William Frederick Durand
Aerodynamic Theory
A General Review of Progress Under a Grant of the Guggenheim Fund for the Promotion of Aeronautics
William Frederick Durand
Aerodynamic Theory
A General Review of Progress Under a Grant of the Guggenheim Fund for the Promotion of Aeronautics
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Dieser Buchtitel ist Teil des Digitalisierungsprojekts Springer Book Archives mit Publikationen, die seit den Anfängen des Verlags von 1842 erschienen sind. Der Verlag stellt mit diesem Archiv Quellen für die historische wie auch die disziplingeschichtliche Forschung zur Verfügung, die jeweils im historischen Kontext betrachtet werden müssen. Dieser Titel erschien in der Zeit vor 1945 und wird daher in seiner zeittypischen politisch-ideologischen Ausrichtung vom Verlag nicht beworben.
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Dieser Buchtitel ist Teil des Digitalisierungsprojekts Springer Book Archives mit Publikationen, die seit den Anfängen des Verlags von 1842 erschienen sind. Der Verlag stellt mit diesem Archiv Quellen für die historische wie auch die disziplingeschichtliche Forschung zur Verfügung, die jeweils im historischen Kontext betrachtet werden müssen. Dieser Titel erschien in der Zeit vor 1945 und wird daher in seiner zeittypischen politisch-ideologischen Ausrichtung vom Verlag nicht beworben.
Produktdetails
- Produktdetails
- Verlag: Springer, Berlin
- 1935
- Seitenzahl: 380
- Erscheinungstermin: 1. Januar 1935
- Deutsch
- Abmessung: 235mm x 155mm x 21mm
- Gewicht: 581g
- ISBN-13: 9783642896293
- ISBN-10: 3642896294
- Artikelnr.: 39618755
- Verlag: Springer, Berlin
- 1935
- Seitenzahl: 380
- Erscheinungstermin: 1. Januar 1935
- Deutsch
- Abmessung: 235mm x 155mm x 21mm
- Gewicht: 581g
- ISBN-13: 9783642896293
- ISBN-10: 3642896294
- Artikelnr.: 39618755
'Division F The Theory of Single Burbling.- Editor's Preface.- 1. The Discontinuous Potential.- 2. Calculation of the Air Forces for Single Burbling.- 3. The Lift Force.- 4. The Form Drag.- 5. Determination of Moment and Center of Pressure.- 6. The General Case of Plane Motion.- 7. Influence of the Finite Span of the Wing.- Division G The Mechanics of Viscous Fluids.- Editor's Preface.- 1. Viscosity.- 2. The Poiseuille Flow.- 3. General Theory of Stress.- 4. Equilibrium of Non-homogeneous States of Stress.- 5. Theory of Deformation.- 6. Stokes' Theorem for Stresses.- 7. Reynolds' Laws of Similitude.- 8. Dimensional Analysis Applied to the Problem.- 9. Properties of the Navier-Stokes' Differential Equations.- 10. Some Examples of Exact Solutions.- 11. Theory of Very Slow Motions.- 12. Oseen's Improvement of the Preceding Theory.- 13. Boundary Layers.- 14. The Flat Plate.- 15. Calculation of the Boundary Layer of the Steady Flow Around Cylinders. Separation of Flow from the Wall.- 16. Development of the Boundary Layer with Time.- 17. Theorem of Momentum and Kármán's Approximate Theory.- 18. Prevention of the Separation Effect.- 19. The Facts about Turbulent Flow.- 20. Older Theories of Turbulence.- 21. Newer Theory. Mixing Length and Velocity Distribution.- 22. The Laws of Surface Friction from Experiments on Flows in Tubes. Resistance Formulas. Effect of Roughness.- 23. Turbulent Flow Along a Wall with Special Reference to the Frictional Resistance of Plates.- 24. Turbulent Friction Layers in Accelerated and Retarded Flows.- 25. Spread of Turbulence.- Appendix to 25.- 26. The Development of Turbulence.- 27. The Drag on Bodies Moving Through Fluids.- 28. The Drag in Non-Perfect Fluids.- 29. Experimental Methods for the Determination of Resistance.- Division H The Mechanics of Compressible Fluids.- Editor's Preface.- I. The Propagation of Plane Disturbances.- 1. Introduction.- 2. Propagation of Small Plane Disturbances.- 3. Dynamic Similarity.- 4. Propagation of Large Disturbances and Shock Waves.- 5. Propagation of Discontinuities.- 6. Conditions Within a Shock Wave.- II. Steady Flow through Channels.- 1. Introduction.- 2. Bernoulli's Equation.- 3. Flow Through a Channel of Varying Cross-Section.- 4. Velocity at Minimum Section.- 5. Design of High Speed Wind Tunnels.- III. Two-Dimensional Flow at Speeds Less than that of Sound.- 1. Differential Equation for Irrotational Motion.- 2. The Flow Past a Circular Cylinder.- 3. Prandtl and Glauert's Approximation to the Lift of an Airfoil.- IV. Two-Dimensional Flow at Supersonic Speeds.- 1. The Motion Past Thin Airfoils.- 2. Oblique Shock Waves.- 3. Pressure in a Pitot-Tube or at the Nose of a Projectile.- 4. The Flow Past a Wedge and a Cone at Supersonic Speeds.- 5. The Two-Dimensional Flow Around a Corner.- 6. Two-Dimensional Flow Past a Curved Surface.- Division I Experimental Methods-Wind Tunnels.- Editor's Preface.- 1.- I. Classification of Methods-Use of Natural Winds.- 1. Classification of Experimental Methods Used in Aerodynamic Research.- 2. Methods in which the Object is Stationary and the Fluid in Motion. (Methods Utilizing Natural Movements of the Air.).- References.- II. Methods Using an Artificial Air Flow-Classification of wind Tunnels, Description, Energy Losses.- 1. Methods Using Artificial Fluid Currents.- 2. Classification of Wind Tunnels.- 3. Coefficient of Utilization-Efficiency-Losses.- 4. Degree of Turbulence of Wind Tunnels.- 5. Wind Tunnels with the Experimental Section Downstream from the Fan.- 6. Wind Tunnels with the Experimental Section Upstream from the Fan.- 7. Wind Tunnels of the Eiffel Type.- 8. Evaluation of the Losses in a Tunnel with Experimental Section Upstream from the Fan.- 9. Wind Tunnels with Continuous Closed Circuit.- III. Influence of the Dimensions of the Air Stream.- 1. General Considerations.- 2. Wind Tunnels with Circular Section-Lifting Sys
'Division F The Theory of Single Burbling.- Editor's Preface.- 1. The Discontinuous Potential.- 2. Calculation of the Air Forces for Single Burbling.- 3. The Lift Force.- 4. The Form Drag.- 5. Determination of Moment and Center of Pressure.- 6. The General Case of Plane Motion.- 7. Influence of the Finite Span of the Wing.- Division G The Mechanics of Viscous Fluids.- Editor's Preface.- 1. Viscosity.- 2. The Poiseuille Flow.- 3. General Theory of Stress.- 4. Equilibrium of Non-homogeneous States of Stress.- 5. Theory of Deformation.- 6. Stokes' Theorem for Stresses.- 7. Reynolds' Laws of Similitude.- 8. Dimensional Analysis Applied to the Problem.- 9. Properties of the Navier-Stokes' Differential Equations.- 10. Some Examples of Exact Solutions.- 11. Theory of Very Slow Motions.- 12. Oseen's Improvement of the Preceding Theory.- 13. Boundary Layers.- 14. The Flat Plate.- 15. Calculation of the Boundary Layer of the Steady Flow Around Cylinders. Separation of Flow from the Wall.- 16. Development of the Boundary Layer with Time.- 17. Theorem of Momentum and Kármán's Approximate Theory.- 18. Prevention of the Separation Effect.- 19. The Facts about Turbulent Flow.- 20. Older Theories of Turbulence.- 21. Newer Theory. Mixing Length and Velocity Distribution.- 22. The Laws of Surface Friction from Experiments on Flows in Tubes. Resistance Formulas. Effect of Roughness.- 23. Turbulent Flow Along a Wall with Special Reference to the Frictional Resistance of Plates.- 24. Turbulent Friction Layers in Accelerated and Retarded Flows.- 25. Spread of Turbulence.- Appendix to 25.- 26. The Development of Turbulence.- 27. The Drag on Bodies Moving Through Fluids.- 28. The Drag in Non-Perfect Fluids.- 29. Experimental Methods for the Determination of Resistance.- Division H The Mechanics of Compressible Fluids.- Editor's Preface.- I. The Propagation of Plane Disturbances.- 1. Introduction.- 2. Propagation of Small Plane Disturbances.- 3. Dynamic Similarity.- 4. Propagation of Large Disturbances and Shock Waves.- 5. Propagation of Discontinuities.- 6. Conditions Within a Shock Wave.- II. Steady Flow through Channels.- 1. Introduction.- 2. Bernoulli's Equation.- 3. Flow Through a Channel of Varying Cross-Section.- 4. Velocity at Minimum Section.- 5. Design of High Speed Wind Tunnels.- III. Two-Dimensional Flow at Speeds Less than that of Sound.- 1. Differential Equation for Irrotational Motion.- 2. The Flow Past a Circular Cylinder.- 3. Prandtl and Glauert's Approximation to the Lift of an Airfoil.- IV. Two-Dimensional Flow at Supersonic Speeds.- 1. The Motion Past Thin Airfoils.- 2. Oblique Shock Waves.- 3. Pressure in a Pitot-Tube or at the Nose of a Projectile.- 4. The Flow Past a Wedge and a Cone at Supersonic Speeds.- 5. The Two-Dimensional Flow Around a Corner.- 6. Two-Dimensional Flow Past a Curved Surface.- Division I Experimental Methods-Wind Tunnels.- Editor's Preface.- 1.- I. Classification of Methods-Use of Natural Winds.- 1. Classification of Experimental Methods Used in Aerodynamic Research.- 2. Methods in which the Object is Stationary and the Fluid in Motion. (Methods Utilizing Natural Movements of the Air.).- References.- II. Methods Using an Artificial Air Flow-Classification of wind Tunnels, Description, Energy Losses.- 1. Methods Using Artificial Fluid Currents.- 2. Classification of Wind Tunnels.- 3. Coefficient of Utilization-Efficiency-Losses.- 4. Degree of Turbulence of Wind Tunnels.- 5. Wind Tunnels with the Experimental Section Downstream from the Fan.- 6. Wind Tunnels with the Experimental Section Upstream from the Fan.- 7. Wind Tunnels of the Eiffel Type.- 8. Evaluation of the Losses in a Tunnel with Experimental Section Upstream from the Fan.- 9. Wind Tunnels with Continuous Closed Circuit.- III. Influence of the Dimensions of the Air Stream.- 1. General Considerations.- 2. Wind Tunnels with Circular Section-Lifting Sys