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1 tail-first aircraft
самолет (аэродинамической балансировочной) схемы "утка" -
2 tail-first aircraft
ЛА с передним ( горизонтальным) оперением; самолёт схемы «утка»Englsh-Russian aviation and space dictionary > tail-first aircraft
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3 aircraft
воздушное судно [суда], атмосферный летательный аппарат [аппараты]; самолёт (ы) ; вертолёты); авиация; авиационный; см. тж. airplane, boostaircraft in the barrier — самолёт, задержанный аварийной (аэродромной) тормозной установкой
aircraft off the line — новый [только что построенный] ЛА
B through F aircraft — самолёты модификаций B, C, D, E и F
carrier(-based, -borne) aircraft — палубный ЛА; авианосная авиация
conventional takeoff and landing aircraft — самолёт с обычными взлетом и посадкой (в отличие от укороченного или вертикального)
keep the aircraft (headed) straight — выдерживать направление полёта ЛА (при выполнении маневра); сохранять прямолинейный полет ЛА
keep the aircraft stalled — сохранять режим срыва [сваливания] самолёта, оставлять самолёт в режиме срыва [сваливания]
nearly wing borne aircraft — верт. ЛА в конце режима перехода к горизонтальному полёту
pull the aircraft off the deck — разг. отрывать ЛА от земли (при взлете)
put the aircraft nose-up — переводить [вводить] ЛА на кабрирование [в режим кабрирования]
put the aircraft through its paces — определять предельные возможности ЛА, «выжимать все из ЛА»
reduced takeoff and landing aircraft — самолёт укороченного взлета и посадки (с укороченным разбегом и пробегом)
rocket(-powered, -propelled) aircraft — ракетный ЛА, ЛА с ракетным двигателем
roll the aircraft into a bank — вводить ЛА в крен, накренять ЛА
rotate the aircraft into the climb — увеличивать угол тангажа ЛА для перехода к набору высоты, переводить ЛА в набор высоты
short takeoff and landing aircraft — самолёт короткого взлета и посадки (с коротким разбегом и пробегом)
single vertical tail aircraft — ЛА с одинарным [центральным] вертикальным оперением
strategic(-mission, -purpose) aircraft — ЛА стратегического назначения; стратегический самолёт
take the aircraft throughout its entire envelope — пилотировать ЛА во всем диапазоне полётных режимов
trim the aircraft to fly hands-and-feet off — балансировать самолёт для полёта с брошенным управлением [с брошенными ручкой и педалями]
turbofan(-engined, -powered) aircraft — ЛА с турбовентиляторными двигателями, ЛА с ТРДД
turbojet(-powered, -propelled) aircraft — ЛА с ТРД
undergraduate navigator training aircraft — учебно-тренировочный самолёт для повышенной лётной подготовки штурманов
water(-based, takeoff and landing) aircraft — гидросамолёт
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4 aircraft
1. (атмосферный) летательный аппарат [аппараты], воздушное судно [суда]; самолет(ы); вертолет(ы);см. тж. airplane,2. авиация/ авиационный; бортовой <об оборудовании ЛА>4-D aircraft4-D equipped aircraft9-g aircraftADF aircraftadvanced-technology aircraftadversary aircraftaerobatic aircraftaft-tail aircraftaggressor aircraftagile aircraftagricultural aircraftair defence aircraftair-refuellable aircraftair-to-ground aircraftairborne early warning and control aircraftalert aircraftall-digital aircraftall-training aircraftall-electric aircraftall-metal aircraftall-new aircraftall-out stealth aircraftall-weather aircraftamateur built aircraftamphibious aircraftantisubmarine warfare aircraftaround-the-world aircraftartificial-stability aircraftasymmetric aircraftattack aircraftattrition aircraftaugmented aircraftautomated aircraftbackside aircraftBAI aircraftbalanced aircraftbattle-damaged aircraftbattle-tolerant aircraftbattlefield aircraftbulbous-nosed aircraftbuoyant quad-rotor aircraftbush aircraftbusiness aircraftbusiness-class aircraftcalibrated pace aircraftcanard aircraftcanard controlled aircraftcanard-configured aircraftcanard-winged aircraftcargo aircraftcargo-capable aircraftcarrier aircraftcarrier-based aircraftcarrier-qualified aircraftCAS aircraftcenterstick aircraftcenterstick controlled aircraftChristmas tree aircraftclass IV aircraftclear weather reconnaissance aircraftclose-coupled canard aircraftcoated aircraftcombat air patrol aircraftcombat training aircraftcombat-damaged aircraftcombat-loaded aircraftcombi aircraftcombustible fuel aircraftcommuter aircraftcomposite material aircraftcomposite-built aircraftcomposite-wing aircraftcomputer-generated aircraftconceptual aircraftconceptual design aircraftconflicting aircraftcontrol reconfigurable aircraftcontrol-by-wire aircraftconventional tailled aircraftconventional take-off and landing aircraftconventional variable-sweep aircraftconventionally designed aircraftcorporate aircraftcounter insurgency aircraftcropspray aircraftcropspraying aircraftcruise matched aircraftcruise-designed aircraftCTOL aircraftcurrent-generation aircraftdamage tolerant aircraftday-only aircraftday/night aircraftde-iced aircraftdefence-suppression aircraftdelta-wing aircraftdemonstrator aircraftdevelopment aircraftdevelopmental aircraftdivergence prone aircraftdouble-deck aircraftdrug interdiction aircraftdrug-smuggling aircraftdual-capable aircraftducted-propeller aircraftdynamically stable aircraftdynamically unstable aircraftEarth resources research aircraftEarth resources survey aircraftejector-powered aircraftElint aircraftEMP-hardened aircraftex-airline aircraftFAC aircraftfake aircraftfan-in-wing aircraftfan-powered aircraftfirefighting aircraftfixed-cycle engine aircraftfixed-landing-gear aircraftfixed-planform aircraftfixed-wing aircraftflexible aircraftflight inspection aircraftflight loads aircraftflight refuelling aircraftflight test aircraftflightworthy aircraftfly-by-wire aircraftflying-wing aircraftforgiving aircraftforward air control aircraftforward-swept-wing aircraftfour-dimensional equipped aircraftfreely flying aircraftfreighter aircraftfriendly aircraftfront-line aircraftFSD aircraftfuel efficient aircraftfuel-hungry aircraftfull-scale aircraftfull-scale development aircraftfull-size aircraftfully-capable aircraftfully-tanked aircraftgap filler aircraftgas turbine-powered aircraftground-hugging aircraftgull-winged aircraftheavy-lift aircrafthigh-Mach aircrafthigh-alpha research aircrafthigh-cycle aircrafthigh-demand aircrafthigh-drag aircrafthigh-dynamic-pressure aircrafthigh-flying aircrafthigh-life aircrafthigh-performance aircrafthigh-speed aircrafthigh-tail aircrafthigh-technology aircrafthigh-thrust aircrafthigh-time aircrafthigh-wing aircrafthigh-winged aircrafthighest cycle aircrafthighest flight-cycle aircrafthighly agile aircrafthighly augmented aircrafthighly glazed aircrafthighly maneuverable aircrafthighly unstable aircraftholding aircrafthome-based aircrafthome-built aircrafthovering aircrafthydrocarbon-fueled aircrafthydrogen fueled aircrafthypersonic aircraftice-cloud-generating aircrafticing-research aircraftidealized aircraftIFR-equipped aircraftin-production aircraftinterrogating aircraftintratheater airlift aircraftintratheater lift aircraftintruder aircraftinventory aircraftjamming aircraftjet aircraftjet-flap aircraftjet-flapped aircraftjet-powered aircraftjet-propelled aircraftjoined-wing aircraftJTIDS aircraftjump aircraftK/s like aircraftkit-based aircraftkit-built aircraftland aircraftland-based aircraftlarge aircraftlarge-production-run aircraftlaunch aircraftlaunching aircraftlead aircraftleading aircraftleased aircraftLevel 1 aircraftlift plus lift-cruise aircraftlight aircraftlight-powered aircraftlighter-than-air aircraftlong-haul aircraftlong-winged aircraftlongitudinally unstable aircraftlook-down, shoot-down capable aircraftlow-boom aircraftlow-cost aircraftlow-observability aircraftlow-observable aircraftlow-powered aircraftlow-rate production aircraftlow-RCS aircraftlow-speed aircraftlow-time aircraftlow-to-medium speed aircraftlow-wing aircraftlow-winged aircraftlowest weight aircraftMach 2 aircraftman-powered aircraftmanned aircraftmarginally stable aircraftmechanically-controlled aircraftmechanically-signalled aircraftmedevac-equipped aircraftmicrolight aircraftmicrowave-powered aircraftmid-wing aircraftmid-winged aircraftminimum weight aircraftmission aircraftmission-ready aircraftmultibody aircraftmultimission aircraftmultipropeller aircraftmultipurpose aircraftnarrow-bodied aircraftnaturally unstable aircraftneutrally stable aircraftnew-built aircraftnew-technology aircraftnight fighting aircraftnight-capable aircraftnight-equipped aircraftnonagile aircraftnonalert aircraftnonautomated aircraft1950s-vintage aircraftnonflying test aircraftnonpressurized aircraftnonstealth aircraftnontransponder-equipped aircraftnonpropulsive-lift aircraftnortheastwardly launching aircraftnuclear-hardened aircraftnuclear-strike aircraftoblique-wing aircraftocean patrol aircraftoff-the-shelf aircraftoffensive aircraftolder-generation aircraftout-of-production aircraftoutbound aircraftpace aircraftparasol-winged aircraftparked aircraftpartial mission-capable aircraftpatrol aircraftpiston aircraftpiston-engine aircraftpiston-powered aircraftpiston-prop aircraftpivoting oblique wing aircraftpoint-design aircraftpowered-lift aircraftprecision strike aircraftprobe-equipped aircraftproduction aircraftproduction-line aircraftproof-of-concept aircraftprop-rotor aircraftpropeller aircraftpropeller-powered aircraftpropulsive-lift aircraftprototype aircraftpublic-transport aircraftpurpose-built aircraftpusher aircraftpusher-propelled aircraftquad-rotor aircraftradar test aircraftRAM-treated aircraftready aircraftrear-engined aircraftreceiving aircraftrecent-technology aircraftreconnaissance aircraftrefueling aircraftremanufactured aircraftresearch aircraftretrofit aircraftRogallo-winged aircraftrollout aircraftrotary-wing aircraftrotary-winged aircraftrotodome-equipped aircraftsafely spinnable aircraftscaled-down aircraftscaled-up aircraftscissor-wing aircraftsea-based aircraftsecond-hand aircraftself-repairing aircraftsensor-carrying aircraftshort range aircraftshort takeoff and vertical landing aircraftshort-coupled flying wing aircraftshort-haul aircraftside-inlet aircraftsideslipping aircraftsilent aircraftsingle engine aircraftsingle-pilot aircraftsingle-service aircraftsized aircraftsized optimized aircraftslender-delta aircraftSLEPed aircraftsmall-tailed aircraftsmuggler aircraftsolar-powered aircraftspecial operations aircraftspin-proof aircraftspinning aircraftstatically stable aircraftstatically unstable aircraftstealth aircraftstealthy aircraftSTOL aircraftstopped-rotor aircraftstored aircraftSTOVL aircraftstraight-tube aircraftstraight-wing aircraftstraight-winged aircraftstretched aircraftstrike aircraftstrike-control aircraftsub-scale aircraftsubmarine communications relay aircraftsunken aircraftsuperaugmented aircraftsupersonic cruise aircraftsupportable aircraftsurveillance aircraftswing-wing aircraftT-tail aircrafttactical aircrafttactical-type aircrafttail-aft aircrafttail-first aircrafttailless aircrafttailwheel aircrafttandem-seat aircrafttandem-wing aircrafttarget-towing aircraftTCAS-equipped aircrafttest aircraftthreat aircraftthree-pilot aircraftthree-surface aircraftthrust-vector-control aircrafttilt-fold-rotor aircrafttilt-proprotor aircrafttilt-rotor aircrafttilt-wing aircrafttop-of-the-range aircrafttrailing aircrafttrainer cargo aircrafttrajectory stable aircrafttransoceanic-capable aircrafttransonic aircrafttransonic maneuvering aircrafttransport aircrafttransport-size aircrafttrimmed aircrafttrisurface aircrafttug aircraftturbine-powered aircraftturboprop aircraftturbopropeller aircraftTVC aircrafttwin-aisle aircrafttwin-engined aircrafttwin-fuselage aircrafttwin-jet aircrafttwin-tailed aircrafttwin-turboprop aircrafttwo-aircrew aircrafttwo-crew aircrafttwo-pilot aircrafttwo-place aircraftultrahigh-bypass demonstrator aircraftultralight aircraftundesignated aircraftunpressurized aircraftunslatted aircraftutility aircraftV/STOL aircraftvariable-stability aircraftVATOL aircraftvector thrust controlled aircraftvectored aircraftvectored thrust aircraftversatile aircraftvertical attitude takeoff and landing aircraftVFR aircraftviolently maneuvering aircraftVTOL aircraftwater tanker aircraftweapons-delivery test aircraftweight-shift aircraftwell-behaved aircraftwide-body aircraftwing-in-ground effect aircraftX aircraftX-series aircraftX-wing aircraftyaw-vane-equipped aircraft -
5 kaczka
- ki; -ki; dat sg -ce; gen pl; -ek; fkaczka dziennikarska — (przen) canard
* * *f.Gen.pl. -ek1. orn. duck ( Anatidae); puszczać kaczki play ducks and drakes; kaczka dziennikarska przen. canard, journalistic hoax.2. ( do oddawania moczu) bed urinal.3. lotn. canard, tail-first aircraft.The New English-Polish, Polish-English Kościuszko foundation dictionary > kaczka
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6 andefly
subst. tail-first aircraft -
7 missile
ракета; реактивный снаряд, см. тж. rocketatomic(-armed, -capable, -equipped, -tipped) missile — ракета с ядерной боевой частью
delayed impact space missile — орбитальная [космическая] ракета с запрограммированным по времени отделением головной или боевой части
ECM carrying missile — ракета радиопротиводействия, ракета — постановщик помех; противорадиолокационная ракета
infrared(-guided, -homing) missile — ракета с тепловой головкой самонаведения
land-based(-borne, -launched) missile — ракета, запускаемая с земли, ракета наземного базирования
liquid(-fuel, -fueled, -propellant) missile — ракета с ЖРД, жидкостная ракета
lock a missile on the target — наводить ракету на цель; захватывать цель головкой самонаведения ракеты
nuclear(-armed, -capability) missile — ракета с ядерной боевой частью
place missile on target — накрывать [поражать] цель ракетой
production(-line, -type) missile — серийная ракета, ракета серийного образца
rocket(-powered, -propelled) missile — ракета
solid(-fueled, -propellant) missile — твердотопливная ракета, ракета с РДТТ
trigger off a missile — производить пуск ракеты; подрывать ракету или боевую часть ракеты
warm up the missile — подготавливать ракету к пуску; прогревать аппаратуру ракеты
— - ship missile -
8 Blériot, Louis
SUBJECT AREA: Aerospace[br]b. 1 July 1872 Cambrai, Franced. 2 August 1936 Paris, France[br]French aircraft manufacturer and pilot who in 1909 made the first flight across the English Channel in an aeroplane.[br]Having made a fortune with his patented automobile lamp, Blériot started experimenting with model aircraft in about 1900. He tried a flapping-wing layout which, surprisingly, did fly, but a full-size version was a failure. Blériot tried out a wide variety of designs: a biplane float-glider built with Gabriel Voisin; a powered float-plane with ellipsoidal biplane wings; a canard (tail-first) monoplane; a tandem monoplane; and in 1907 a monoplane of conventional layout. This last was not an immediate success, but it led to the Type XI in which Blériot made history by flying from France to England on 25 July 1909.Without a doubt, Blériot was an accomplished pilot and a successful manufacturer of aircraft, but he sometimes employed others as designers (a fact not made known at the time). It is now accepted that much of the credit for the design of the Type XI should go to Raymond Saulnier, who later made his name with the Morane-Saulnier Company.Blériot-Aéronautique became one of the leading manufacturers of aircraft and by the outbreak of war in 1914 some eight hundred aircraft had been produced. By 1918, aircraft were being built at the rate of eighteen per day. The Blériot company continued to produce aircraft until it was nationalized in 1937.[br]Principal Honours and DistinctionsCommandeur de la Légion d'honneur. Daily Mail £1,000 prize for the first cross-Channel aeroplane flight.Further ReadingC.H.Gibbs-Smith, 1965, The Invention of the Aeroplane 1799–1909, London (contains a list of all Blériot's early aircraft).J.Stroud, 1966, European Transport Aircraft since 1920, London (for information about Blériot's later aircraft).For information relating to the cross-Channel flight, see: C.Fontaine, 1913, Comment Blériota traversé la, Manche, Paris.T.D.Crouch, 1982, Blériot XI, the Story of a Classic Aircraft, Washington, DC: National Air \& Space Museum.JDS -
9 Focke, E.H.Heinrich
SUBJECT AREA: Aerospace[br]b. October 1890 Bremen, Germanyd. February 1979 Bremen, Germany[br]German aircraft designer who was responsible for the first practical helicopter, in 1936.[br]Between 1911 and 1914 Heinrich Focke and Georg Wulf built a monoplane and some years later, in 1924, they founded the Focke-Wulf company. They designed and built a variety of civil and military aircraft including the F 19Ente, a tail-first design of 1927. This canard layout was thought to be safer than conventional designs but, unfortunately, it crashed, killing Wulf. Around 1930 Focke became interested in rotary-wing aircraft, and in 1931 he set up a company with Gerd Achgelis to conduct research in this field. The Focke-Wulf company took out a licence to build Cierva autogiros. Focke designed an improved autogiro, the Fw 186, which flew in 1938; it was entered for a military competition, but it was beaten by a fixed-wing aircraft, the Fieseler Storch. In May 1935 Focke resigned from Focke-Wulf to concentrate on helicopter development with the Focke-Achgelis company. His first design was the Fa 61 helicopter, which utilized the fuselage and engine of a conventional aeroplane but instead of wings had two out-riggers, each carrying a rotor. The engine drove these rotors in opposite directions to counteract the adverse torque effect (with a single rotor the fuselage tends to rotate in the opposite direction to the rotor). Following its first flight on 26 June 1936, the Fa 61 went on to break several world records. However, it attracted more public attention when it was flown inside the huge Deutschlandhalle in Berlin by the famous female test pilot Hanna Reitsch in February 1938. Focke continued to develop his helicopter projects for the Focke-Achgelis company and produced the Fa 223 Drache in 1940. This used twin contra-rotating rotors, like the Fa 61, but could carry six people. Its production was hampered by allied bombing of the factory. During the Second World War Focke- Achgelis also produced a rotor kite which could be towed behind a U-boat to provide a flying "crow's nest", as well as designs for an advanced convertiplane (part aeroplane, part helicopter). After the war, Focke worked in France, the Netherlands and Brazil, then in 1954 he became Professor of Aeroplane and Helicopter Design at the University of Stuttgart.[br]Principal Honours and DistinctionsWissenschaftliche, Gesellschaft für Luftfahrt Lilienthal Medal, Prandtl-Ring.Bibliography1965, "German thinking on rotary-wing development", Journal of the Royal Aeronautical Society, (May).Further ReadingW.Gunston and J.Batchelor, 1977, Helicopters 1900–1960, London.J.R.Smith, 1973, Focke-Wulf: An Aircraft Album, London (primarily a picture book). R.N.Liptrot, 1948, Rotating Wing Activities in Germany during the Period 1939–45, London.K.von Gersdorff and K.Knobling, 1982, Hubschrauber und Tragschrauber, Munich (a more recent publication, in German).JDS -
10 MacCready, Paul
SUBJECT AREA: Aerospace[br]b. 29 September 1925 New Haven, Connecticut, USA[br]American designer of man-powered aeroplanes, one of which flew across the English Channel in 1979.[br]As a boy, Paul MacCready was an enthusiastic builder of flying model aeroplanes; he became US National Junior Champion in 1941. He learned to fly and became a pilot with the US Navy in 1943. he developed an interest in gliding in 1945 and became National Soaring Champion in 1948 and 1949. After graduating from the California Institute of Technology (Cal Tech) as a meteorologist, he set up Meteorological Research Inc. In 1953 MacCready became the first American to win the World Gliding Championship. When hang-gliders became popular in the early 1970s MacCready studied their performance and compared them with soaring birds: he came to the conclusion that man-powered flight was a possibility. In an effort to generate an interest in man-powered flight, a cash prize had been offered in Britain by Henry Kremer, a wealthy industrialist and fitness enthusiast. A man-powered aircraft had to complete a one-mile (1.6km) figure-of-eight course in order to win. However, the figure-of-eight proved to be a major obstacle and the prize money was increased over the years to £50,000. In 1976 MacCready and his friend Dr Peter Lissaman set to work on their computer and came up with their optimum design for a man-powered aircraft. The Gossamer Condor had a wing span of 96 ft (27.4 m), about the same as a Douglas DC-9 airliner, yet it weighed just 70 lb (32 kg). It was a tail-first design with a pedaldriven pusher propeller just behind the pilot. Bryan Allen, a biologist, pilot and racing cyclist, joined the team to provide the muscle-power. After over two hundred flights they were ready to make an attempt on the prize, and on 23 August 1977 they succeeded where many had failed, in 7 minutes. Kremer then offered £100,000 for the first manpowered flight across the English Channel. Many thought this would be impossible, but MacCready and his team set about the task of designing a new machine based on their Condor, which they called the Gossamer Albatross. Bryan Allen also had a major task: getting fit for a flight which might take three hours of pedalling. The weather was more of a problem than in California, and after a long delay the Gossamer Albatross took off, on 12 June 1979. After pedalling for 2 hours 49 minutes, Bryan Allen landed in France: it was seventy years since Blériot's flight, although Blériot was much quicker.[br]Principal Honours and DistinctionsWorld Gliding Champion 1953.Bibliography1979, "The Channel crossing and the future", Man Powered Aircraft Symposium, London: Royal Aeronautical Society.Further ReadingM.Grosser, 1981, Gossamer Odyssey, London (provides a brief biography and detailed accounts of the two aircraft).M.F.Jerram, 1980, Incredible Flying Machines, London (a short survey of pedal planes).Articles by Ron Moulton on the Gossamer Albatross appeared in Aerospace (Royal Aeronautical Society) London, August/September 1979, and the Aeromodeller, London, September 1979.JDS -
11 vehicle
(авто)транспортное средство; летательный аппарат; ракета, см. тж. aircraft, missile, spacecraft; растворитель, связующее веществоlimited power space vehicle — КЛА с силовой установкой ограниченной тяги [ограниченного ресурса работы]
multipurpose manned entry space vehicle — многоцелевой пилотируемый КЛА, рассчитанный на вход в атмосферу
nonspinning reentry space vehicle — КЛА, нестабилизируемый вращением при входе в атмосферу
nuclear(-powered, -propelled) vehicle — ЛА с ядерной силовой [двигательной] установкой
pogo-stick type lunar surface vehicle — аппарат с пружинным шестом для передвижения по лунной поверхности
space shuttle booster vehicle — ускоритель [стартовый двигатель] челночного воздушно-космического аппарата
spinning reentry space vehicle — КЛА, стабилизируемый вращением при входе в атмосферу
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12 design
1. проект; конструкция; схема <ЛА>/ проектный2. проектирование; разработка; конструирование; синтез/ проектировать; разрабатывать; конструировать; синтезировать3. расчет/ рассчитывать/ расчетныйсм. тж. design"clean-sheet-of-paper" designdesign for low vibrationdesign for supportabilitydesign to constraintsdesign to costaerodynamic designaerodynamically unstable designaircraft designairfoil designall-altitude designall-wing designamphibious designanalytical designarrow-wing designattached-flow designaugmentation designautopilot designavionics designbalanced designbaseline designbearingless designcanard designcockpit designcompensator designcomputerized designconceptual designconfiguration designconstrained designcontrol designcontrol augmentation designcontrol law designcontroller designcrew station designCTOL designdamage tolerant designdecoupled designdelta-wing designdelta-winged designdetail designdetailed designdisplay designdouble-scoop designdurability designelastic designfail-safe designfallback designfatigue designfeedback designfeedback loop designfighter designfilter designfinal production designfixed gain designfixed-sweep designflutter designflying knife designflying-wing designfracture mechanics designfrequency domain designfull-state designfull-scale designfully-stressed designhandling-qualities designhigh-tail designhigh-wing designhydrodynamic designin-house designinelastic designinlet designinput designiterative designjoined-wing designlaminate designland based designlanding gear designlayout designleast-mass designLyapunov designlift-plus-cruise designlinear regulator designlogic designlogistics designlong-nosed designlongitudinal designlow-boom designlow-cost designlow-wing designLQG/LTR designLQR designmacro-structural designmicro-structural designminimum weight designmultiple-input-multiple-output designnonrobust designoblique-wing designobserver designobserver-based designoptimum designoutboard-pivot designpitch designpodded designpoint designpowered-lift designpreliminary designpropeller designRALS designreduced order designreliability-conscious designrobust designroll-yaw designrotorcraft designsensitivity-reduction designshape optimal designsingle-finned designsingle-seat designstealth designSTOVL designstrengthened designstructural designsupport-conscious designswing-wing designsystem designT-tail designtail-aft designtail-first designtandem-wing designthermoelastic designthree-shaft designthree-surface designto design intorsional designtwin-boom designtwin-pod designtwo-shaft designtwo-spool designunconstrained designundercarriage designvortex-flow designVTOL designwashin designwashout designwheel designwide-body designWiener-Hopf designwing-winglet design -
13 configuration
конфигурация; схема; компоновка; вариант (ЛА) ; положение ( органов ЛА) ; форма; система размещения [расположения]; расположение тела в потокеcross-sectional configuration of grain — форма заряда (твёрдого ракетного топлива) в поперечном сечении
fully extended configuration of the wings — полностью развёрнутое положение крыла (изменяемой стреловидности)
fully swept configuration of the wings — полностью убранное положение крыла (изменяемой стреловидности)
multiple jato launching configuration — расположение нескольких ракетных ускорителей [стартовых двигателей]
one power-unit inoperative approach configuration — конфигурация для захода на посадку при одной неработающей двигательной установке
Englsh-Russian aviation and space dictionary > configuration
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14 layout
расположение; компоновка; ( аэродинамическая) схема; планировка; ( генеральный) план; разметка; выч. разбивка ( программы) -
15 landing
приземление; посадка; посадочныйlanding from 35 ft — посадочная дистанция с высоты 35 футов (10,5 м)
landing in cold temperature — посадка при низкой температуре (окружающего воздуха,)
practice a landing — тренироваться в посадке, отрабатывать посадку
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16 Fabre, Henri
SUBJECT AREA: Aerospace[br]b. 29 November 1882 Marseilles, Franced. June 1984 France[br]French engineer, designer of the first seaplane, in which he made the first flight from water.[br]After obtaining a degree in engineering, Fabre specialized in hydrodynamics. Around 1904 he developed an interest in flying and followed the progress of early French aviators such as Archdeacon, Voisin and Blériot who were experimenting with float-gliders. Fabre carried out many experiments during the following years, including airflow tests on various surfaces and hydrodynamic tests on different designs for floats. He also built a propeller-driven motor car to develop the most efficient design for a propeller. In 1909 he built his first "hydro-aeroplane", but it failed to fly. By March 1910 he built a new float plane which was very different from contemporary French aeroplanes. It was a tail-first (canard) monoplane and had unusual Warren girder spars exposed to the airstream. The engine was a conventional Gnome rotary mounted at the rear of the machine. On 28 March 1910 Fabre, who had no previous experience of flying, decided he was ready to test his hydro-aeroplane. First he made several straight runs to test the planing properties of his three floats, then he made several short hops. In the afternoon Fabre took off from the harbour at La Mède near Marseille before official witnesses: he was able to claim the first flight by a powered seaplane. His hydro-aeroplane is preserved in the Musée de l'Air et de l'Espace in Paris.Despite several accidents, Fabre continued to improve his design and in October of 1910 Glenn Curtiss, the American designer, visited Fabre to compare notes. A year later Curtiss built the first of his many successful seaplanes. Fabre did not continue as an aircraft designer, but he went on to design and manufacture floats for other people.[br]Bibliography1980, J'ai vu naître l'aviation, Grenoble (autobiography).JDS -
17 configuration
конфигурация, очертания; внешний вид; компоновка; схема [вариант] расположения (напр. позиций) см. тж. arrangement; outlay; scheme -
18 design
проект; расчёт; конструкция; схема (ЛА) ; рассчитывать; конструировать; расчётный; проектныйsolid propellant grain design — конструкция [форма] заряда твёрдого ракетного топлива
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19 system
система; комплекс; средство; способ; метод; сеть (напр. дорог) ;aiming-navigation system (analog, digital) — прицельно-навигационная система (аналоговая, цифровая)
air observation, acquisition and fire control system — (бортовая) система воздушной разведки, засечки целей и управления огнем
air support aircraft ECM (equipment) system — (бортовая) система РЭП для самолетов авиационной поддержки
airborne (ground) target acquisition and illumination laser system — ав. бортовая лазерная система обнаружения и подсветки (наземных) целей
airborne (ground) targeting and laser designator system — ав. бортовая лазерная система обнаружения и целеуказания (наземных целей)
airborne laser illumination, ranging and tracking system — ав. бортовая система лазерной подсветки, определения дальности и сопровождения цели
artillery (nuclear) delivery system — артиллерийская система доставки (ядерного) боеприпаса (к цели)
C2 system — система оперативного управления; система руководства и управления
C3 system — система руководства, управления и связи; система оперативного управления и связи
channel and message switching (automatic) communications system — АСС с коммутацией каналов и сообщений
country-fair type rotation system (of instruction) — метод одновременного обучения [опроса] нескольких учебных групп (переходящих от одного объекта изучения к другому)
dual-capable (conventional/nuclear) weapon delivery system — система доставки (обычного или ядерного) боеприпаса к цели
electromagnetic emitters identification, location and suppression system — система обнаружения, опознавания и подавления источников электромагнитных излучений [излучающих РЭС]
field antimissile (missile) system — полевой [войсковой] ПРК
fire-on-the-move (air defense) gun system — подвижный зенитный артиллерийский комплекс для стрельбы в движении [на ходу]
fluidic (missile) control system — ркт. гидравлическая [струйная] система управления полетом
forward (area) air defense system — система ПВО передового района; ЗРК для войсковой ПВО передового района
graduated (availability) operational readiness system — Бр. система поэтапной боевой готовности (частей и соединений)
high-resolution satellite IR detection, tracking and targeting system — спутниковая система с ИК аппаратурой высокой разрешающей способности для обнаружения, сопровождения целей и наведения средств поражения
ICBM (alarm and) early warning satellite system — спутниковая система обнаружения пусков МБР и раннего предупреждения (средств ПРО)
information storage, tracking and retrieval system — система накопления, хранения и поиска информации
instantaneous grenade launcher (armored vehicle) smoke system — гранатомет (БМ) для быстрой постановки дымовой завесы
Precision Location [Locator] (and) Strike system — высокоточная система обеспечения обнаружения и поражения целей; высокоточный разведывательно-ударный комплекс
rapid deceleration (parachute) delivery system — парашютная система выброски грузов с быстрым торможением
real time, high-resolution reconnaissance satellite system — спутниковая разведывательная система с высокой разрешающей способностью аппаратуры и передачей информации в реальном масштабе времени
received signal-oriented (output) jamming signal power-adjusting ECM system — система РЭП с автоматическим регулированием уровня помех в зависимости от мощности принимаемого сигнала
sea-based nuclear (weapon) delivery system — система морского базирования доставки ядерного боеприпаса к цели
small surface-to-air ship self-defense (missile) system — ЗРК ближнего действия для самообороны корабля
Status Control, Alerting and Reporting system — система оповещения, контроля и уточнения состояния [боевой готовности] сил и средств
surface missile (weapon) system — наземный [корабельный] РК
target acquisition, rapid designation and precise aiming system — комплекс аппаратуры обнаружения цели, быстрого целеуказания и точного прицеливания
— ABM defense system— antimissile missile system— central weapon system— countersurprise military system— laser surveying system— tank weapon system— vertical launching system— weapons system -
20 missile
управляемая ракета, УР; летящий осколок [обломок]; обстреливать ракетами; применять ракеты ( по цели) ; см. тж. rocketantiarmor(ed fighting vehicle) missile — противотанковая ракета, ПТУР
dual-capability (surface-to-air /surface-to-surface) missile — ракета наземного РК для поражения воздушных и наземных целей
forward area (air) defense missile — ракета войскового ЗРК; ракета комплекса ПВО передового района
HEAT-mine (scattering) multiple warhead AT missile — ПТУР с КБЧ, разбрасывающей ПТ кумулятивные мины
look-down, shoot-down missile — ракета, управляемая системой обеспечения, обнаружения и поражения целей в нижней полусфере (на фоне земли)
passive-radar homing warhead.air-toair missile — ракета воздушного боя с пассивной РЛ ГСН
— air interceptor missile— air-to-ground guided missile— antiair warfare missile— anti-antiaircraft missile— artillery ballistic missile— AT guided missile— battlefield support missile— chemical warhead missile— command guidance missile— counter-air-to-surface missile missile— counterballislic missile missile— counterradar homing missile— counterradiation homing missile— fast-reaction type missile— fire-and-forget guidance missile— fixed based missile— fixed land-based missile— free-flight missile— infantry-launched missile— mobile-based missile— multiple warheaded missile— nuclear warheaded missile— nuclear-armed missile— nuclear-fueled missile— penetration aid missile— radar-seeking standoff missile— rolling airframe missile— turbojet-propelled missile* * *• ракета• ракетный
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