Low-Speed Aerodynamics / Edition 2

Low-Speed Aerodynamics / Edition 2

by Joseph Katz, Allen Plotkin
     
 

ISBN-10: 0521665523

ISBN-13: 9780521665520

Pub. Date: 02/28/2001

Publisher: Cambridge University Press

Low-speed aerodynamics is important in the design and operation of aircraft flying at low Mach number, and ground and marine vehicles. This text offers a modern treatment of both the theory of inviscid, incompressible, and irrotational aerodynamics, and the computational techniques now available to solve complex problems. A unique feature is that the computational

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Overview

Low-speed aerodynamics is important in the design and operation of aircraft flying at low Mach number, and ground and marine vehicles. This text offers a modern treatment of both the theory of inviscid, incompressible, and irrotational aerodynamics, and the computational techniques now available to solve complex problems. A unique feature is that the computational approach—from a single vortex element to a three-dimensional panel formulation—is interwoven throughout. This second edition features a new chapter on the laminar boundary layer (emphasis on the viscous-inviscid coupling), the latest versions of computational techniques, and additional coverage of interaction problems. The authors include a systematic treatment of two-dimensional panel methods and a detailed presentation of computational techniques for three-dimensional and unsteady flows.

Product Details

ISBN-13:
9780521665520
Publisher:
Cambridge University Press
Publication date:
02/28/2001
Series:
Cambridge Aerospace Series, #13
Edition description:
Revised Edition
Pages:
630
Product dimensions:
7.01(w) x 10.00(h) x 1.26(d)

Table of Contents

1. Introduction and background; 2. Fundamentals of inviscid, incompressible flow; 3. General solution of the incompressible, potential flow equations; 4. Small disturbance flow over three-dimensional wings: formulation of the problem; 5. Small disturbance flow over two-dimensional airfoils; 6. Exact solutions with complex variables; 7. Perturbation methods; 8. Three-dimensional small disturbance solutions; 9. Numerical (panel) methods; 10. Singularity elements and influence coefficients; 11. Two-dimensional numerical solutions; 12. Three-dimensional numerical solutions; 13. Unsteady aerodynamics; 14. The laminar boundary layer; 15. Enhancement of the potential flow model; Appendices.

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