02630nam 2200685 n 450 991082153010332120230331015832.00-19-773223-21-280-52430-897866105243030-19-536295-01-60129-748-310.1093/oso/9780195060973.001.0001(CKB)1000000000028574(EBL)241637(OCoLC)228117297(SSID)ssj0000156182(PQKBManifestationID)11162690(PQKBTitleCode)TC0000156182(PQKBWorkID)10123770(PQKB)10450346(Au-PeEL)EBL4702183(CaPaEBR)ebr11273450(CaONFJC)MIL52430(OCoLC)960164898(MiAaPQ)EBC4702183(OCoLC)1406787385(StDuBDS)9780197732236(EXLCZ)99100000000002857419910801e20231990 uy |engur|n|---|||||txtccrFluid dynamics for the study of transonic flow /Heinrich J. Ramm[electronic resource]New York ;Oxford University Press,2023.1 online resource (211 p.)The Oxford engineering science seriesOxford scholarship onlineIncludes index.Previously issued in print: 1990.0-19-506097-0 Includes bibliographical references and index.CONTENTS; Introduction; 1. BRIEF REVIEW OF THE BASIC LAWS OF AERODYNAMICS; 2. THE THEORY OF INVISCID TRANSONIC FLOW; 3. NONSTEADY TRANSONIC FLOW; 4. LIFT SLOPE AND DRAG RISE AT SONIC SPEED; 5. ANALYTICAL SOLUTIONS OF THE TRANSONIC CONTINUITY EQUATION; 6. VISCOUS TRANSONIC FLOW; 7. NUMERICAL METHODS OF TRANSONIC FLOW COMPUTATION; 8. STEPS TOWARD THE OPTIMUM TRANSONIC AIRCRAFT; 9. TRANSONIC WIND TUNNEL TESTING; REFERENCES; INDEXThis text leads readers step-by-step through the physics involved in the transition from subsonic to supersonic flow, clearly explaining the complex theoretical principles involved.Oxford engineering science series.Oxford scholarship online.Aerodynamics, TransonicAerodynamics, Transonic.629.132/304Ramm Heinrich J.504299UkUkStDuBDSZStDuBDSZBOOK9910821530103321Fluid dynamics for the study of transonic flow809124UNINA