Slender-body Theory Based on Approximate Solution of the Transonic Flow Equation

Slender-body Theory Based on Approximate Solution of the Transonic Flow Equation PDF Author: John R. Spreiter
Publisher:
ISBN:
Category : Aerodynamics
Languages : en
Pages : 252

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Book Description
Approximate solutions of the nonlinear equations of the small disturbance theory of transonic flow are found for the pressure distribution on pointed slender bodies of revolution for flows with free-stream Mach number 1, and for flows that are either purely subsonic or purely supersonic. These results are obtained by application of a method based on local linearization that was introduced recently in the analysis of similar problems in low-dimensional flows. The theory is developed for bodies of arbitrary shapes, and specific results are given for cone-cylinders and for parabolic-arc bodies at zero angle of attack. All results are compared either with existing theoretical results or with experimental data.

Slender-body Theory Based on Approximate Solution of the Transonic Flow Equation

Slender-body Theory Based on Approximate Solution of the Transonic Flow Equation PDF Author: John R. Spreiter
Publisher:
ISBN:
Category : Aerodynamics
Languages : en
Pages : 252

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Book Description
Approximate solutions of the nonlinear equations of the small disturbance theory of transonic flow are found for the pressure distribution on pointed slender bodies of revolution for flows with free-stream Mach number 1, and for flows that are either purely subsonic or purely supersonic. These results are obtained by application of a method based on local linearization that was introduced recently in the analysis of similar problems in low-dimensional flows. The theory is developed for bodies of arbitrary shapes, and specific results are given for cone-cylinders and for parabolic-arc bodies at zero angle of attack. All results are compared either with existing theoretical results or with experimental data.

Slender-body Theory Based on Approximate Solution of the Transonic Flow Equation

Slender-body Theory Based on Approximate Solution of the Transonic Flow Equation PDF Author: John R. Spreiter
Publisher:
ISBN:
Category : Aerodynamics
Languages : en
Pages : 60

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Book Description
Summary: Approximate solutions of the nonlinear equations of the small disturbance theory of transonic flow are found for the pressure distribution on pointed slender bodies of revolution for flows with free-stream Mach number 1, and for flows that are either purely subsonic or purely supersonic. These results are obtained by application of a method based on local linearization that was introduced recently in the analysis of similar problems in low-dimensional flows. The theory is developed for bodies of arbitrary shapes, and specific results are given for cone-cylinders and for parabolic-arc bodies at zero angle of attack. All results are compared either with existing theoretical results or with experimental data.

NASA Technical Report

NASA Technical Report PDF Author:
Publisher:
ISBN:
Category : Aerodynamics
Languages : en
Pages : 60

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Numerical Calculation of Transonic Flow about Slender Bodies of Revolution

Numerical Calculation of Transonic Flow about Slender Bodies of Revolution PDF Author: Frank R. Bailey
Publisher:
ISBN:
Category : Aerodynamics, Transonic
Languages : en
Pages : 44

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Book Description
A relaxation method is described for the numerical solution of the transonic small disturbance equation for flow about a slender body of revolution. Results for parabolic arc bodies, both with and without an attached sting, are compared with wind-tunnel measurements for a free-stream Mach number range from 0.90 to 1.20. The method is also used to show the effects of wind-tunnel wall interference by including boundary conditions representing porous-wall and open-jet wind-tunnel test sections.

Applied Mechanics

Applied Mechanics PDF Author: M. Hetenyi
Publisher: Springer Science & Business Media
ISBN: 3642856403
Category : Science
Languages : en
Pages : 445

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Book Description
This volume contains the Proceedings of the Twelfth International Congress of Applied Mechanics, held at Stanford University on August 26 to 31, 1968. The Congress was organized by the International Union of Theoretical and Applied Mechanics; members of the IUTAM Congress Committee and Bureau are listed under Congress Organization. The members of the Stanford Organizing Committee, which was responsible for the detailed organization of the Congress, are also given, as are the names of the sponsors and the industrial and educational organizations that contributed so generously to the financial support of the meeting. Those attending the Congress came from 32 countries and totaled 1337 persons, plus wives and children. A list of the registered participants is included in the volume. The technical sessions of the Congress comprised four General Lectures and 281 contributed papers, the latter being presented in groups of five simultaneous sessions. The final choice of the contributed papers was made on the basis of abstracts by an International Papers Commit tee of IUTAM consülting of G. K. BATCHELOR, E. BECKER, N. J. HOFF, and W. T. KOlTER.

Analytical Study of Soft Landings on Gas-filled Bags

Analytical Study of Soft Landings on Gas-filled Bags PDF Author: Jack B. Esgar
Publisher:
ISBN:
Category : Gas
Languages : en
Pages : 732

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Theoretical Pressure Distributions on Wings of Finite Span at Zero Incidence for Mach Numbers Near 1

Theoretical Pressure Distributions on Wings of Finite Span at Zero Incidence for Mach Numbers Near 1 PDF Author: Alberta Y. Alksne
Publisher:
ISBN:
Category : Aerodynamics, Transonic
Languages : en
Pages : 58

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Book Description
A method employed heretofore by the authors to obtain approximate solutions of the transonic flow equation for plane and axisymmetric flow is extended to give reasonable results for wings of finite span, consistent with the known properties of transonic flows. In this method the partial differential equation appropriate to the study of transonic flow is replaced by a nonlinear ordinary differential equation which can be solved by numerical methods. Asymptotic forms of this differential equation are given for very high and very low aspect ratios and analytic results are obtained for certain special cases. Numerical results, calculated by use of electronic computing machines, are given in the form of pressure distribution and pressure drag for two profile shapes, wedge and circular arc, for wings of rectangular plan form. The range of aspect ratios covered extends effectively from zero to infinity and agreement with the asymptotic results is shown at both limits.

Analytic Methods in Aircraft Aerodynamics

Analytic Methods in Aircraft Aerodynamics PDF Author:
Publisher:
ISBN:
Category : Aerodynamics
Languages : en
Pages : 758

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Index of NACA Technical Publications

Index of NACA Technical Publications PDF Author: United States. National Advisory Committee for Aeronautics
Publisher:
ISBN:
Category : Aeronautics
Languages : en
Pages : 860

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NASA Technical Memorandum

NASA Technical Memorandum PDF Author:
Publisher:
ISBN:
Category : Aeronautics
Languages : en
Pages : 146

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