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1 aircraft radio laboratory
ARL, aircraft radio laboratoryEnglish-Russian dictionary of planing, cross-planing and slotting machines > aircraft radio laboratory
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2 aircraft radio laboratory
Военный термин: лаборатория авиационного радиооборудованияУниверсальный англо-русский словарь > aircraft radio laboratory
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3 Army Aircraft Radio Laboratory
[lang name="English"]AARL, Army Aircraft Radio LaboratoryEnglish-Russian dictionary of planing, cross-planing and slotting machines > Army Aircraft Radio Laboratory
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4 Army Aircraft Radio Laboratory
1) Военный термин: лаборатория радиооборудования ААУниверсальный англо-русский словарь > Army Aircraft Radio Laboratory
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5 ARL
1) Компьютерная техника: Abbreviated Rule Language2) Американизм: Army Research Laboratory3) Военный термин: Admiralty Research Laboratory, Aerial Reconnaissance Liaison, Air Reconnaissance Low, Airborne Reconnaissance Low, Arlington Research Laboratory, Army Radiation Laboratory, Army Research Lab, Army Research Library, Landing Craft Repair Ship, acceptable reliability level, aeromedical research laboratory, aeronautical research laboratory, aircraft radio laboratory4) Техника: air reconnaissance low altitude5) Химия: Axiom Right Left6) Сокращение: Aeronautical Research Laboratory (Australia), Aerospace Research Laboratories (USA), Airborne Reconnaissance Low (system), Airborne Reconnaissance Low programme (US Army), Applied Research Laboratory, University of Texas (USA), Army Research Laboratory (USA), Repair ship, small (USA), Arial, Average Remaining Lifetime7) Вычислительная техника: Access Rights List (Banyan, VINES)9) Воздухоплавание: Aerospace Research Laboratory (UK)10) Экология: Arctic Research Laboratory11) Деловая лексика: Approaching Real Life12) Сетевые технологии: access rights list, adjusted ring length, длина восстановленного кольца, список пользователей, имеющих право доступа13) Контроль качества: average run length14) Океанография: Air Resources Laboratory15) Общественная организация: America Responds with Love16) Федеральное бюро расследований: Anti-Riot Laws -
6 arl
1) Компьютерная техника: Abbreviated Rule Language2) Американизм: Army Research Laboratory3) Военный термин: Admiralty Research Laboratory, Aerial Reconnaissance Liaison, Air Reconnaissance Low, Airborne Reconnaissance Low, Arlington Research Laboratory, Army Radiation Laboratory, Army Research Lab, Army Research Library, Landing Craft Repair Ship, acceptable reliability level, aeromedical research laboratory, aeronautical research laboratory, aircraft radio laboratory4) Техника: air reconnaissance low altitude5) Химия: Axiom Right Left6) Сокращение: Aeronautical Research Laboratory (Australia), Aerospace Research Laboratories (USA), Airborne Reconnaissance Low (system), Airborne Reconnaissance Low programme (US Army), Applied Research Laboratory, University of Texas (USA), Army Research Laboratory (USA), Repair ship, small (USA), Arial, Average Remaining Lifetime7) Вычислительная техника: Access Rights List (Banyan, VINES)9) Воздухоплавание: Aerospace Research Laboratory (UK)10) Экология: Arctic Research Laboratory11) Деловая лексика: Approaching Real Life12) Сетевые технологии: access rights list, adjusted ring length, длина восстановленного кольца, список пользователей, имеющих право доступа13) Контроль качества: average run length14) Океанография: Air Resources Laboratory15) Общественная организация: America Responds with Love16) Федеральное бюро расследований: Anti-Riot Laws -
7 ARL
ARL, acceptable reliability level————————ARL, Бр Admiralty Research Laboratory————————ARL, aeromedical research laboratory————————ARL, aeronautical research laboratory————————ARL, aircraft radio laboratory————————ARL, Arctic Research Laboratory————————ARL, Arlington Research Laboratory————————ARL, Army Radiation LaboratoryEnglish-Russian dictionary of planing, cross-planing and slotting machines > ARL
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8 AARL
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9 AARL
[lang name="English"]AARL, Army Aeromedical Research Laboratory————————[lang name="English"]AARL, Army Aircraft Radio Laboratory————————[lang name="English"]AARL, Australian Aeronautical Research LaboratoryEnglish-Russian dictionary of planing, cross-planing and slotting machines > AARL
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10 ARL
1. acceptable reliability level - допустимый уровень надежности; приемлемый уровень надежности;2. aerial - антенна;3. air reconnaissance low altitude - воздушная разведка на низких высотах;4. Aircraft Radio Laboratory - Лаборатория авиационного радиооборудования;5. Army Radiation Laboratory - Радиационная лаборатория сухопутных войск -
11 AARL
Army Aircraft Radio Laboratory - Лаборатория авиационного радиооборудования сухопутных войск -
12 Watson-Watt, Sir Robert Alexander
[br]b. 13 April 1892 Brechin, Angus, Scotlandd. 6 December 1973 Inverness, Scotland[br]Scottish engineer and scientific adviser known for his work on radar.[br]Following education at Brechin High School, Watson-Watt entered University College, Dundee (then a part of the University of St Andrews), obtaining a BSc in engineering in 1912. From 1912 until 1921 he was Assistant to the Professor of Natural Philosophy at St Andrews, but during the First World War he also held various posts in the Meteorological Office. During. this time, in 1916 he proposed the use of cathode ray oscillographs for radio-direction-finding displays. He joined the newly formed Radio Research Station at Slough when it was opened in 1924, and 3 years later, when it amalgamated with the Radio Section of the National Physical Laboratory, he became Superintendent at Slough. At this time he proposed the name "ionosphere" for the ionized layer in the upper atmosphere. With E.V. Appleton and J.F.Herd he developed the "squegger" hard-valve transformer-coupled timebase and with the latter devised a direction-finding radio-goniometer.In 1933 he was asked to investigate possible aircraft counter-measures. He soon showed that it was impossible to make the wished-for radio "death-ray", but had the idea of using the detection of reflected radio-waves as a means of monitoring the approach of enemy aircraft. With six assistants he developed this idea and constructed an experimental system of radar (RAdio Detection And Ranging) in which arrays of aerials were used to detect the reflected signals and deduce the bearing and height. To realize a practical system, in September 1936 he was appointed Director of the Bawdsey Research Station near Felixstowe and carried out operational studies of radar. The result was that within two years the East Coast of the British Isles was equipped with a network of radar transmitters and receivers working in the 7–14 metre band—the so-called "chain-home" system—which did so much to assist the efficient deployment of RAF Fighter Command against German bombing raids on Britain in the early years of the Second World War.In 1938 he moved to the Air Ministry as Director of Communications Development, becoming Scientific Adviser to the Air Ministry and Ministry of Aircraft Production in 1940, then Deputy Chairman of the War Cabinet Radio Board in 1943. After the war he set up Sir Robert Watson-Watt \& Partners, an industrial consultant firm. He then spent some years in relative retirement in Canada, but returned to Scotland before his death.[br]Principal Honours and DistinctionsKnighted 1942. CBE 1941. FRS 1941. US Medal of Merit 1946. Royal Society Hughes Medal 1948. Franklin Institute Elliot Cresson Medal 1957. LLD St Andrews 1943. At various times: President, Royal Meteorological Society, Institute of Navigation and Institute of Professional Civil Servants; Vice-President, American Institute of Radio Engineers.Bibliography1923, with E.V.Appleton \& J.F.Herd, British patent no. 235,254 (for the "squegger"). 1926, with J.F.Herd, "An instantaneous direction reading radio goniometer", Journal ofthe Institution of Electrical Engineers 64:611.1933, The Cathode Ray Oscillograph in Radio Research.1935, Through the Weather Hours (autobiography).1936, "Polarisation errors in direction finders", Wireless Engineer 13:3. 1958, Three Steps to Victory.1959, The Pulse of Radar.1961, Man's Means to his End.Further ReadingS.S.Swords, 1986, Technical History of the Beginnings of Radar, Stevenage: Peter Peregrinus.KFBiographical history of technology > Watson-Watt, Sir Robert Alexander
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13 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 -
14 company
bulk petrol (transport) company — Бр. рота подвоза наливного (бестарного) горючего
Commando (oil gas extraction area) company — рота охраны и защиты (нефтегазовых промыслов), рота «команчо»
field company, RE — Бр. саперная рота
field survey company, RE — Бр. полевая топографическая рота инженерных войск
HQ company, US Army — штабная рота штаба СВ США
long-range (reconnaissance) patrol company — рота дальней [глубинной] разведки
special boat company, Royal Marines — Бр. особая [отдельная] рота десантных катеров МП
— AG's company— airborne infantry company— air-mission company light— commandos company— Rangers company— smoke generator company -
15 Williams, Sir Frederic Calland
SUBJECT AREA: Electronics and information technology[br]b. 26 June 1911 Stockport, Cheshire, Englandd. 11 August 1977 Prestbury, Cheshire, England[br]English electrical engineer who invented the Williams storage cathode ray tube, which was extensively used worldwide as a data memory in the first digital computers.[br]Following education at Stockport Grammar School, Williams entered Manchester University in 1929, gaining his BSc in 1932 and MSc in 1933. After a short time as a college apprentice with Metropolitan Vickers, he went to Magdalen College, Oxford, to study for a DPhil, which he was awarded in 1936. He returned to Manchester University that year as an assistant lecturer, gaining his DSc in 1939. Following the outbreak of the Second World War he worked for the Scientific Civil Service, initially at the Bawdsey Research Station and then at the Telecommunications Research Establishment at Malvern, Worcestershire. There he was involved in research on non-incandescent amplifiers and diode rectifiers and the development of the first practical radar system capable of identifying friendly aircraft. Later in the war, he devised an automatic radar system suitable for use by fighter aircraft.After the war he resumed his academic career at Manchester, becoming Professor of Electrical Engineering and Director of the University Electrotechnical Laboratory in 1946. In the same year he succeeded in developing a data-memory device based on the cathode ray tube, in which the information was stored and read by electron-beam scanning of a charge-retaining target. The Williams storage tube, as it became known, not only found obvious later use as a means of storing single-frame, still television images but proved to be a vital component of the pioneering Manchester University MkI digital computer. Because it enabled both data and program instructions to be stored in the computer, it was soon used worldwide in the development of the early stored-program computers.[br]Principal Honours and DistinctionsKnighted 1976. OBE 1945. CBE 1961. FRS 1950. Hon. DSc Durham 1964, Sussex 1971, Wales 1971. First Royal Society of Arts Benjamin Franklin Medal 1957. City of Philadelphia John Scott Award 1960. Royal Society Hughes Medal 1963. Institution of Electrical Engineers Faraday Medal 1972. Institute of Electrical and Electronics Engineers Pioneer Award 1973.BibliographyWilliams contributed papers to many scientific journals, including Proceedings of the Royal Society, Proceedings of the Cambridge Philosophical Society, Journal of the Institution of Electrical Engineers, Proceedings of the Institution of Mechanical Engineers, Wireless Engineer, Post Office Electrical Engineers' Journal. Note especially: 1948, with J.Kilburn, "Electronic digital computers", Nature 162:487; 1949, with J.Kilburn, "A storage system for use with binary digital computing machines", Proceedings of the Institution of Electrical Engineers 96:81; 1975, "Early computers at Manchester University", Radio \& Electronic Engineer 45:327. Williams also collaborated in the writing of vols 19 and 20 of the MIT RadiationLaboratory Series.Further ReadingB.Randell, 1973, The Origins of Digital Computers, Berlin: Springer-Verlag. M.R.Williams, 1985, A History of Computing Technology, London: Prentice-Hall. See also: Stibitz, George R.; Strachey, Christopher.KFBiographical history of technology > Williams, Sir Frederic Calland
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16 Appleton, Sir Edward Victor
[br]b. 6 September 1892 Bradford, Englandd. 21 April 1965 Edinburgh, Scotland[br]English physicist awarded the Nobel Prize for Physics for his discovery of the ionospheric layer, named after him, which is an efficient reflector of short radio waves, thereby making possible long-distance radio communication.[br]After early ambitions to become a professional cricketer, Appleton went to St John's College, Cambridge, where he studied under J.J.Thompson and Ernest Rutherford. His academic career interrupted by the First World War, he served as a captain in the Royal Engineers, carrying out investigations into the propagation and fading of radio signals. After the war he joined the Cavendish Laboratory, Cambridge, as a demonstrator in 1920, and in 1924 he moved to King's College, London, as Wheatstone Professor of Physics.In the following decade he contributed to developments in valve oscillators (in particular, the "squegging" oscillator, which formed the basis of the first hard-valve time-base) and gained international recognition for research into electromagnetic-wave propagation. His most important contribution was to confirm the existence of a conducting ionospheric layer in the upper atmosphere capable of reflecting radio waves, which had been predicted almost simultaneously by Heaviside and Kennelly in 1902. This he did by persuading the BBC in 1924 to vary the frequency of their Bournemouth transmitter, and he then measured the signal received at Cambridge. By comparing the direct and reflected rays and the daily variation he was able to deduce that the Kennelly- Heaviside (the so-called E-layer) was at a height of about 60 miles (97 km) above the earth and that there was a further layer (the Appleton or F-layer) at about 150 miles (240 km), the latter being an efficient reflector of the shorter radio waves that penetrated the lower layers. During the period 1927–32 and aided by Hartree, he established a magneto-ionic theory to explain the existence of the ionosphere. He was instrumental in obtaining agreement for international co-operation for ionospheric and other measurements in the form of the Second Polar Year (1932–3) and, much later, the International Geophysical Year (1957–8). For all this work, which made it possible to forecast the optimum frequencies for long-distance short-wave communication as a function of the location of transmitter and receiver and of the time of day and year, in 1947 he was awarded the Nobel Prize for Physics.He returned to Cambridge as Jacksonian Professor of Natural Philosophy in 1939, and with M.F. Barnett he investigated the possible use of radio waves for radio-location of aircraft. In 1939 he became Secretary of the Government Department of Scientific and Industrial Research, a post he held for ten years. During the Second World War he contributed to the development of both radar and the atomic bomb, and subsequently served on government committees concerned with the use of atomic energy (which led to the establishment of Harwell) and with scientific staff.[br]Principal Honours and DistinctionsKnighted (KCB 1941, GBE 1946). Nobel Prize for Physics 1947. FRS 1927. Vice- President, American Institute of Electrical Engineers 1932. Royal Society Hughes Medal 1933. Institute of Electrical Engineers Faraday Medal 1946. Vice-Chancellor, Edinburgh University 1947. Institution of Civil Engineers Ewing Medal 1949. Royal Medallist 1950. Institute of Electrical and Electronics Engineers Medal of Honour 1962. President, British Association 1953. President, Radio Industry Council 1955–7. Légion d'honneur. LLD University of St Andrews 1947.Bibliography1925, joint paper with Barnett, Nature 115:333 (reports Appleton's studies of the ionosphere).1928, "Some notes of wireless methods of investigating the electrical structure of the upper atmosphere", Proceedings of the Physical Society 41(Part III):43. 1932, Thermionic Vacuum Tubes and Their Applications (his work on valves).1947, "The investigation and forecasting of ionospheric conditions", Journal of theInstitution of Electrical Engineers 94, Part IIIA: 186 (a review of British work on the exploration of the ionosphere).with J.F.Herd \& R.A.Watson-Watt, British patent no. 235,254 (squegging oscillator).Further ReadingWho Was Who, 1961–70 1972, VI, London: A. \& C.Black (for fuller details of honours). R.Clark, 1971, Sir Edward Appleton, Pergamon (biography).J.Jewkes, D.Sawers \& R.Stillerman, 1958, The Sources of Invention.KFBiographical history of technology > Appleton, Sir Edward Victor
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17 airborne
airborne adjустановленный на воздушном суднеactual airborne timeвремя фактического нахождения в воздухеairborne aircraftвоздушное судно, находящееся в воздухеairborne antennaбортовая антеннаairborne avionicsбортовое электронное оборудованиеairborne equipmentбортовое оборудованиеairborne equipment errorпогрешность бортового оборудованияairborne error measurementсписание радиодевиации в полетеairborne guidance computerбортовой вычислитель управления полетомairborne hourлетный часairborne identification equipmentбортовая аппаратура опознаванияairborne instrumentбортовой приборairborne laboratoryбортовая лабораторияairborne moving target indicatorбортовой индикатор движущихся целейairborne partвоздушный участокairborne pathвоздушный участок траекторииairborne plotterбортовой курсографairborne proximity warning indicatorбортовой сигнализатор опасного сближенияairborne radarбортовая радиолокационная станцияairborne radioбортовая радиостанцияairborne radio installationбортовая радиоустановкаairborne search equipmentбортовое поисковое оборудованиеairborne segmentучасток маршрута полетаairborne sensorбортовой датчикairborne timeполетное времяairborne transducerбортовой преобразовательairborne transmitterбортовой передатчикairborne vehicleлетательный аппаратairborne weather equipmentбортовое метеорологическое оборудованиеairborne weather radarбортовой метеорологический радиолокаторairborne weightполетная массаmake the aircraft airborneотрывать воздушное судно от землиradar airborne weather systemбортовая метеорологическая радиолокационная системаtransponder airborneбортовой ответчик -
18 system
1) система
2) комплекс
3) совокупность
4) множество
5) область
6) схемный
7) устройство
8) системный
– adaptive system
– addressing system
– airdrop system
– antenna system
– arithmetic system
– blok system
– bus system
– c.m. system
– center-of-mass system
– classification system
– commutation system
– controlled system
– cooling system
– crossbar system
– cryoelectronic system
– deferlant system
– deflection system
– dial system
– distributed system
– double-current system
– doudecimal system
– draft system
– drainage system
– earth system
– ecological system
– encoder system
– energy system
– error-controlled system
– evaporator system
– exhaust system
– file system
– finder system
– floating-carrier system
– floating-point system
– focusing system
– fuel system
– gas-cleaning system
– gas-pressurized system
– ground system
– guidance system
– history of a system
– hot-water system
– hydraulic system
– identifiable system
– inertial system
– inteblock system
– Korsch system
– laboratory system
– Lesniewski system
– life-support system
– lightguiding system
– linear system
– monitoring system
– multimicroprocessor system
– multiple-data-set system
– non-autonomous system
– nondirector system
– number system
– parallel-feed system
– piece-rate system
– planetary system
– pneumatic system
– propulsion system
– prototype system
– public-address system
– quadrophonic system
– queuing system
– response of system
– right-handed system
– robot system
– safety-trip system
– sampled-data system
– scanning system
– sewage system
– shift system
– spraying system
– sprinkling system
– staff system
– stand-by system
– start-stop system
– start-up system
– storage system
– system behavior
– system check
– system debugging
– system design
– system failure
– system of equations
– system of imprimitivity
– system of wheels
– system reliability
– system topology
– tally system
– telephone system
– television system
– ten-step system
– timing system
– transmission system
– triangulation system
– triclinic system
– twelve-channel system
– two-particle system
– unattended system
– unstable system
– ventilation system
– video system
– warning system
– water-sludge system
– wellpoint system
aircraft electrical system — <aeron.> сеть бортовая электрическая
ample linear system — <math.> система линейная обильная
approach and docking system — <cosm.> система сближения и стыковки
automated/automatic landing system — <aeron.> система захода на посадку автоматизированная
automatic block system — < railways> автоблокировка
automatic deicing system — <aeron.> автомат противообледенительной системы
bang-bang control system — <comput.> система управления релейная
carrier frequency system — система передачи с частотным разделением каналов
Cartesian coordinate system — прямоугольная система координат
closed-circuit television system — <commun.> система телевидения невещательная
cycle matching system — <aeron.> навигация воздушная импульсная, система навигационная импульсная
differential selsyn system — дифсельсин, сельсин дифференциальный
digital counting system — <comput.> система отслеживающая цифровая
digital transmission system — <commun.> система передачи цифровая
disk operating system — <comput.> система операционная дисковая
dispatch telephone system — диспетчерская телефонная система
fiber-optics communication system — <commun.> система связи волоконно-оптическая
hereditarily generating system — наследственная система образующих
hexadecimal number system — шестнадцатиричная система счисления
information retrieval system — <comput.> система информационно-поисковая
integrated switching system — интегральная коммутационная система
itnegrated manufacturing system — комплексная автоматическая линия
jet engine starter system — <engin.> турбостартер
meteor-burst communication system — <commun.> система связи метеорная
microprocessor control system — микропроцессорная система управления
modular pneumatic-device system — система унифицированная агрегатная
modular programming system — <comput.> система модульного программирования
multipoint distribution system — многоадресная система распределения ТВ-программ
packet transmission system — система передачи с коммутацией пакетов сообщений
Pitot static system — <engin.> система ПВД
pulsed navigation system — <aeron.> навигация воздушная импульсная, система навигационная импульсная
quantum-mechanical readout system — <tech.> система считывающая квантовая
quasi-electronic switching system — квазиэлектронная система коммутации
reactor control system — <engin.> система управления и защиты
reactor protection system — <phys.> защита аварийная
receiver-amplifier crioelectric system — приемно-усилительная криоэлектронная система
remote-cylinder hydraulic system — раздельно—агрегатная гидросистема
resultant of system of forces — равнодействующая системы сил
satellite navigation system — <naut.> система навигационная космическая, система навигационная спутниковая
State System of Instruments — <engin.> система приборов Государственная
supervisory control system — <comput.> автодиспетчер
system of residual classes — <math.> система остаточных классов
telegraph block system — < railways> движение поездов по телеграфному соглашению
time interval system — < railways> разграничение поездов временем
time-division multiplex system — система передачи с временным разделением
unified radiotelemetry system — унифицированный радиотелеметрический комплекс
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19 system
1) система; комплекс2) совокупность•- absolutely consistent system - absolutely direct indecomposable system - absolutely free system - absolutely irreducible system - absolutely isolated system - allowable coordinate system - almost linear system - ample linear system - artificial feel system - automatic block system - automatic deicing system - binary relational system - binary-coded decimal system - block tooling system - Cartesian coordinate system - completely controllable system - completely ergodic system - completely hyperbolic system - completely identifiable system - completely integrable system - completely irreducible system - completely regular system - completely stable system - completely stratified system - complex number system - conical coordinate system - derivational formal system - differential equation system - differential selsyn system - digital counting system - digital transmission system - elliptic coordinate system - elliptic cylindrical coordinate system - externally inconsistent system - finite state system - finitely axiomatizable system - finitely presented system - fully characteristic quotient system - fundamental system of solutions - hydraulic lift system - integrated switching system - isomorphically embedded system - kernel normal system - linearly dependent system - linearly independent system - live hydraulic system - locking protection system - meteor-burst communication system - modular programming system - parabolic cylindrical coordinate system - permanent four-wheel drive system - pure independent system - radio telephone system - reactor protection system - real number system - receiver-amplifier crioelectric system - remote-cylinder hydraulic system - semantically consistent system - simply consistent system - simply incomplete system - simply ordered system - spherical coordinate system - strongly multiplicative system - structurally stable system - sufficiently general coordinate system - system of frequency curves - system of rational numbers - time multiplex system - time-division multiplex system - uniformly complete system - univalent system of notation - universal system of notation - weakly closed system - weighted number system -
20 ATR
1) Общая лексика: Asian-Pacific Region2) Компьютерная техника: Andy's Techno Rules, air transport rack3) Авиация: air turbo-rocket engine5) Военный термин: Alaska Trauma Registry, Annual Training Requirement, Anti Tank Rifle, Attack The Radical, Attack The Rim, Average True Range, achievement of test readiness, advanced tactical radar, air traffic regulations, air-launched trainer rocket, air-transportable rack, airborne target reconnaissance, airborne target relay, aircraft trouble report, antitank regiment, automatic target recognition, automatic test and repair, aviation training record, автоматическая система распознавания целей6) Техника: advanced thermal reactor, airturboramjet, analog tape recorder, antenna test range, antenna transmit-receiver, anti-transmitter-receiver, antitransmit-receive switch, automatic target recognizer, automatic test equipment, automatic translator, auxiliary transformer, average transfer rate, aviation technician, radar7) Математика: Almost Totally Real8) Религия: African Traditional Religion9) Телекоммуникации: Advanced Telecommunications Research10) Сокращение: (type abbreviation) Fleet ocean tug (fire-fighting), Achievement of Test Readiness (USA), Advanced Tactical Radar programme, Aided Target Recognition, Aided Target Recognizer, Air Transportability Racking, Air Transportable Racking (ARINC standard box sizes), Anti-Transmit-Receive, Automotive Test Rig, Autonomous Target Recognition, Franco-Italian Avions de Transport Regional, air transport radio, antitransmit-receive11) Физиология: Achilles tendon reflex, Atrophy, Automatic Tampon Removal, Automatic Tampon Remover12) Электроника: Anti-Transit-Receive13) Вычислительная техника: Automatic Terminal Recognition, audio tape recorder, Advanced Telecommunications Research laboratory (organization, Japan)14) Нефть: automatic tape reader16) Фирменный знак: Advanced Technologies And Research, Avion De Transport Regional17) Деловая лексика: Accuracy Timeliness Responsiveness18) ЕБРР: acid test ratio19) Полимеры: attenuated total reflectance20) Программирование: Answer To Reset21) Ядерная физика: Advanced Terminal Reactor22) Контроль качества: assembly test recording23) Сахалин Ю: Russian Authority Tracking Register (appended by nikulin K.)24) Авиационная медицина: arm tremor reaction25) Макаров: autothermal reforming process, НПВО, нарушенное полное отражение26) Ядерное оружие: атрибутивный риск27) Электротехника: advanced test reactor28) Должность: Art Therapist Registered29) Аэропорты: Atar, Mauritania30) НАСА: Above The Rest
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