Titre : | Low-speed aerodynamics | Type de document : | document imprimé | Auteurs : | J. Katz, Auteur ; A. Plotkin, Auteur | Mention d'édition : | 2nd ed. | Editeur : | Cambridge, GB : Cambridge University Press | Année de publication : | 2001 | Collection : | Cambridge aerospace series | Importance : | XVI-613 p. | ISBN/ISSN/EAN : | 0-521-66552-3 | Note générale : | Paperback
| Langues : | Français (fre) | Index. décimale : | 47.85 Applied fluid mechanics, Hydrodynamics, hydraulics, hydrostatics, Aerodynamics | Résumé : | 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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Low-speed aerodynamics [document imprimé] / J. Katz, Auteur ; A. Plotkin, Auteur . - 2nd ed. . - Cambridge University Press, 2001 . - XVI-613 p.. - ( Cambridge aerospace series) . ISBN : 0-521-66552-3 Paperback
Langues : Français ( fre) Index. décimale : | 47.85 Applied fluid mechanics, Hydrodynamics, hydraulics, hydrostatics, Aerodynamics | Résumé : | 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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