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1 wing
крыло; авиационное крыло, (авиа)крыло ( организационная единица) ; pl. разг. «крылья» ( нагрудный знак лётного состава) ; летать на самолёте; крыльевой60° wing — крыло с углом стреловидности 60° (по передней кромке)
75 per cent swept delta wing — треугольное крыло с углом стреловидности 75° по передней кромке
85 per cent flapped wing — крыло с закрылками на 85% размаха
cock up the wing — разг. задирать крыло вверх
give drop to a wing — уменьшать подъёмную силу крыла (на одной половине); опускать крыло
mid(-mounted, -set) wing — среднерасположенное крыло
one-sixth scale model wing — модель крыла в масштабе 1:6
shoulder(-height, -mounted) wing — высокорасположенное крыло
— aft wing— air wing— dry wing— fly wing— jet wing— top wing— wet wing— X wing -
2 wing
1) крыло3) лопасть (бурового долота, обтюратора)5) створка ( двери); полотно ( двери-вертушки)7) швейн. верхняя плечевая накладка•to detach a wing — возд. отстыковывать крыло-
air transport wing
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all-moving wing
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anhedral wing
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arrow-type wing
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augmentor wing
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backswept wing
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bolt-on front wing
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boundary layer controlled wing
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braced wing
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bridge wing
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cantilever wing
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clean wing
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cooling wing
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crescent wing
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delta wing
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dihedral wing
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elevator wing
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elliptical wing
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fixed wing
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folding wing
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forward-swept wing
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gull wing
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high wing
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high-lift devices wing
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inner wing
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inverted-gull wing
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lateral wing
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low wing
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lower wing
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mid wing
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monospar wing
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outer wing
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pivoting wing
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rail wing
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rectangular wing
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shoulder wing
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single bay wing
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slotted wing
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stressed-skin wing
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swept wing
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sweptforward wing
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tapered wing
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thin-film rectenna-equipped wing
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torsion box wing
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two-spar wing
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upper wing
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variable-area wing
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variable-geometry wing
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variable-incidence wing
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variable-sweep wing -
3 wing
n1) крило•- all-moving wing - anhedral wing - arrow-type wing - augmentor wing - back-swept wing - backswept wing - boundary layer controlled wing - braced wing - canard wing - cantilever wing - clean wing - cooling wing - crescent wing - critical wing - delta wing - dihedral wing - elliptical wing - fixed wing - flying wing - folding wing - forward-swept wing - gull wing - high wing - high-lift devices wing - infinite-span wing - inner wing - inverted-gull wing - low wing - low aspect wing - low-drag wing - lower wing - mid wing - monospar wing - movable wing - outboard wing - outer wing - pivoting wing - rectangular wing - rigid wing - rotary wing - shoulder wing - single bay wing - single-spar wing - slotted wing - stressed-skin wing - swept wing - sweptback wing - sweptforward wing - tapered wing - thin-film rectenna-equipped wing - torsion box wing - two-spar wing - upper wing - variable-area wing - variable-geometry wing - variable-incidence wing - variable-sweep wing - variable-swept wing -
4 подъёмная сила тонкого крыла
Русско-английский физический словарь > подъёмная сила тонкого крыла
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5 Wenham, Francis Herbert
SUBJECT AREA: Aerospace[br]b. 1824 London, Englandd. 11 August 1908 Folkestone, England[br]English engineer, inventor and pioneer aerodynamicist who built the first wind tunnel.[br]Wenham trained as a marine engineer and later specialized in screw propellers and high-pressure engines. He had many interests. He took his steamboat to the Nile and assisted the photographer F.Frith to photograph Egyptian tombs by devising a series of mirrors to deflect sunlight into the dark recesses. He experimented with gas engines and produced a hot-air engine. Wenham was a leading, if controversial, figure in the Microscopical Society and a member of the Royal Photographic Society; he developed an enlarger.Wenham was interested in both mechanical and lighter-than-air flight. One of his friends was James Glaisher, a well-known balloonist who made many ascents to gather scientific information. When the (Royal) Aeronautical Society of Great Britain was founded in 1866, the Rules were drawn up by Wenham, Glaisher and the Honorary Secretary, F.W.Brearey. At the first meeting of the Society, on 27 June 1866, "On aerial locomotion and the laws by which heavy bodies impelled through the air are sustained" was read by Wenham. In his paper Wenham described his experiments with a whirling arm (used earlier by Cayley) to measure lift and drag on flat surfaces inclined at various angles of incidence. His studies of birds' wings and, in particular, their wing loading, showed that they derived most of their lift from the front portion, hence a long, thin wing was better than a short, wide one. He published illustrations of his glider designs covering his experiments of c. 1858–9. One of these had five slender wings one above the other, an idea later developed by Horatio Phillips. Wenham had some success with a model, but no real success with his full-size gliders.In 1871, Wenham and John Browning constructed the first wind tunnel designed for aeronautical research. It utilized a fan driven by a steam engine to propel the air and had a working section of 18 in. (116 cm). Wenham continued to play an important role in aeronautical matters for many years, including a lengthy exchange of ideas with Octave Chanute from 1892 onwards.[br]Principal Honours and DistinctionsHonorary Member of the (Royal) Aeronautical Society.BibliographyWenham published many reports and papers. These are listed, together with a reprint of his paper "Aerial locomotion", in the Journal of the Royal Aeronautical Society (August 1958).Further ReadingTwo papers by J.Laurence Pritchard, 1957, "The dawn of aerodynamics" Journal of the Royal Aeronautical Society (March); 1958, "Francis Herbert Wenham", Journal of the Royal Aeronautical Society (August) (both papers describe Wenham and his work).J.E.Hodgson, 1924, History of Aeronautics in Great Britain, London.JDSBiographical history of technology > Wenham, Francis Herbert
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6 model
1. модель; макет; образец; эталон/ модельный/ моделировать2. модель; вариант; типactuator modelactuator disk modeladvanced development modelaerodynamic modelaeroelastic modelaeroelastically scaled modelair combat modelairplane modelairplane-like modelapproach modelarrow-wing modelatmospheric modelautopilot modelautorotation modelautothrottle modelBaldwin-Lomax modelbasic modelbeam modelbeam/lumped mass modelbiomorphic modelblowing modelbody alone modelbreadboard modelcable-mounted modelcargo load modelCFD modelcombustion modelcombustion-flow modelcommand modelcompensatory modelcomposite modelcompressibility modified modelcomputer modelcone-cylinder modelcone-finned modelconical-flow modelconsistent modelconstant amplitude fatigue modelconstitutive modelcontinuous-mass modelcontinuum modelcontroller modelcorrelation modelcounter-rotation modelcrack modelcrack growth modelcrack growth retardation modelcrossover modelcumulative damage modeldamage accumulation modeldamper modeldatabase modeldeterministic modeldevelopment-type modeldifferential-game modeldiscrete modeldistributed lift modeldisturbance modeldowndraft modeldrop modelDryden modelDugdale modeldynamically scaled modeldynamics modelenergy-conservation modelengagement modelengine modelengineering development modelerror modelfailure modelfatigue modelfilament modelfine grid modelfinite element modelfixed-base modelfixed-wing modelflow modelflutter modelflutter-suppression modelfour-input/four-output modelfractional derivative modelfracture modelfree to roll modelfree-flight modelfree-flying modelfree-spinning modelfreely flying modelfrequency-domain modelfull modelfull-order modelfull-span modelfull-span wing modelgame modelgeneric modelgeometric modelgeometrically scaled modelgravity modelgravity anomaly modelgust modelhalf-plane modelhalf-wing modelhigh-fineness-ratio modelhuman operator modelidentified modelilluminated modelinfinite-blade modelinput modelinstrumented modelinverse modelisolated wing modelk-e modelk-W modelkinematic modelkinetic modellarge-scale modellead-lag pilot modellead-only pilot modellinear modellongitudinal modellower-order modellumped parameter modellumped-mass modelMach-scaled modelmagnetically suspended modelmass-and-spring modelmass-spring modelMaxwell modelmembrane and rod modelmeteorological modelmicromechanical modelMiner-Palmgren damage modelminimum phase modelmissile modelmodal modelmomentum-conserved modelmoving modelmultiaxis modelmultidegree of freedom modelmultiloop modelmultiscale modelneuromuscular modelobservation modelover-parameterized modelparabolized Navier-Stokes modelpendulation modelperformance modelperturbation modelphenomenological modelphysical modelpilot-aircraft modelpilot-vehicle modelpiston modelpitch modelpitch-plunge modelpitch-lateral-directional modelplant modelplastic modelpneumodynamic modelpowered modelpowered-lift modelprecision modelprediction modelpreview modelproduction modelproperly parameterized modelpropfan modelpropulsion modelpure gain pilot modelquantized modelquasi-static modelR&M modelradar modelradial spring modelradio control modelradio controlled modelreal-world modelreduced order modelreference modelreflectivity modelreingestion modelreplica modelreplica-type modelrocket-propelled modelroll modelrotor-body modelrotorcraft modelscale modelscaled modelscattering modelself-consistent modelsemiempirical modelsemispan modelsemispan wing modelsensitivity modelsimulation modelsingle-axis modelsingle-body modelsingle-rotation modelspectrum fatigue modelspray modelstall modelstate modelstate space modelstatistical modelstiffness modelstochastic modelstress modelstructural modelstudy modelsupersonic cruise modeltask modelterrain modelthin-jet modelthree-degree-of-a-freedom modelthree-state modelthrust modeltire modeltransfer-function modeltransparent modeltruth modeltunnel-supported modelturbulence modeltwin-body modeltwo layer turbulence modeltwo-control modeltwo-degrees-of-freedom modeltwo-equation turbulence modelunquantized modeluntuned modelusage modelV/STOL modelvaporization modelvehicle stability modelvertical dynamic modelvestibular modelviscous/inviscid modelvisual cueing modelwake modelwake/wing modelwater tunnel modelWheeler retardation modelwind-tunnel modelwindshear modelwing-canard modelwing-rotor modelwireframe modelyaw model -
7 control
1. управление; регулирование; управляемость; стабилизация/ управлять; регулировать2. управляющее устройство; регулятор; орган управления, средство управления; рычаг управления; поверхность управления, руль3. <pl> система управления; система регулирования4. управляющее воздействие, управление; отклонение органа управления; перемещение рычага управления5. контроль6. подавление <напр. колебаний>; предотвращениесм. тж. control,control in the pitch axis4-D controlacceleration controladaptable controladaptive controlaerodynamic controlaeroelastic controlaileron controlair traffic controlairborne controlaircraft controlairspeed controlall-mechanical controlsantispin controlsapproach controlarea controlarrival controlattitude controlaugmented controlsautopilot controlbang-bang controlbank-to-turn controlbimodal controlboundary layer controlbounded controlBTT controlbuoyancy controlbus controlCG controlcable controlcable-operated controlscamber controlcaptain`s controlscenter-of-gravity controlchattering controlclearance controlclosed-loop controlclosed-loop controlscockpit controlcockpit controlscollective controlcollective-pitch controlcolocated controlcompensatory controlconfiguration controlcontinuous controlcooperative controlcoordinated controlscorrosion controlcross controlscrowd controlcruise camber controlcyclic controlcyclic pitch controldamper-induced controldamping controldecentralized controldecoupled controldeformable controlsdeformation controldescent controldifferential controldigital controldirect force controldirect lateral force controldirect lift controldirect lift controlsdirect sideforce controldirect sideforce controlsdirectional controldirectional attitude controldirectional flight path controldiscontinuous controldiscrete controldisplacement controldistributed controldivergence controldrag controldual controlelastic mode controlelectrical signalled controlelevator controlen route air traffic controlengine controlserror controlevader controlFBW controlsfeedback controlfighter controlfinal controlfine controlfinger-on-glass controlfingertip controlfinite-time controlfixed-wing controlflap controlFlettner controlflight controlflight controlsflight path controlflow controlfluidic controlflutter controlflutter mode controlfly-by-glass controlfly-by-light controlsfly-by-wire controlsflying controlflying controlsforce controlforce sensitive controlforce sensitive controlsforebody controlsfountain controlfracture controlfriend/foe controlfuel controlfuel distribution controlfuel efficient controlfuel feed controlfull controlfull nose-down controlfull nose-down to full nose-up controlfull-authority controlfull-authority controlsfull-state controlfull-time fly-by-wire controlgain-scheduled controlglide path controlglideslope controlground-based controlharmonized controlshead-out controlhead-up controlheading controlheld controlshierarchical controlhigh-alpha controlhigh-angle-of-attack controlhigh-bandpass controlhigh-bandwidth controlhigh-speed controlhigher harmonic controlhigher harmonic controlshighly augmented controlsHOTAS controlshover mode controlhovering controlhydromechanical controlin-flight controlindividual blade controlindividual flap cruise camber controlinfra-red emissions controlinner-loop controlinput controlinput/output controlintegral controlintegrated controlinteractive controlsintercom/comms controlsirreversible controljet reaction controlkeyboard controlkeyboard controlsknowledge-based controllaminar flow controllateral controllateral-directional controlleading-edge controlsleft controlLiapunov optimal controllinear quadratic Gaussian controllinear quadratic regulator controlload factor controllongitudinal controllongitudinal cyclic controllow-bandwidth controllow-speed controlLQG controlLyapunov optimal controlmaneuver controlmaneuver camber controlmaneuver load controlmaneuvering controlmanual controlmass-flow controlmicroprocessor based controlMIMO controlminimax optimal controlminimum time controlminimum variance controlmisapplied controlsmission-critical controlmixing controlmodal controlmode controlsmodel-following controlmotion controlmultiaxis controlmultiple model controlmultiple-axis controlmultiple-input/multiple-output controlmultisurface controlmultivariable controlneutral controlsnoise controlnoninertial controlnonlinear feedback controlnonunique controlnose-down controlnose-down pitch controlopen-loop controlopen-loop controlsoptimal controlouter-loop controloxygen controlsperformance seeking controlperiodic controlperturbational controlpilot controlpilot-induced oscillation prone controlpiloting controlpiloting controlspitch controlpitch plane controlpitch-recovery controlpneumatic controlpneumodynamic controlpointing controlpositive controlpost stall controlpower controlpowered controlpredictive controlpressurization controlpreview controlpro-spin controlspropeller controlpropeller controlsproportional plus integral controlpropulsion controlspropulsion system controlspursuer controlpursuit controlradio controlsrate controlrate controlsratio-type controlsreaction controlreconfigurable controlsrecovery controlrecovery controlsreduced order controlrelay controlremote pilot controlresponsive controlrestructurable controlreverse controlreversed controlride controlrigid body controlrobust controlroll controlroll attitude controlroll-axis controlrotational controlrotor controlrudder controlrudder controlsrudder-only controlsea controlself-tuning controlsequence controlservo controlservo-flap controlservo-flap controlsshock controlshock wave/boundary layer controlshort period response controlsideforce controlsidestick controlsidestick controlssight controlssignature controlsingle-axis controlsingle-engine controlsingle-lever controlsingular perturbation optimal controlsix degree-of-freedom controlslew controlslewing controlsliding mode controlssmoothed controlsnap-through controlsoftware-intensive flight controlsspace structure controlstation keeping controlstepsize controlstiffness control of structurestochastic controlstructural controlstructural mode controlsuboptimal controlsuction boundary layer controlsuperaugmented controlswashplate controlsweep controlsystems controltactical controlstail controltail rotor controltailplane controltask-oriented controltask-tailored controltaxying controlterminal controlthin controlthree-surface controlthrottle controlthrust controlthrust magnitude controltight controltilt controltime-of-arrival controltime-optimal controltime/fuel optimal controltip clearance controlto regain controltorque controltorque controlstrailing-edge controlstransient controltranslational controltri-surface controltrim controlturn coordination controlupfront controlupward-tilted controlvariable structure controlvectorial controlvehicular controlvelocity controlvertical controlvibration controlvoice actuated controlsvortex controlvortex manipulation controlvortex-lift controlwing-mounted controlsyaw control -
8 section
сечение, разрез; профиль; секция; отсек; участок, отрезок; часть; шлиф; профильный металл; фасонная сталь; раздел ( документа) ; отделение ( организации)12% thick airfoil section — аэродинамический профиль с относительной толщиной 12%
boron epoxy reinforced section — профиль, армированный бороэпоксидной композицией
guidance (and control) section — отсек (бортовой) аппаратуры наведения [управления]; отделение пункта наведения [управления]
submerged seaplane hull section — подводная часть лодки [корпуса] гидросамолёта
См. также в других словарях:
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Wing — Wing, n. [OE. winge, wenge; probably of Scand. origin; cf. Dan. & Sw. vinge, Icel. v[ae]ngr.] [1913 Webster] 1. One of the two anterior limbs of a bird, pterodactyl, or bat. They correspond to the arms of man, and are usually modified for flight … The Collaborative International Dictionary of English
Wing and wing — Wing Wing, n. [OE. winge, wenge; probably of Scand. origin; cf. Dan. & Sw. vinge, Icel. v[ae]ngr.] [1913 Webster] 1. One of the two anterior limbs of a bird, pterodactyl, or bat. They correspond to the arms of man, and are usually modified for… … The Collaborative International Dictionary of English
Wing case — Wing Wing, n. [OE. winge, wenge; probably of Scand. origin; cf. Dan. & Sw. vinge, Icel. v[ae]ngr.] [1913 Webster] 1. One of the two anterior limbs of a bird, pterodactyl, or bat. They correspond to the arms of man, and are usually modified for… … The Collaborative International Dictionary of English
wing cover — Wing Wing, n. [OE. winge, wenge; probably of Scand. origin; cf. Dan. & Sw. vinge, Icel. v[ae]ngr.] [1913 Webster] 1. One of the two anterior limbs of a bird, pterodactyl, or bat. They correspond to the arms of man, and are usually modified for… … The Collaborative International Dictionary of English
Wing covert — Wing Wing, n. [OE. winge, wenge; probably of Scand. origin; cf. Dan. & Sw. vinge, Icel. v[ae]ngr.] [1913 Webster] 1. One of the two anterior limbs of a bird, pterodactyl, or bat. They correspond to the arms of man, and are usually modified for… … The Collaborative International Dictionary of English
Wing gudgeon — Wing Wing, n. [OE. winge, wenge; probably of Scand. origin; cf. Dan. & Sw. vinge, Icel. v[ae]ngr.] [1913 Webster] 1. One of the two anterior limbs of a bird, pterodactyl, or bat. They correspond to the arms of man, and are usually modified for… … The Collaborative International Dictionary of English
Wing shell — Wing Wing, n. [OE. winge, wenge; probably of Scand. origin; cf. Dan. & Sw. vinge, Icel. v[ae]ngr.] [1913 Webster] 1. One of the two anterior limbs of a bird, pterodactyl, or bat. They correspond to the arms of man, and are usually modified for… … The Collaborative International Dictionary of English
Wing stroke — Wing Wing, n. [OE. winge, wenge; probably of Scand. origin; cf. Dan. & Sw. vinge, Icel. v[ae]ngr.] [1913 Webster] 1. One of the two anterior limbs of a bird, pterodactyl, or bat. They correspond to the arms of man, and are usually modified for… … The Collaborative International Dictionary of English