliographical references (p. 981-985) and index.
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