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Mach Wave and Acoustical Wave Structure in Nonequilibrium Gas-Particle Flows (Paperback)
Published by Cambridge University Press, Cambridge, 2021
ISBN 10: 1108964885 ISBN 13: 9781108964883
Language: English
Paperback. Condition: new. Paperback. In this Element, the gas-particle flow problem is formulated with momentum and thermal slip that introduces two relaxation times. Starting from acoustical propagation in a medium in equilibrium, the relaxation-wave equation in airfoil coordinates is derived though a Galilean transformation for uniform flow. Steady planar small perturbation supersonic flow is studied in detail according to Whitham's higher-order waves. The signals owing to wall boundary conditions are damped along the frozen-Mach wave, and are both damped and diffusive along an effective-intermediate Mach wave and diffusive along the equilibrium Mach wave where the bulk of the disturbance propagates. The surface pressure coefficient is obtained exactly for small-disturbance theory, but it is considerably simplified for the small particle-to-gas mass loading approximation, equivalent to a simple-wave approximation. Other relaxation-wave problems are discussed. Martian dust-storm properties in terms of gas-particle flow parameters are estimated. Gas-particle flows became relevant in Aerospace Engineering owing to small solid particle additives to alleviate acoustical instabilities in solid propellant rocket motors, thereby motivating the study of a variety of nonlinear and linear waves. Emphasis is placed on fundamental aspects of the relaxation nature of the flow processes. Shipping may be from multiple locations in the US or from the UK, depending on stock availability.
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Mach Wave and Acoustical Wave Structure in Nonequilibrium Gas-Particle Flows (Elements in Aerospace Engineering)
Published by Cambridge University Press, 2021
ISBN 10: 1108964885 ISBN 13: 9781108964883
Language: English
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Mach Wave and Acoustical Wave Structure in Nonequilibrium Gas-Particle Flows (Elements in Aerospace Engineering)
Published by Cambridge University Press, 2021
ISBN 10: 1108964885 ISBN 13: 9781108964883
Language: English
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Mach Wave and Acoustical Wave Structure in Nonequilibrium Gas-Particle Flows (Elements in Aerospace Engineering)
Published by Cambridge University Press, 2021
ISBN 10: 1108964885 ISBN 13: 9781108964883
Language: English
Condition: New. 1st edition NO-PA16APR2015-KAP.
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Mach Wave and Acoustical Wave Structure in Nonequilibrium Gas-Particle Flows (Elements in Aerospace Engineering)
Published by Cambridge University Press, 2021
ISBN 10: 1108964885 ISBN 13: 9781108964883
Language: English
Seller: Ria Christie Collections, Uxbridge, United Kingdom
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Mach Wave and Acoustical Wave Structure in Nonequilibrium Gas-Particle Flows
Published by Cambridge University Press 2021-09, 2021
ISBN 10: 1108964885 ISBN 13: 9781108964883
Language: English
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Press Start to Play: **Signed**
Published by Vintage Books, New York, 2015
ISBN 10: 1101873302 ISBN 13: 9781101873304
Language: English
First Edition Signed
Soft cover. Condition: Fine. Dust Jacket Condition: Not Issued. First Edition. SIGNED by John Joseph Adams on the Title page. Signature only (Worldcon 2016) Also signed on Contents page and / or story pages by John Joseph Adams, Charlie Jane Anders, Holly black, Seanan Mcguire, T C Boyle, Marc Laidlaw, Robin Wasterman, Cory Doctorow, Ken Liu, and Catherynne M Valente. A First edition, First printing. Soft Cover book. Book is in Fine condition. Boards are clean, not bumped. No store stamps Interior is clean and legible. Not remaindered. Thanks and Enjoy. All-ways well packaged, All-ways fast service. Thanks. Signed by Author(s). Book.
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Mach Wave and Acoustical Wave Structure in Nonequilibrium Gas-Particle Flows (Paperback)
Published by Cambridge University Press, Cambridge, 2021
ISBN 10: 1108964885 ISBN 13: 9781108964883
Language: English
US$ 45.64
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Add to basketPaperback. Condition: new. Paperback. In this Element, the gas-particle flow problem is formulated with momentum and thermal slip that introduces two relaxation times. Starting from acoustical propagation in a medium in equilibrium, the relaxation-wave equation in airfoil coordinates is derived though a Galilean transformation for uniform flow. Steady planar small perturbation supersonic flow is studied in detail according to Whitham's higher-order waves. The signals owing to wall boundary conditions are damped along the frozen-Mach wave, and are both damped and diffusive along an effective-intermediate Mach wave and diffusive along the equilibrium Mach wave where the bulk of the disturbance propagates. The surface pressure coefficient is obtained exactly for small-disturbance theory, but it is considerably simplified for the small particle-to-gas mass loading approximation, equivalent to a simple-wave approximation. Other relaxation-wave problems are discussed. Martian dust-storm properties in terms of gas-particle flow parameters are estimated. Gas-particle flows became relevant in Aerospace Engineering owing to small solid particle additives to alleviate acoustical instabilities in solid propellant rocket motors, thereby motivating the study of a variety of nonlinear and linear waves. Emphasis is placed on fundamental aspects of the relaxation nature of the flow processes. Shipping may be from our Sydney, NSW warehouse or from our UK or US warehouse, depending on stock availability.
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Mach Wave and Acoustical Wave Structure in Nonequilibrium Gas-Particle Flows (Paperback)
Published by Cambridge University Press, Cambridge, 2021
ISBN 10: 1108964885 ISBN 13: 9781108964883
Language: English
US$ 35.38
Convert currencyUS$ 49.87 shipping from United Kingdom to U.S.A.Quantity: 1 available
Add to basketPaperback. Condition: new. Paperback. In this Element, the gas-particle flow problem is formulated with momentum and thermal slip that introduces two relaxation times. Starting from acoustical propagation in a medium in equilibrium, the relaxation-wave equation in airfoil coordinates is derived though a Galilean transformation for uniform flow. Steady planar small perturbation supersonic flow is studied in detail according to Whitham's higher-order waves. The signals owing to wall boundary conditions are damped along the frozen-Mach wave, and are both damped and diffusive along an effective-intermediate Mach wave and diffusive along the equilibrium Mach wave where the bulk of the disturbance propagates. The surface pressure coefficient is obtained exactly for small-disturbance theory, but it is considerably simplified for the small particle-to-gas mass loading approximation, equivalent to a simple-wave approximation. Other relaxation-wave problems are discussed. Martian dust-storm properties in terms of gas-particle flow parameters are estimated. Gas-particle flows became relevant in Aerospace Engineering owing to small solid particle additives to alleviate acoustical instabilities in solid propellant rocket motors, thereby motivating the study of a variety of nonlinear and linear waves. Emphasis is placed on fundamental aspects of the relaxation nature of the flow processes. Shipping may be from our UK warehouse or from our Australian or US warehouses, depending on stock availability.
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Provable Security : 8th International Conference, Provsec 2014, Hong Kong, China, October 9-10, 2014. Proceedings
Seller: GreatBookPricesUK, Woodford Green, United Kingdom
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Active Media Technology : 6th International Computer Science Conference, Amt 2001, Hong Kong, China, December 18-20, 2001 : Proceedings
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Provable Security : 8th International Conference, Provsec 2014, Hong Kong, China, October 9-10, 2014. Proceedings
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Active Media Technology : 6th International Computer Science Conference, Amt 2001, Hong Kong, China, December 18-20, 2001 : Proceedings
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Mach Wave and Acoustical Wave Structure in Nonequilibrium Gas-Particle Flows
Published by Cambridge University Press, 2021
ISBN 10: 1108964885 ISBN 13: 9781108964883
Language: English
Seller: THE SAINT BOOKSTORE, Southport, United Kingdom
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Add to basketPaperback / softback. Condition: New. This item is printed on demand. New copy - Usually dispatched within 5-9 working days 127.
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Mach Wave and Acoustical Wave Structure in Nonequilibrium Gas-Particle Flows (Elements in Aerospace Engineering)
Published by Cambridge University Press, 2021
ISBN 10: 1108964885 ISBN 13: 9781108964883
Language: English
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Mach Wave and Acoustical Wave Structure in Nonequilibrium Gas-Particle Flows (Elements in Aerospace Engineering)
Published by Cambridge University Press, 2021
ISBN 10: 1108964885 ISBN 13: 9781108964883
Language: English
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Mach Wave and Acoustical Wave Structure in Nonequilibrium Gas-Particle Flows
Published by Cambridge University Press, 2021
ISBN 10: 1108964885 ISBN 13: 9781108964883
Language: English
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Add to basketPaperback. Condition: Brand New. 75 pages. 9.25x6.25x0.25 inches. In Stock. This item is printed on demand.
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Add to basketCondition: New. Dieser Artikel ist ein Print on Demand Artikel und wird nach Ihrer Bestellung fuer Sie gedruckt. Gas-particle flows became relevant in Aerospace Engineering owing to small solid particle additives to alleviate acoustical instabilities in solid propellant rocket motors, thereby motivating the study of a variety of nonlinear and linear waves. Emphasis is.
