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61 controllability
Englsh-Russian aviation and space dictionary > controllability
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62 computer
электронная вычислительная машина, ЭВМ; компьютер; вычислительное устройство, вычислитель4-D scheduling computeraircraft management computerATC computerautopilot computerbombing computercontrol computercontrol law computerdisplay drive computerdownlink computerfault-warning computerflight computerflight augmentation computerflight control computerflight director computerflight guidance computerflight management computerflight management guidance computerflight warning computerflight path computerfly-by-wire computergeneral avionics computerguidance computerhigh-speed computerHUD computerlateral computermission computermission management computermoving map computerNavier-Stokes computernavigation computeroptical computerpitch computersimulation computersimulator management computerspoiler/elevator computersystems computerTCAS computertelemetry computer -
63 response
реакция, поведение ( в ответ на воздействие) ; чувствительность ( прибора) ; динамические [частотные] характеристики; дв. приёмистостьairplane response to an attitude change — реакция самолёта на изменение углов пространственного положения
fuselage-bending response in turbulence — изгибные деформации фюзеляжа в условиях турбулентной атмосферы
heave-pitch response of aircraft — вертикальные и тангажные [продольные] колебания ЛА
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64 stall
срыв ( потока) ; срыв, сваливание ( самолёта) ; режим срыва [сваливания]; вводить или попадать в режим срыва [сваливания]; сваливаться ( о самолёте) ; останавливаться)full landing configuration stall — срыв [сваливание] в посадочной конфигурации 1-g stall срыв [сваливание] в горизонтальном прямолинейном полете (с единичной перегрузкой)
go into a stall — входить [попадать] в режим срыва [сваливания]
go out of stall — выходить из режима срыва [сваливания]
put an airplane into a stall — вводить самолёт в режим срыва [сваливания]
slow down to stall — гасить скорость до срыва [сваливания]
stall due to gusts — срыв [сваливание] вследствие воздействия воздушных порывов
stall in level flight — срыв [сваливание] в горизонтальном полете
stall in the clean configuration — срыв [сваливание] с убранными механизацией и шасси
stall in the takeoff configuration — срыв [сваливание] во взлетной конфигурации (шасси выпущено, закрылки отклонены на взлетный угол)
stall with full flaps — срыв [сваливание] при полностью отклонённых закрылках [с полностью выпущенными закрылками]
stall with no flaps — срыв [сваливание] при неотклонённых закрылках [с убранными закрылками]
stall with partial flaps — срыв [сваливание] при частично отклонённых закрылках [с частично выпущенными закрылками]
top and bottom rudder stall — срыв [сваливание] на вираже при смене (действия) рулей
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65 Lanchester, Frederick William
[br]b. 28 October 1868 Lewisham, London, Englandd. 8 March 1946 Birmingham, England[br]English designer and builder of the first all-British motor car.[br]The fourth of eight children of an architect, he spent his childhood in Hove and attended a private preparatory school, from where, aged 14, he went to the Hartley Institution (the forerunner of Southampton University). He was then granted a scholarship to the Royal College of Science, South Kensington, and also studied practical engineering at Finsbury Technical College, London. He worked first for a draughtsman and pseudo-patent agent, and was then appointed Assistant Works Manager of the Forward Gas Engine Company of Birmingham, with sixty men and a salary of £1 per week. He was then aged 21. His younger brother, George, was apprenticed to the same company. In 1889 and 1890 he invented a pendulum governor and an engine starter which earned him royalties. He built a flat-bottomed river craft with a stern paddle-wheel and a vertical single-cylinder engine with a wick carburettor of his own design. From 1892 he performed a number of garden experiments on model gliders relating to problems of lift and drag, which led him to postulate vortices from the wingtips trailing behind, much of his work lying behind the theory of modern aerodynamics. The need to develop a light engine for aircraft led him to car design.In February 1896 his first experimental car took the road. It had a torsionally rigid chassis, a perfectly balanced and almost noiseless engine, dynamically stable steering, epicyclic gear for low speed and reverse with direct drive for high speed. It turned out to be underpowered and was therefore redesigned. Two years later an 8 hp, two-cylinder flat twin appeared which retained the principle of balancing by reverse rotation, had new Lanchester valve-gear and a new method of ignition based on a magneto generator. For the first time a worm and wheel replaced chain-drive or bevel-gear transmission. Lanchester also designed the machinery to make it. The car was capable of about 18 mph (29 km/h): future cars of his travelled at twice that speed. From 1899 to 1904 cars were produced for sale by the Lanchester Engine Company, which was formed in 1898. The company had to make every component except the tyres. Lanchester gave up the managership but remained as Chief Designer, and he remained in this post until 1914.In 1907–8 his two-volume treatise Aerial Flight was published; it included consideration of skin friction, boundary-layer theory and the theory of stability. In 1909 he was appointed to the Government's Committee for Aeronautics and also became a consultant to the Daimler Company. At the age of 51 he married Dorothea Cooper. He remained a consultant to Daimler and worked also for Wolseley and Beardmore until 1929 when he started Lanchester Laboratories, working on sound reproduction. He also wrote books on relativity and on the theory of dimensions.[br]Principal Honours and DistinctionsFRS.Bibliographybht=1907–8, Aerial Flight, 2 vols.Further ReadingP.W.Kingsford, 1966, F.W.Lanchester, Automobile Engineer.E.G.Semler (ed.), 1966, The Great Masters. Engineering Heritage, Vol. II, London: Institution of Mechanical Engineers/Heinemann.IMcNBiographical history of technology > Lanchester, Frederick William
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66 aircraft
(мн. aircraft)1. n1) літальний апарат, ЛА; повітряне судно, ПС; літак; вертоліт, гелікоптер; проф. борт2) збірн. авіація2.◊aircraft in distress — ПС, що зазнає лиха
aircraft in missing — ПС, що зникло безвісти
aircraft in service — ПС, що експлуатується
aircraft is considered to be missing — ПС вважається таким, що зникло безвісти
aircraft on register — ПС, занесене до реєстру авіакомпанії
aircraft requiring assistance — ПС, що потребує допомоги
aircraft under command — ПС, кероване (диспетчерською службою)
aircraft under control — ПС, кероване (екіпажем)
to decelerate the aircraft to... — знижувати швидкість ПС до...
to fly an aircraft — пілотувати ПС; керувати повітряним судном
to follow up the aircraft — супроводжувати ПС; забезпечувати контроль польоту ПС
to install on the aircraft — монтувати [установлювати] на повітряному судні (напр. на крилі)
to land the aircraft — саджати [приземляти] ПС
to level the aircraft out — вирівнювати ПС (на заданій висоті); установлювати ПС у горизонтальне положення
to pull an aircraft — 1) брати штурвал на себе; 2) виводити ПС з пікірування
to reequip an aircraft — переобладнувати ПС; заміняти [замінювати] обладнання ПС
to release the aircraft — припиняти диспетчерський контроль (за польотом) повітряного судна; дозволити повітряному судну вийти з зони контролю
to restore an aircraft — відновлювати [(від)ремонтувати] ПС
to return the aircraft to flyable status — приводити ПС у стан льотної готовності (шляхом технічного доопрацювання)
to roll out the aircraft — 1) виводити ПС із крену; 2) викочувати ПС (з ангару)
to rotate an aircraft — відривати [піднімати] передню опору шасі повітряного судна (під час зльоту)
to steer an aircraft — вести ПС; керувати повітряним судном (під час руління)
to substitute the aircraft — заміняти [замінювати] ПС (на інше)
to trim the aircraft — балансувати [тримерувати] ПС
to vend an aircraft — поставляти [постачати] ПС (експлуатанту)
to warn the aircraft — попереджати [попереджувати] ПС (про небезпеку); остерегти [застерегти ] ПС (від небезпеки)
•- accelerator aircraft - active aircraft - active-cooling hypersonic aircraft - aerodynamically balanced aircraft - airborne aircraft - all-body aircraft - all-cargo aircraft - all-metal aircraft - all-purpose aircraft - all-weather aircraft - all-wing aircraft - ambulance aircraft - amphibian aircraft - approaching aircraft - arriving aircraft - attack aircraft - authorized aircraft - balanced aircraft - baseline aircraft - basic aircraft - boost-glide aircraft - business aircraft - canard aircraft - cargo aircraft - chartered aircraft - civil aircraft - clean aircraft - cleared aircraft - combat aircraft - combination aircraft - commuter-size aircraft - conflicting aircraft - conventional takeoff and landing aircraft - convertible aircraft - critical aircraft - damaged aircraft - delta-wing aircraft - departing aircraft - derived aircraft - disabled aircraft - double-decker aircraft - eastbound aircraft - enemy aircraft - entire aircraft - environmentally attuned aircraft - executive aircraft - experimental aircraft - feeder aircraft - first-generation aircraft - fixed-wing aircraft - fly-by-wire aircraft - folding-wing aircraft - following aircraft - forest patrol aircraft - forestry surveillance aircraft - freight aircraft - friendly aircraft - fuel-conservative aircraft - full-scale aircraft - general aircraft - general-purpose aircraft - handy aircraft - heavier-than-air aircraft - heavy aircraft - heavy transport aircraft - high-altitude aircraft - high-capacity aircraft - high-speed aircraft - high-time aircraft - high-wing aircraft - holding aircraft - hospital aircraft - hushkitted aircraft - hypersonic aircraft - hydrogen-fuelled aircraft - improperly loaded aircraft - inbound aircraft - in-coming aircraft - in-flight aircraft - in-service aircraft - instructional aircraft - interchanged aircraft - intruder aircraft - intruding aircraft - inward aircraft - irrepairable aircraft - jet aircraft - laden aircraft - land aircraft - land-based aircraft - laser-powered aircraft - leased aircraft - licensed aircraft - lift-fuselage aircraft - light aircraft - lighter-than-air aircraft - litter aircraft - long-bodied aircraft - long-distance aircraft - long-haul aircraft - long-range aircraft - long-range search aircraft - low annoyance aircraft - low-wing aircraft - mail-carrying aircraft - making way aircraft - manned aircraft - medium-range cargo aircraft - medium-range search aircraft - methane-fuelled aircraft - mid-wing aircraft - military aircraft - minishuttle launcher aircraft - missing aircraft - modern aircraft - modified aircraft - mother aircraft - multicrew aircraft - multi-engine aircraft - multiengined aircraft - multipurpose aircraft - narrow-body aircraft - NASP aircraft - nearly invisible aircraft - nonnoise certificated aircraft - oncoming aircraft - one-engined aircraft - originating aircraft - outbound aircraft - outdated aircraft - out-of-balance aircraft - outward aircraft - overweight aircraft - owner-operated aircraft - parked aircraft - passenger aircraft - passive-cooling hypersonic aircraft - patrol aircraft - piloted aircraft - piston aircraft - piston-engined aircraft - piston-powered aircraft - practice aircraft - preceding aircraft - preproduction aircraft - pressurized aircraft - production aircraft - profitable aircraft - prop-driven aircraft - propeller-driven aircraft - prototype aircraft - quiet aircraft - receiver aircraft - reconnaissance aircraft - reduced takeoff and landing aircraft - regular-body aircraft - research aircraft - rotary wing aircraft - RTOL aircraft - school aircraft - search aircraft - short-range aircraft - short-range search aircraft - short takeoff and landing aircraft - single-engine aircraft - small-size aircraft - solar powered aircraft - state aircraft - stayed afloat aircraft - stealth aircraft - STOL aircraft - stretched aircraft - subsonic aircraft - supersonic aircraft - training aircraft - transonic aircraft - transport aircraft - turboprop aircraft - twin-engine aircraft - twin-fuselage aircraft - ultra-large aircraft - under command aircraft - underway aircraft - unidentified aircraft - unlawfully seized aircraft - unmanned aircraft - unpressurized aircraft - used aircraft - vectored-thrust aircraft - vertical takeoff and landing aircraft - very long-range search aircraft - VTOL aircraft - widebody aircraft -
67 aircraft
воздушное судно, ВС; борт; летательный аппарат; самолёт; вертолётto alter an aircraft — дорабатывать конструкцию воздушного судна;
to bring the aircraft out — выводить воздушное судно (из крена);
to decel- erate the aircraft to... — снижать скорость воздушного судна до...
to enable the aircraft to — давать воздушному судну право (напр. на пролёт территории)
to fill an aircraft with — размещать в воздушном судне (груз, пассажиров)
to fly the aircraft — пилотировать воздушное судно, управлять воздушным судном
to follow up the aircraft — сопровождать воздушное судно; обеспечивать контроль полёта воздушного судна
to house an aircraft — размещать воздушное судно (напр. на долговременную стоянку)
to install on the aircraft — монтировать [устанавливать] на воздушном судне (напр. на крыле)
to jack an aircraft — вывешивать воздушное судно на подъёмниках;
to keep clear of the aircraft — держаться на безопасном расстоянии от воздушного судна (в процессе его движения)
to land the aircraft — приземлять [сажать] воздушное судно
to lead out the aircraft — выруливать воздушное судно с места стоянки;
to level the aircraft out — выравнивать воздушное судно (на заданной высоте); устанавливать воздушное судно в горизонтальное положение
to place the aircraft — устанавливать воздушное судно (напр. на оси ВПП)
2. выводить воздушное судно из пикированияto pull the aircraft out of — 1. брать штурвал на себя
to pull up the aircraft — подрывать [резко увеличивать] подъёмную силу воздушного судна
to register the aircraft — регистрировать воздушное судно;
to release the aircraft — прекращать (диспетчерский) контроль (за полётом) воздушного судна, разрешать воздушному судну выйти из зоны контроля;
to restore an aircraft — восстанавливать [ремонтировать] воздушное судно
to return an aircraft to flyable status — приводить воздушное судно в состояние лётной годности (путём технических доработок)
to return the aircraft to service — допускать воздушное судно к дальнейшей эксплуатации (напр. после ремонта)
to roll in the aircraft — вводить воздушное судно в крен;
2. выкатывать воздушное судно (напр. из ангара)to roll out the aircraft — 1. выводить воздушное судно из крена
to rotate the aircraft — отрывать [поднимать] переднюю опору шасси воздушного судна (при взлёте);
to space the aircraft — определять зону полёта воздушного судна;
to trim the aircraft — балансировать [триммировать] воздушное судно
— land-based aircraft— propeller-driven aircraft -
68 environment
(окружающая) среда; (внешние) условия; внешние факторы; внешние воздействия; (окружающая) обстановкаaerodynamic environmentair combat environmentair defense environmentavionics environmentcabin environmentCAS environmentchemical environmentclimatic environmentclose air support environmentclosed-loop environmentcockpit environmentcorrosive producting environmentcrash-impact environmentdesign environmentflight environmentg environmentground environmentheavy-jamming environmenthigh-threat environmenthigh-speed environmenthigh-stress environmenthigh-workload environmentin-service environmentinlet environmentload environmentlow-level flight environmentmaintenance environmentmaneuvering environmentmission environmentmultibogey environmentmultiphase environmentmulti-SAM environmentnap-of-the-earth environmentno-wind environmentoperating environmentoperational environmentpostattack ground environmentresource constrained environmentride environmentsalt-water environmentsimulator environmentstall environmentthreat environmentturbulent environmentvibration environmentvibration-free environmentvisual environmentwind environment -
69 Messerschmitt, Willi E.
SUBJECT AREA: Aerospace[br]b. 26 June 1898 Frankfurt-am-Main, Germanyd. 17 September 1978 Munich, Germany[br]German aircraft designer noted for successful fighters such as the Bf 109, one of the world's most widely produced aircraft.[br]Messerschmitt studied engineering at the Munich Institute of Tchnology and obtained his degree in 1923. By 1926 he was Chief Designer at the Bayerische Flugzeugwerke in Augsburg. Due to the ban on military aircraft in Germany following the First World War, his early designs included gliders, light aircraft, and a series of high-wing airliners. He began to make a major impact on German aircraft design once Hitler came to power and threw off the shackles of the Treaty of Versailles, which so restricted Germany's armed forces. In 1932 he bought out the now-bankrupt Bayerische Flugzeugwerke, but initially, because of enmity between himself and the German aviation minister, was not invited to compete for an air force contract for a single-engined fighter. However, in 1934 Messerschmitt designed the Bf 108 Taifun, a small civil aircraft with a fighter-like appearance. This displayed the quality of his design and the German air ministry was forced to recognize him. As a result, he unveiled the famous Bf 109 fighter which first flew in August 1935; it was used during the Spanish Civil War in 1936–9, and was to become one of the foremost combat aircraft of the Second World War. In 1938, after several name changes, the company became Messerschmitt Aktien-Gesellschaft (and hence a change of prefix from Bf to Me). During April 1939 a Messerschmitt aircraft broke the world air-speed record at 755.14 km/h (469.32 mph): it was entered in the FAI records as a Bf 109R, but was more accurately a new design designated Me 209V-1.During the Second World War, the 5/70P was progressively improved, and eventually almost 35,000 were built. Other successful fighters followed, such as the twin-engined Me 110 which also served as a bomber and night fighter. The Messerschmitt Me 262 twin-engined jet fighter, the first jet aircraft in the world to enter service, flew during the early years of the war, but it was never given a high priority by the High Command and only a small number were in service when the war ended. Another revolutionary Messerschmitt AG design was the Me 163 Komet, the concept of Professor Alexander Lippisch who had joined Messerschmitt's company in 1939; this was the first rocket-propelled fighter to enter service. It was a small tailless design capable of 880 km/hr (550 mph), but its duration under power was only about 10 minutes and it was very dangerous to fly. From late 1944 onwards it was used to intercept the United States Air Force bombers during their daylight raids. At the other end of the scale, Messerschmitt produced the Me 321 Gigant, a huge transport glider which was towed behind a flight of three Me 110s. Later it was equipped with six engines, but it was an easy target for allied fighters. This was a costly white elephant, as was his high-speed twin-engined Me 210 fighter-bomber project which nearly made his company bankrupt. Nevertheless, he was certainly an innovator and was much admired by Hitler, who declared that he had "the skull of a genius", because of the Me 163 Komet rocket-powered fighter and the Me 262.At the end of the war Messerschmitt was detained by the Americans for two years. In 1952 Messerschmitt became an aviation adviser to the Spanish government, and his Bf109 was produced in Spain as the Hispano Buchon for a number of years and was powered by Rolls-Royce Merlin engines. A factory was also constructed in Egypt to produce aircraft to Messerschmitt's designs. His German company, banned from building aircraft, produced prefabricated houses, sewing machines and, from 1953 to 1962, a series of bubble-cars: the KR 175 (1953–55) and the KR 200 (1955–62) were single-cylinder three-wheeled bubble-cars, and the Tiger (1958–62) was a twin-cylinder, 500cc four-wheeler. In 1958 Messerschmitt resumed aircraft construction in Germany and later became the Honorary Chairman of the merged Messerschmitt-Bölkow-Blohm company (now part of the Franco-German Eurocopter company).[br]Further Readingvan Ishoven, 1975, Messerschmitt. Aircraft Designer, London. J.Richard Smith, 1971, Messerschmitt. An Air-craft Album, London.Anthony Pritchard, 1975, Messerschmitt, London (describes Messerschmitt aircraft).JDS / CMBiographical history of technology > Messerschmitt, Willi E.
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70 tunnel
1. аэродинамическая труба, АДТ2. труба; канал; проход; лаз3. коридор < области полетов>access tunneladaptive wall wind tunnelarc tunnelbailout tunnelblowdown tunnelboundary layer wind tunnelcontinuous-flow tunnelcryogenic tunnelcryogenic wind tunnelflexible walled tunnelfree-flight tunnelfull-scale tunnelheated wind tunnelhelium tunnelhigh-speed wind tunnelhigh-temperature tunnelhypersonic tunnelhypersonic wind tunnelhypervelocity tunnelicing tunnelisentropic compression wind tunnellow-noise wind tunnellow-speed tunnellow-speed wind tunnelLudwieg tube wind tunnelmultiple arcjet wind tunnelnatural refrigeration wind tunnelopen jet wind tunnelscreened wind tunnelself-streamlining wind tunnelself-correcting wind tunnelslotted wind tunnelspin tunnelsubsonic wind tunnelsupersonic wind tunneltransonic tunneltransonic wind tunneltrisonic wind tunnelV/STOL tunnelwater tunnelwind tunnel -
71 stability
устойчивость; остойчивость ( гидросамолёта) ; стабильность ( пиротехнического состава) -
72 performance
1. (летно-технические) характеристики, ЛТХ; летные данные; (рабочая) характеристика;2. работа; действие; выполнение < задачи>3. эффективность; производительность; работоспособностьacquisition performanceaerodynamic performanceagile performanceagility performanceair-to-fuel performanceaircraft performanceaircrew performanceairfield performanceairship performancealgorithm performancealong track performancealtitude performancealtitude-velocity performanceantijam performanceapproach performanceautopilot performanceautorotation performanceautorotative performancebench throttle performancebipropellant performanceCAS performanceclimb performanceclosed-loop performancecold takeoff performancecontrol performancecontrol law performancecrew performancecross-track performancecruise performancecumulative performancedecision-height performancedeck performancedive bomb performanceenroute performanceEW performancefail-operational performancefan performanceFCS performancefield performancefilter performanceflap performanceflawless performanceflight manual performanceflutter-free performancefrequency-domain performanceground attack performanceguidance's performancegust alleviation performancehigh-speed performancehigh-AOA performancehot and high performancehot-day performancehover performancehover performance out of ground effecthovering performancehuman performanceinlet performanceinstalled performancelanding performanceLevel 2 performancelift performancelift-to-drag performancelimit performancelongitudinal performanceloop performancelow-speed performancemaneuver performancemaneuvering performancemid-mission landing performancemission performancemodel preview performancenear-optimum performancenonafterburning performanceouter-loop performanceoverland performancepayload/range performancephase and gain performancepilot performancepilot/vehicle performancepitch performancepitching performancepoint performancepost-stall performancepowered-lift performancepropeller performancepropeller-nacelle performancerated performancereverse-thrust performanceroll performancerolling performancerough ground performancerough-field performancerunway performancesafety performancesingle-engine performancesingle-engine takeoff performancesingle-engine-out performancespoiler performancesteady state performanceSTO performanceSTOL performancestopping performancesupersonic cruise performancesustained maneuver performancesustained turning performancetail-chase performancetakeoff and landing performancetakeoff performancetask performancetaxi performancethrottle performancetilt-rotor performancetime-domain performancetracking performancetransient performancetransition performanceturning performanceV/STOL performancevelocity performancevibration performancewarload/radius performancewet field performancewet runway performancewindmilling performance -
73 pass
заход ( на посадку) ; проход, пролет; прохождение; канал; пролетатьlow(-altitude, -level) pass — пролет на малой высоте
— pass low -
74 phase
фаза; стадия, этап; фазировать, синхронизировать по фазеatmospheric phase of launch — ркт. атмосферный этап или участок выведения
heliocentric phase of the mission — ксм. этап полёта по гелиоцентрической траектории
phase of the hop — разг. этап полёта
— phase in -
75 research
исследование, см. тж. exploration, investigation, study; научно-исследовательские работы -
76 boundary
граница; разграничительная линия; аэрд. стенка; граничный; пограничный -
77 computer
вычислительная машина; счётная линейка; счётно-решающее устройствоcentral air data computer — вычислитель [централь] воздушных данных
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78 engine
1) двигатель
2) машина-двигатель
3) мотостроительный
4) скоропечатный
5) мотор
6) механизм
7) орудие
8) инструмент
9) локомотив
10) моторный
– accelerate the engine
– air-breathing jet engine
– air-cooled engine
– aircraft engine
– altitude engine
– arc-heating jet engine
– atmospheric jet engine
– augmented engine
– axial engine
– basic engine
– beam engine
– birotary engine
– boat engine
– build up engine
– bypass engine
– carburetor engine
– carburettor engine
– compound engine
– compression-ignition engine
– cowl engine
– crank engine
– cross-head engine
– crosshead engine
– crude oil engine
– cruise engine
– decelerate the engine
– diaphragm engine
– diesel engine
– double-acting engine
– double-row engine
– ducted-fan engine
– electric engine
– engine bay
– engine bed
– engine block
– engine brake
– engine braking
– engine break-away
– engine capacity
– engine case
– engine control
– engine cowling
– engine cycle
– engine department
– engine flameout
– engine frame
– engine hatch
– engine is dead
– engine is generating
– engine is running
– engine misses
– engine motoring
– engine mounting
– engine nacelle
– engine performance
– engine pings
– engine press
– engine reconditioning
– engine relay
– engine room
– engine rpm indicator
– engine shutdown
– engine smokes
– engine speed
– engine stalls
– engine support
– engine telegraph
– engine throttle
– engine torque
– engine tune-up
– engine works
– engine yard
– explosion engine
– flood engine
– flush engine
– four-cycle engine
– four-stroke engine
– free-piston engine
– fuel-injection engine
– fuel-pump engine
– gas turbine jet engine
– gas-turbine engine
– gasoline engine
– geared engine
– heat engine
– heavy-oil engine
– high-speed engine
– hoist engine
– hot-bulb engine
– hydraulic engine
– hydrojet engine
– in-line engine
– industrial engine
– ion rocket jet engine
– jet engine
– jet engine fuel
– left-hand engine
– lift engine
– liquid-cooled engine
– liquid-propellant jet engine
– loop-scavenged engine
– low-compression engine
– low-speed engine
– marine engine
– micro engine
– multibank engine
– multicrank engine
– multinozzle engine
– multipropellant engine
– multirow engine
– non-reversible engine
– nuclear engine
– outboard engine
– overhauled engine
– overhead engine
– piston engine
– plate-measuring engine
– pod-type engine
– power of an engine
– prime engine
– production engine
– prototype engine
– pulsejet engine
– racing of engine
– radial engine
– ramjet engine
– relight engine
– restart of engine
– rev up engine
– reversible engine
– revving-up engine
– right-hand engine
– rocket engine
– rotary-piston engine
– run in engine
– self-ignition engine
– semidiesel engine
– short-stroke engine
– sing-acting engine
– spark-ignition engine
– stand-by engine
– start engine
– starting engine
– steam engine
– steering engine
– supercharged engine
– supercompression engine
– sustainer engine
– switch engine
– tear-down of engine
– traction engine
– tune engine
– turbo-ramjet engine
– turbocharged engine
– turbojet engine
– turboprop engine
– turborocket engine
– turboshaft engine
– two-cycle engine
– two-stroke engine
– uncooled engine
– unsupercharged engine
– variable-stroke engine
– vectored-thrust engine
– Vee of engine
– Wankel engine
– water-cooled engine
aircraft engine mechanic — <aeron.> авиамоторист
back-pressure steam engine — паровая машина с противодавлением
bipropellant rocket engine — < rocket> двигатель двухкомпонентный
diesel locomotive engine — < railways> двигатель тепловозный
engine is installed as a unit — двигатель устанавливается в сборе
hybrid rocket engine — < rocket> двигатель ракетный комбинированный
jet engine starter system — <engin.> турбостартер
liquid-fuel rocket engine — <cosm.> двигатель реактивный жидкостный
liquid-propellant rocket engine — жидкостный ракетный двигатель
monopropellant rocket engine — < rocket> двигатель ракетный однокомпонентный
solid-propellant rocket engine — < rocket> двигатель ракетный твердотопливный
spontaneous ignition engine — < rocket> двигатель самореагирующий
twin ramjet engine — <engin.> двигатель прямоточнный спаренный
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79 operation
1) работа; функционирование2) матем. действие3) эксплуатация4) (технологическая) операция; процесс; цикл ( обработки)6) управление7) вчт. операция; команда8) предприятие•-
abnormal operation
-
acquisition operation
-
aerial operation
-
aerial survey operation
-
aerial work operation
-
aerobatics operation
-
aerospace operations
-
air-bumped-and-rinse operation
-
aircraft operations
-
air-lift well operation
-
airport facilities operation
-
alignment operation
-
all-weather operations
-
AND operation
-
approach operation
-
arithmetic operation
-
artificial-lift well operation
-
associated fire control operation
-
asynchronous operation
-
attached operation
-
attempted operation
-
attended operation
-
authorized operation
-
automated operation
-
automatic block operation
-
averaging operation
-
background operation
-
batch operation
-
bidirectional operation
-
bilevel operation
-
binary operation
-
bistable operation
-
bitwise operation
-
bit operation
-
blanking operation
-
blasting operation
-
blocking-off operation
-
bookkeeping operations
-
Boolean operation
-
both-way operation
-
brake test operation
-
braking operation
-
branch operation
-
breaking operation
-
bytewise operation
-
byte operation
-
cable operation
-
Carnot operation
-
carrier-recovery operation
-
cation-anion operation
-
caving operations
-
cavitation-free operation
-
centralized operation
-
channel operation
-
check operation
-
chipping-and-hauling operation
-
class A operation
-
class B operation
-
class C operation
-
climb to cruise operation
-
closing operation
-
CNC operation
-
cocurrent operation
-
coded operation
-
co-frequency operation
-
cold end operation
-
commercial operation
-
comparison operation
-
complete operation
-
concurrent operation
-
conjunction operation
-
continual harvesting operations
-
continuous operation
-
continuous-wave operation
-
control operation
-
counter-current operation
-
critical operation
-
cutting operation
-
cycle operation
-
declarative operation
-
decrement operation
-
demonstration operation
-
dependent manual operation
-
dependent power operation
-
diplex operation
-
disjunction operation
-
diversity operation
-
docked operation
-
docking operations
-
domestic operations
-
double-track operation
-
dredging operations
-
dressing operation
-
drifting operation
-
drilling and blasting operations
-
drilling operation
-
dual operation
-
dual-point operation
-
duplex operation
-
dyadic operation
-
emergency operation
-
engine run-up operation
-
en-route operation
-
except operation
-
exclusive OR operation
-
experimental operation
-
explosionproof operation
-
face operations
-
fail-safe operation
-
fail-soft operation
-
failure-free operation
-
false operation
-
fault tolerant operation
-
faulty operation
-
felling operation
-
ferry operation
-
field operation
-
final felling operations
-
finite reflux operation
-
fire control operation
-
fixed-cycle operation
-
fixed-point operation
-
flashing operation
-
floating-point operation
-
flowing well operation
-
foreground operation
-
forest harvesting operations
-
free-flier operation
-
free-flying operation
-
freight operation
-
fretting operation
-
fringe operation
-
full tree operations
-
full-duplex operation
-
gas-lift well operation
-
gate operation
-
general aviation operations
-
generic operation
-
get-home engine operation
-
half-duplex operation
-
hands-off operation
-
harvesting operations
-
hauling operation
-
helicopter logging operation
-
high-gain operation
-
high-speed operation
-
hot end operation
-
hot-stick operation
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housekeeping operation
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hydropacker plunger lift well operation
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idling engine operation
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IF-THEN operation
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illegal operation
-
impeded harmonic operation
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implication operation
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in-channel operation
-
increment operation
-
independent manual operation
-
individual-point operation
-
indoor operation
-
infinite reflux operation
-
in-phase operation
-
input/output operation
-
instruction operation
-
instrument flight rules operation
-
integer operation
-
international operations
-
iterative operation
-
jump operation
-
kernel operation
-
kiln operation
-
lagging power factor operation
-
landing operation
-
large-scale space operations
-
large-signal operation
-
leading power factor operation
-
leveling operation
-
level-off operation
-
linear operation
-
lock-on operation
-
logging operations
-
logical operation
-
loop operation
-
low flying operation
-
low-effort operation
-
low-gain operation
-
lumbering operation
-
machine operation
-
machining operation
-
maintenance operation
-
manual operation
-
marginal operation
-
measuring operation
-
mechanical operation
-
mechanized logging operations
-
melting operation
-
mill operation
-
minimally-manned operation
-
minimal operation
-
model operation
-
monadic operation
-
monostable operation
-
move operation
-
multicarrier operation
-
multimode operation
-
multiple operation
-
multiple-stream operation
-
multiple-unit operation
-
multiplex operation
-
NAND operation
-
no operation
-
no-load operation
-
noncentralized operation
-
noncommercial operations
-
noncondensing operation
-
nonextraction operation
-
nonfailure operation
-
nonresiduum operation
-
nonscheduled operations
-
nonslagging operation
-
NOR operation
-
normal pump operation
-
NOT operation
-
NOT-AND operation
-
NOT-OR operation
-
off-design operation
-
off-line operation
-
one-shot operation
-
one-step operation
-
on-line operation
-
on-off operation
-
open-air operation
-
open-hearth operation
-
opening operation
-
OR operation
-
outdoor operation
-
overburden operations
-
packet-mode operation
-
packet-switching operation
-
parallel operation
-
partial reflux operation
-
passenger operations
-
peak load operation
-
pleasure operation
-
point operation
-
point-to-point operation
-
positioning operation
-
post-drill operation
-
post-fault operation
-
power patrol operation
-
power station operation
-
power system operation
-
practice operation
-
predrill operation
-
primitive operation
-
products pipeline operation
-
pull-in operation
-
pulse laser operation
-
pulsed operation
-
punched tape operation
-
push-pull operation
-
push-push operation
-
quadrature operation
-
quantizing operation
-
quarry operation
-
rafting operation
-
read operation
-
real-time operation
-
refusing operation
-
remote operation
-
rendezvous operations
-
repetitive operation
-
rescue operations
-
reservoir operation
-
retarder operation
-
rotorcraft operations
-
rough engine operation
-
run-of-river operation
-
scale operation
-
scheduled operation
-
search operation
-
self-contained and self-monitored operation
-
semifinish operation
-
sensory operation
-
settling operation
-
shift operation
-
shunting operation
-
signal operation
-
simplex operation
-
simultaneous operation
-
single-block operation
-
single-contact operation
-
single-mode operation
-
single-pulse operation
-
single-step operation
-
sinking operation
-
slag-free operation
-
slag-tap operation
-
slightly manned operation
-
small-signal operation
-
solo supervised operation
-
solo operation
-
speed range operation
-
spike operation
-
stable operation
-
staggered-parallel operation
-
standby operation
-
starting engine operation
-
start-stop operation
-
staying operation
-
steady operation
-
steaming operation
-
steelmaking operation
-
step-and-repeat operation
-
step-by-step operation
-
stitch transfer operation
-
stone-free operation
-
storage operation
-
straight gas-lift well operation
-
string operation
-
studio operation
-
stump wood operation
-
suppressed-carrier operation
-
switch operation
-
switching operation
-
synchronous operation
-
tap-change operation
-
taxing operation
-
terminal operation
-
test operation
-
thinning operations
-
threading operation
-
throttled engine operation
-
timber-harvesting operations
-
total reflux operation
-
touchdown operation
-
track-while-scan operation
-
training operation
-
transfer operation
-
transient operation
-
tree length operations
-
trial operation
-
trouble-free operation
-
turbine operation
-
two-shift operation
-
two-vessel operation
-
typical operation
-
unary operation
-
unattended operation
-
unauthorized operation
-
underground operation
-
undocked operation
-
undocking operations
-
uninterrupted operation
-
unmanned operation
-
unthrottled engine operation
-
variable-load operation
-
vertical rotorcraft operation
-
water-system operation
-
well operation
-
whole tree operations
-
wide-open throttle operation
-
word operation
-
working operation
-
write operation
-
yard operation
-
year-round operations -
80 track
след; путь; линия ( фактического) пути; путевой угол; маршрут ( проложенный на карте) ; след колёс ( приземлившегося самолёта) ; ширина колеи ( шасси) ; окружность концов лопастей ( винта) ; дорога; дорожка; гусеница ( шасси) ; отметка ( ЛА на экране РЛС) ; самолёт ( наблюдаемый РЛС) ; рельсовый путь ( для испытаний) ; дорожка записи ( самописца) ; слежение, сопровождение; следить ( за целью), сопровождать ( цель) ; отслеживать, отрабатывать ( команду) ; описывать окружность ( о лопастях) ; прокладывать маршрут; находиться в конусе вращения ( несущего винта)be out of track — находиться вне плоскости [конуса] вращения лопастей (воздушного или несущего винта)
three bar flight director track — направление, задаваемое тремя линиями на пилотажном командном приборе
track of the flight — путь [маршрут] полёта, фактический маршрут полёта
track of the target aircraft — линия полёта воздушной цели; маршрут полёта самолёта-мишени
track to the eye — разг. путь (самолёта) к центру циклона
См. также в других словарях:
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