LEADER 01421nam0-2200301---450 001 9910647898303321 005 20230309094836.0 100 $a20230309g18281857km-y0itay50------ba 101 0 $alat 102 $aDE 140 $aa-----------------bb0------- 200 1 $aNovarum et minus cognitarum stirpium pugillus primus [-decimus] quem indici scholarum in gymnasio hamburgensium academico habendarum praemisit Joannes Georgius Christianus Lehmann 210 $aHamburgi$ctypis Joannis Augusti Meissneri$d1828-1857 215 $a10 v.$d4 ° 300 $aRif: Pritzel 307 $a8.: [2], 56 p. 327 0 $a8.: Novarum et minus cognitarum stirpium pugillus octavus quem indici scholarum in Gymnasio Academico Hamburgensium anno scholastico 1844 habendarum praemisit Johannes Georgius Christianus Lehmann 620 $aGermania.$dAmburgo 700 1$aLehmann,$bJohann Georg Christian$f<1792-1860>$0308692 719 00$aMeissner,$gJohann August$4650 801 0$aIT$bUNINA$gREICAT$2UNIMARC 856 4 $zVisualizza la versione elettronica in EROMM$uhttps://www.e-rara.ch/zut/content/zoom/17714034$e20230309 901 $aAQ 912 $a9910647898303321 952 $aB III 24 (9$fDBV 959 $aDBV 996 $aNovarum et minus cognitarum stirpium pugillus primus quem indici scholarum in gymnasio hamburgensium academico habendarum praemisit Joannes Georgius Christianus Lehmann$93041160 997 $aUNINA LEADER 11503oam 2200625zu 450 001 9910154814403321 005 20211130191521.0 010 $a1-281-15708-2 010 $a9786611157081 010 $a1-4058-9103-3 035 $a(CKB)1000000000407379 035 $a(SSID)ssj0000302841 035 $a(PQKBManifestationID)12116855 035 $a(PQKBTitleCode)TC0000302841 035 $a(PQKBWorkID)10275233 035 $a(PQKB)10752144 035 $a(MiAaPQ)EBC5137245 035 $a(Au-PeEL)EBL5137245 035 $a(CaONFJC)MIL115708 035 $a(OCoLC)1024273583 035 $a(PPN)19774513X 035 $a(EXLCZ)991000000000407379 100 $a20160829d2006 uy 101 0 $aeng 135 $aurcnu|||||||| 181 $ctxt 182 $cc 183 $acr 200 10$aMechanics of Flight 205 $a11th ed. 210 31$a[Place of publication not identified]$cPrentice Hall PTR$d2006 215 $a1 online resource (513 pages) 300 $aBibliographic Level Mode of Issuance: Monograph 311 $a1-4058-2359-3 327 $aCover -- Mechanics of Flight -- Contents -- Preface to eleventh edition -- Acknowledgements -- Mechanics -- Flying and mechanics -- Force, and the first law of motion -- Mass -- Momentum -- Forces in equilibrium -- Forces not in equilibrium -- Inertia forces -- Weight -- The acceleration due to gravity -- Mass weight and g -- Units -- Kinematics -- Motion on curved paths -- Centripetal force and centripetal acceleration -- Centrifugal force -- The mechanics of flight -- Work, power and energy -- Energy and momentum -- Fluid pressure -- Density -- Pressure and density variation in a stationary fluid -- The behaviour of gases -- Composition and resolution of forces, velocities, etc. -- The triangle, parallelogram, and polygon of forces -- Moments, couples and the principles of moments -- Mechanics of flight -- Can you answer these? -- Air and airflow -subsonic speeds -- Introduction - significance of the speed of sound -- Invisibility of the atmosphere -- Density of the air -- Inertia of the air -- Pressure of the atmosphere -- Decrease of pressure and density with altitude -- Temperature changes in the atmosphere -- Effect of temperature and pressure on density -- Viscosity -- Winds and up-and-down currents -- Air speed and ground speed -- Chemical composition of the atmosphere -- The international standard atmosphere -- The altimeter -- Bernoulli's equation -- Air speed measurement -- The air speed indicator -- Air speed indicator corrections -- The venturi tube -- Air resistance or drag -- Streamlines and form drag -- Skin friction and boundary layer -- Drag coefficient -- Wind tunnels -- Wind-tunnel balances -- Measuring pressure -- Absolute and gauge pressure -- Other wind tunnel measurements -- Sources of error -- Other experimental methods -- Computational fluid dynamics (CFD) -- Can you answer these? -- Aerofoils -subsonic speeds. 327 $aLifting surfaces -- Lift and drag -- Airflow and pressure over aerofoil -- Chord line and angle of attack -- Line of zero lift -- Pressure plotting -- Pressure distribution -- Centre of pressure -- Total resultant force on an aerofoil -- Movement of centre of pressure -- Lift, drag and pitching moment of an aerofoil -- Aerofoil characteristics -- Lift curve -- Stalling of aerofoil -- The drag curve -- The lift/drag ratio curve -- The centre of pressure and moment coefficient -- Aerodynamic centre -- The ideal aerofoil -- Compromises -- Camber -- Laminar flow aerofoils -- Design and nomenclature of aerofoil sections -- Aspect ratio -- Induced drag -- Circulation -- Taper and shape of wing tips -- Variable camber -- Flaps and slots -- Slots -- Flaps -- Icing -- Can you answer these? -- Thrust -- Introduction -- Propulsion systems -- Turbojet propulsion -- Turboprop and turboshaft engines -- The ramjet and scramjet -- Rocket propulsion -- Engine and propeller propulsion -- Thrust and momentum -- High by-pass and turbofan engines -- The propeller or airscrew -- How it works -- Helix angle and blade angle -- Advance per revolution -- Pitch of a propeller -- Efficiency -- Tip speed -- Variable pitch -- Number and shape of blades -- The slipstream -- Gyroscopic effect -- Swing on take-off -- Can you answer these? -- Level flight -- Introduction -- The four forces -- Conditions of equilibrium -- Difficulties in balancing the four forces -- Arranging the forces -- The tail plane and other horizontal control surfaces -- 'Tail-less' and 'tail-first' aeroplanes -- Loads on tail plane -- Effects of downwash -- Methods of varying the tail plane lift -- Conditions of balance considered numerically -- Finding the tail load -- Level flight at different air speeds -- Relation between air speed and angle of attack -- Effect of height -- Effect of weight. 327 $aFlying for maximum range - propeller propulsion -- Flying with minimum drag -- Effects of height - propeller propulsion -- Range flying - effects of wind -- Flying for endurance - propeller propulsion -- Flying for range - jet propulsion -- Flying for endurance - jet propulsion -- Summary -- Can you answer these? -- Gliding and landing -- Gliding -- Gliding angle -- Real and apparent angles of glide -- Effect of weight on gliding -- Endurance on the glide -- Disadvantages of flat gliding angle -- Landing -- Stalling speed -- Possibilities of lower minimum speeds -- High lift aerofoils -- Wing loading -- Method of finding minimum landing speed -- Landing speeds and the future -- Short and vertical landing and take-off -- The gyroplane -- The helicopter -- Jet lift -- Other short and vertical take-off aircraft -- Surface skimming vehicles -- The complete approach and landing -- Effect of flaps on trim -- Can you answer these? -- Performance -- Taking-off -- Climbing -- Power curves - propeller propulsion -- Maximum and minimum speeds of horizontal flight -- Effect of changes of engine power -- Effect of altitude on power curves -- Ceiling -- Effect of weight on performance -- Influence of jet propulsion on performance -- Can you answer these? -- Manoeuvres -- Accelerations -- Pulling out of a dive -- The load factor -- Turning -- Loads during a turn -- Correct and incorrect angles of bank -- Other problems of turning -- Controls on steep banks -- Aerobatics -- Inverted manoeuvres -- 'Bumpy' weather -- Manoeuvrability -- Can you answer these? -- Stability and control -- Meaning of stability and control -- Longitudinal stability -- Longitudinal dihedral -- Lateral stability -- Dihedral angle -- High wing and low centre of gravity -- Sweepback and lateral stability -- Fin area and lateral stability -- Directional stability. 327 $aLateral and directional stability -- Control of an aeroplane -- Balanced controls -- Mass balance -- Control at low speeds -- Powered controls -- Dynamic stability -- Can you answer these? -- A trial flight -- Pre-flight checks -- Taxying -- Take off -- Some simple exercises -- Circuit, approach and landing -- Flight at transonic speeds -- Introduction -- The speed of sound -- Compressibility and incompressibility -- Approaching the speed of sound -- Shock waves -- Observation of shock waves -- Effects of shock waves - the shock stall -- Shock drag -- Mach Number -- Variation of speed of sound -- Critical Mach Number -- Drag rise in the transonic region -- Subsonic - transonic - supersonic -- Flight at transonic speeds - drag and power required -- Flight at transonic speeds - the pilot's point of view -- Behaviour of aeroplane at shock stall -- Height and speed range -- Experimental methods -- Shock-wave patterns -- Shock waves and pressure distribution -- Sonic bangs -- Raising the critical Mach Number - slimness -- Raising the critical Mach Number - sweepback -- Control problems -- Vortex generators -- Other devices to prevent or delay separation -- Can you answer these? -- Flight at supersonic speeds -- Introduction -- Supersonic shock pattern -- Mach angle -- Supersonic flow -- Compressive flow -- Expansive flow -- Supersonic flow over an aerofoil -- Convergent-divergent nozzle -- Expanding-contracting duct -- Subsonic and supersonic flow - a summary -- Boundary layer and supersonic flow -- Supersonic wing shapes - plan form -- Supersonic wing shapes - aerofoil sections -- Supersonic body shapes -- Kinetic heating -- Stability and control problems -- Concorde -- Flight at hypersonic speeds -- Lifting bodies -- Can you answer these? -- Space flight -- Ballistics and astronautics -- The upper atmosphere -- The law of universal gravitation. 327 $aEscape from the earth -- Projectiles and satellites -- The mechanics of circular orbits -- Escape velocity and circular velocity -- Elliptical orbits -- Going to the moon? -- Another way to the moon -- Launching a spacecraft -- Orbiting the moon -- The return flight -- Re-entry into the atmosphere -- Flights in space -- Sub-orbital flight - the aeroplane - missile - satellite -- Can you answer these? -- Appendixes -- Aerofoil data -- 1. RAF 15 -- 2. Clark YH -- 3. NACA 0009 -- 4. NACA 4412 -- 5. NACA 23012 -- 6. NACA 23018 -- 7. NACA 651-212 -- 8. English Electric ASN/P1/3 -- Data for BAC Lightning model - clean aircraft -- Data for BAC Lightning model - flaps at 50° -- Scale effect and Reynolds Number -- Numerical questions -- Chapter 1. Mechanics -- Chapter 2. Air and airflow - subsonic speeds -- Chapter 3. Aerofoils - subsonic speeds -- Chapter 4. Thrust -- Chapter 5. Level flight -- Chapter 6. Gliding and landing -- Chapter 7. Performance -- Chapter 8. Manoeuvres -- Chapter 9. Stability and control -- Chapter 10. A trial flight -- Chapters 11 and 12. Flight at transonic and supersonic speeds -- Chapter 13. Space flight -- Appendix 1. Aerofoil data -- Appendix 2. Scale effect -- Answers to numerical questions -- Chapter 1 -- Chapter 2 -- Chapter 3 -- Chapter 4 -- Chapter 5 -- Chapter 6 -- Chapter 7 -- Chapter 8 -- Chapter 10 -- Chapters 11 and 12 -- Chapter 13 -- Appendix 1 -- Appendix 2 -- Answers to non-numerical questions -- Chapter 1 -- Chapter 2 -- Chapter 3 -- Chapter 4 -- Chapter 5 -- Chapter 6 -- Chapter 7 -- Chapter 8 -- Chapter 9 -- Chapter 11 -- Chapter 12 -- Chapter 13 -- Index. 330 $aMechanics of Flight is an ideal introduction to the principles of flight. The eleventh edition has been updated to conform to current teaching practices and technical knowledge. Written in a clear jargon-free style, the book contains simple numerical examples.The book commences with a summary of the relevant aspects of mechanics, and goes on to cover topics such as air and airflow, aerofoils, thrust, level flight, gliding, landing, performance, manoeuvres and stability and control. Important aspects of these topics are illustrated by a description of a trial flight in a light aircraft. The book also deals with flight at transonic and supersonic speeds, and finally orbital flight and spacecraft. 606 $aAeronautics Engineering & Astronautics$2HILCC 606 $aMechanical Engineering$2HILCC 606 $aEngineering & Applied Sciences$2HILCC 615 7$aAeronautics Engineering & Astronautics 615 7$aMechanical Engineering 615 7$aEngineering & Applied Sciences 676 $a629.132 700 $aBarnard$b R. H.$0608199 702 $aKermode$b A. C 702 $aPhilpott$b D. R. 801 0$bPQKB 906 $aBOOK 912 $a9910154814403321 996 $aMechanics of Flight$92487946 997 $aUNINA