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41 area
район; округ; площадь; участок; зона; область; пространство; категория ( действий); см. тж. ground; zonebooster (engine) disposal area — ркт. район сброса [падения] стартовых двигателей [(ракетных) ускорителей]
booster (engine) impact area — ркт. район сброса [падения] стартовых двигателей [(ракетных) ускорителей]
simulated (radioactive) contamination area — ложный [имитируемый] участок (радиоактивного) заражения
— amphibious objective area— armor killing area— artillery position area— dangerous area— delaying operations area— dropping area— gun area— hot area— killing area— lethality area— limited access area— MOS area— patrolling area— POL area— preference service area— radioactive contamination area— rallying area— recreation area— SAM launching area— uploading area -
42 support
поддержка; обеспечение; тыловое обеспечение; материально-техническое обеспечение; МТО; обслуживание; головной отряд ( авангарда) ; сторожевая застава; второй эшелон ( в обороне) ; тыловой отряд; поддерживать; обеспечивать; обслуживать;C3 support — обеспечение средствами оперативного управления и связи; обеспечение органов руководства, управления и связи
nuclear (weapons) logistical support — тыловое обеспечение [МТО] применения ЯО
nuclear (weapons) logistics support — тыловое обеспечение [МТО] применения ЯО
— chemical corps support— cryptologistics support— logistical support— munitions logistic support— transportation support -
43 alternate heliport
A heliport to which a helicopter may proceed when it becomes either impossible or inadvisable to proceed to or to land at the heliport of intended landing. Alternate heliports include the following:Take-off alternate. An alternate heliport at which a helicopter can land should this become necessary shortly after take-off and it is not possible to use the heliport of departure.En-route alternate. A heliport at which a helicopter would be able to land after experiencing an abnormal or emergency condition while en route.Destination alternate. An alternate heliport to which a helicopter may proceed should it become either impossible or inadvisable to land at the heliport of intended landing.Note.─ The heliport from which a flight departs may be an en-route or a destination alternate heliport for that flight.Official definition modified by Amdt 12 to An 6/III (2007).Вертодром, куда может следовать вертолет в том случае, если невозможно или нецелесообразно следовать до вертодрома намеченной посадки или производить на нем посадку. К запасным относятся следующие вертодромы:Запасной вертодром при взлете. Запасной вертодром, на котором вертолет может произвести посадку, если в этом возникает необходимость вскоре после взлета и не представляется возможным использовать вертодром вылета.Запасной вертодром на маршруте. Вертодром, на котором вертолет сможет произвести посадку в том случае, если во время полета по маршруту оно оказалось в нештатной или аварийной обстановке.Запасной вертодром пункта назначения. Запасной аэродром, куда может следовать вертолет в том случае, если невозможно или нецелесообразно производить посадку на вертодроме намеченной посадки.Примечание. Вертодром, с которого производится вылет воздушного судна, также может быть запасным вертодромом на маршруте или запасным вертодромом пункта назначения для данного воздушного судна.International Civil Aviation Vocabulary (English-Russian) > alternate heliport
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44 Sikorsky, Igor Ivanovich
SUBJECT AREA: Aerospace[br]b. 25 May 1889 Kiev, Ukrained. 26 October 1972 Easton, Connecticut, USA[br]Russian/American pioneer of large aeroplanes, flying boats, and helicopters.[br]Sikorsky trained as an engineer but developed an interest in aviation at the age of 19 when he was allowed to spend several months in Paris to meet French aviators. He bought an Anzani aero-engine and took it back to Russia, where he designed and built a helicopter. In his own words, "It had one minor technical problem—it would not fly—but otherwise it was a good helicopter".Sikorsky turned to aeroplanes and built a series of biplanes: by 1911 the 5–5 was capable of flights lasting an hour. Following this success, the Russian-Baltic Railroad Car Company commissioned Sikorsky to build a large aeroplane. On 13 May 1913 Sikorsky took off in the Grand, the world's first four-engined aeroplane. With a wing span of 28 m (92 ft) it was also the world's largest, and was unique in that the crew were in an enclosed cabin with dual controls. The even larger Ilia Mourometz flew the following year and established many records, including the carriage of sixteen people. During the First World War many of these aircraft were built and served as heavy bombers.Following the revolution in Russia during 1917, Sikorsky emigrated first to France and then the United States, where he founded his own company. After building the successful S-38 passenger-carrying amphibian, the Sikorsky Aviation Corporation became part of the United Aircraft Corporation and went on to produce several large flying boats. Of these, the four-engined S-42 was probably the best known, for its service to Hawaii in 1935 and trial flights across the Atlantic in 1937.In the late 1930s Sikorsky once again turned his attention to helicopters, and on 14 September 1939 his VS-300 made its first tentative hop, with Sikorsky at the controls. Many improvements were made and on 6 May 1941 Sikorsky made a record-breaking flight of over 1½ hours. The Sikorsky design of a single main lifting rotor combined with a small tail rotor to balance the torque effect has dominated helicopter design to this day. Sikorsky produced a long series of outstanding helicopter designs which are in service throughout the world.[br]Principal Honours and DistinctionsChevalier de la Légion d'honneur 1960. Presidential Certificate of Merit 1948. Aeronautical Society Silver Medal 1949.Bibliography1971, "Sixty years in flying", Aeronautical Journal (Royal Aeronautical Society) (November) (interesting and amusing).1938, The Story of the Winged S., New York; 1967, rev. edn.Further ReadingD.Cochrane et al., 1990, The Aviation Careers of Igor Sikorsky, Seattle.K.N.Finne, 1988, Igor Sikorsky: The Russian Years, ed. C.J.Bobrow and V.Hardisty, Shrewsbury; orig. pub. in Russian, 1930.F.J.Delear, 1969, Igor Sikorsky: His Three Careers in Aviation, New York.JDSBiographical history of technology > Sikorsky, Igor Ivanovich
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45 center
центр; пункт; пост; узел; середина; научпо-иселсдовагсльскпй центр, НИЦ; выводить на середину; арт. корректировать; центрировать;air C3 center — центр руководства, управления и связи ВВС
general supply (commodity) center — центр [пункт] снабжения предметами общего предназначения
hard launch (operations) control center — ркт. центр [пункт] управления пуском, защищенный от (поражающих факторов) ЯВ
launch (operations) control center — ркт. пункт управления стартового комплекса [пуском ракет]
tactical fighter weapons (employment development) center — центр разработки способов боевого применения оружия истребителей ТА
— all-sources intelligence center— C center— combat control center— educational center— logistical operations center— logistics services center— operational center— secured communications center— skill development center -
46 Cayley, Sir George
SUBJECT AREA: Aerospace[br]b. 27 December 1773 Scarborough, Englandd. 15 December 1857 Brompton Hall, Yorkshire, England[br]English pioneer who laid down the basic principles of the aeroplane in 1799 and built a manned glider in 1853.[br]Cayley was born into a well-to-do Yorkshire family living at Brompton Hall. He was encouraged to study mathematics, navigation and mechanics, particularly by his mother. In 1792 he succeeded to the baronetcy and took over the daunting task of revitalizing the run-down family estate.The first aeronautical device made by Cayley was a copy of the toy helicopter invented by the Frenchmen Launoy and Bienvenu in 1784. Cayley's version, made in 1796, convinced him that a machine could "rise in the air by mechanical means", as he later wrote. He studied the aerodynamics of flight and broke away from the unsuccessful ornithopters of his predecessors. In 1799 he scratched two sketches on a silver disc: one side of the disc showed the aerodynamic force on a wing resolved into lift and drag, and on the other side he illustrated his idea for a fixed-wing aeroplane; this disc is preserved in the Science Museum in London. In 1804 he tested a small wing on the end of a whirling arm to measure its lifting power. This led to the world's first model glider, which consisted of a simple kite (the wing) mounted on a pole with an adjustable cruciform tail. A full-size glider followed in 1809 and this flew successfully unmanned. By 1809 Cayley had also investigated the lifting properties of cambered wings and produced a low-drag aerofoil section. His aim was to produce a powered aeroplane, but no suitable engines were available. Steam-engines were too heavy, but he experimented with a gunpowder motor and invented the hot-air engine in 1807. He published details of some of his aeronautical researches in 1809–10 and in 1816 he wrote a paper on airships. Then for a period of some twenty-five years he was so busy with other activities that he largely neglected his aeronautical researches. It was not until 1843, at the age of 70, that he really had time to pursue his quest for flight. The Mechanics' Magazine of 8 April 1843 published drawings of "Sir George Cayley's Aerial Carriage", which consisted of a helicopter design with four circular lifting rotors—which could be adjusted to become wings—and two pusher propellers. In 1849 he built a full-size triplane glider which lifted a boy off the ground for a brief hop. Then in 1852 he proposed a monoplane glider which could be launched from a balloon. Late in 1853 Cayley built his "new flyer", another monoplane glider, which carried his coachman as a reluctant passenger across a dale at Brompton, Cayley became involved in public affairs and was MP for Scarborough in 1832. He also took a leading part in local scientific activities and was co-founder of the British Association for the Advancement of Science in 1831 and of the Regent Street Polytechnic Institution in 1838.[br]BibliographyCayley wrote a number of articles and papers, the most significant being "On aerial navigation", Nicholson's Journal of Natural Philosophy (November 1809—March 1810) (published in three numbers); and two further papers with the same title in Philosophical Magazine (1816 and 1817) (both describe semi-rigid airships).Further ReadingL.Pritchard, 1961, Sir George Cayley, London (the standard work on the life of Cayley).C.H.Gibbs-Smith, 1962, Sir George Cayley's Aeronautics 1796–1855, London (covers his aeronautical achievements in more detail).—1974, "Sir George Cayley, father of aerial navigation (1773–1857)", Aeronautical Journal (Royal Aeronautical Society) (April) (an updating paper).JDS -
47 force(s)
сила; группа; группировка; формирования; части и соединения [подразделения]; мор. отряд; соединение; pl. войска, силы; вооруженные силы, ВС; форсироватьACE mobile force(s), Air — мобильные ВВС ОВС НАТО в Европе
ACE mobile force(s), Land — мобильные СВ ОВС НАТО в Европе
Air forces, Gulf — Бр. ВВС в районе Персидского залива
Air forces, Northern Army Group BBC — Северной группы армий (ОВС НАТО в Европе)
Allied forces, Central [Northern, Southern] Europe — ОВС НАТО на Центрально-Европейском [Северо-Европейском, Южно-Европейском] ТВД
Allied forces, Europe OBC — НАТО в Европе
Allied Land forces, Northern [Southern] Europe — ОСВ НАТО на Северо-Европейском [Южно-Европейском] ТВД
Allied Naval forces, Northern [Southern] Europe — ОВМС НАТО на Северо-Европейском [Южно-Европейском] ТВД
carrier submarine detection [search] and striking force — ПЛ авианосная поисково-ударная группа
earmarked (for assignment) forces — войска [силы], выделенные [предназначенные] для передачи в оперативное подчинение (командования НАТО)
insert a force (into the area) — высаживать десант; десантировать (часть, подразделение)
mobile logistical (support) force — соединение сил [судов] подвижного тылового обеспечения (ВМС)
mobile logistics (support) force — соединение сил [судов] подвижного тылового обеспечения (ВМС)
NATO-earmarked (for assignment) forces — войска, выделенные [предназначенные] для передачи в оперативное подчинение командования НАТО
On-Call Naval force, Mediterranean — оперативное соединение ОВМС НАТО на Средиземном море для действий по вызову
rapid deployment force, Air — авиационный компонент СВР
rapid deployment force, Army — сухопутный компонент СВР
rapid deployment force, Navy — военноморской компонент СВР
special service force (mobile command) — Кан. группа войск специального назначения (мобильного командования)
Standing Naval force, Atlantic — постоянное оперативное соединение ОВМС НАТО на Атлантике
UN Peace Keeping forces, Cyprus — ВС ООН по поддержанию мира на Кипре
US forces, Europe — ВС США в Европейской зоне
— ACE mobile forces— amphibious assault force— BM force— conventional armed forces— counterforce-capable forces— divert forces from— experimental naval forces— fleet-based air force— frontier-guarding force— garrison forces— in force— international forces— link-up force— main battle forces— nuclear forces— special action forces— tactical nuclear-capable forces— unconventional warfare forces— visiting armed force -
48 force(s)
сила; группа; группировка; формирования; части и соединения [подразделения]; мор. отряд; соединение; pl. войска, силы; вооруженные силы, ВС; форсироватьACE mobile force(s), Air — мобильные ВВС ОВС НАТО в Европе
ACE mobile force(s), Land — мобильные СВ ОВС НАТО в Европе
Air forces, Gulf — Бр. ВВС в районе Персидского залива
Air forces, Northern Army Group BBC — Северной группы армий (ОВС НАТО в Европе)
Allied forces, Central [Northern, Southern] Europe — ОВС НАТО на Центрально-Европейском [Северо-Европейском, Южно-Европейском] ТВД
Allied forces, Europe OBC — НАТО в Европе
Allied Land forces, Northern [Southern] Europe — ОСВ НАТО на Северо-Европейском [Южно-Европейском] ТВД
Allied Naval forces, Northern [Southern] Europe — ОВМС НАТО на Северо-Европейском [Южно-Европейском] ТВД
carrier submarine detection [search] and striking force — ПЛ авианосная поисково-ударная группа
earmarked (for assignment) forces — войска [силы], выделенные [предназначенные] для передачи в оперативное подчинение (командования НАТО)
insert a force (into the area) — высаживать десант; десантировать (часть, подразделение)
mobile logistical (support) force — соединение сил [судов] подвижного тылового обеспечения (ВМС)
mobile logistics (support) force — соединение сил [судов] подвижного тылового обеспечения (ВМС)
NATO-earmarked (for assignment) forces — войска, выделенные [предназначенные] для передачи в оперативное подчинение командования НАТО
On-Call Naval force, Mediterranean — оперативное соединение ОВМС НАТО на Средиземном море для действий по вызову
rapid deployment force, Air — авиационный компонент СВР
rapid deployment force, Army — сухопутный компонент СВР
rapid deployment force, Navy — военноморской компонент СВР
special service force (mobile command) — Кан. группа войск специального назначения (мобильного командования)
Standing Naval force, Atlantic — постоянное оперативное соединение ОВМС НАТО на Атлантике
UN Peace Keeping forces, Cyprus — ВС ООН по поддержанию мира на Кипре
US forces, Europe — ВС США в Европейской зоне
— ACE mobile forces— amphibious assault force— BM force— conventional armed forces— counterforce-capable forces— divert forces from— experimental naval forces— fleet-based air force— frontier-guarding force— garrison forces— in force— international forces— link-up force— main battle forces— nuclear forces— special action forces— tactical nuclear-capable forces— unconventional warfare forces— visiting armed force -
49 land
[lænd] 1. noun1) (the solid part of the surface of the Earth which is covered by the sea: We had been at sea a week before we saw land.) land2) (a country: foreign lands.) land3) (the ground or soil: He never made any money at farming as his land was poor and stony.) jord4) (an estate: He owns land/lands in Scotland.) land; jord2. verb1) (to come or bring down from the air upon the land: The plane landed in a field; They managed to land the helicopter safely; She fell twenty feet, but landed without injury.) lande2) (to come or bring from the sea on to the land: After being at sea for three months, they landed at Plymouth; He landed the big fish with some help.) lande; fange3) (to (cause to) get into a particular (usually unfortunate) situation: Don't drive so fast - you'll land (yourself) in hospital/trouble!) ende; havne•[-rouvə]
(a type of strong motor vehicle used for driving over rough ground.)
terrængående køretøj- landing- landing-gear
- landing-stage
- landlocked
- landlord
- landmark
- land mine
- landowner
- landslide
- landslide victory
- landslide
- landslide defeat
- land up
- land with
- see how the land lies* * *[lænd] 1. noun1) (the solid part of the surface of the Earth which is covered by the sea: We had been at sea a week before we saw land.) land2) (a country: foreign lands.) land3) (the ground or soil: He never made any money at farming as his land was poor and stony.) jord4) (an estate: He owns land/lands in Scotland.) land; jord2. verb1) (to come or bring down from the air upon the land: The plane landed in a field; They managed to land the helicopter safely; She fell twenty feet, but landed without injury.) lande2) (to come or bring from the sea on to the land: After being at sea for three months, they landed at Plymouth; He landed the big fish with some help.) lande; fange3) (to (cause to) get into a particular (usually unfortunate) situation: Don't drive so fast - you'll land (yourself) in hospital/trouble!) ende; havne•[-rouvə]
(a type of strong motor vehicle used for driving over rough ground.)
terrængående køretøj- landing- landing-gear
- landing-stage
- landlocked
- landlord
- landmark
- land mine
- landowner
- landslide
- landslide victory
- landslide
- landslide defeat
- land up
- land with
- see how the land lies -
50 system
система; установка; устройство; ркт. комплекс"see to land" system — система посадки с визуальным приземлением
A.S.I. system — система указателя воздушной скорости
ablating heat-protection system — аблирующая [абляционная] система тепловой защиты
ablating heat-shield system — аблирующая [абляционная] система тепловой защиты
active attitude control system — ксм. активная система ориентации
aft-end rocket ignition system — система воспламенения заряда с задней части РДТТ [со стороны сопла]
aircraft response sensing system — система измерений параметров, характеризующих поведение ЛА
air-inlet bypass door system — дв. система перепуска воздуха на входе
antiaircraft guided missile system — ракетная система ПВО; зенитный ракетный комплекс
antiaircraft guided weapons system — ракетная система ПВО; зенитный ракетный комплекс
attenuated intercept satellite rendez-vous system — система безударного соединения спутников на орбите
attitude and azimuth reference system — система измерения или индикации углов тангажа, крена и азимута
automatic departure prevention system — система автоматического предотвращения сваливания или вращения после сваливания
automatic drift kick-off system — система автоматического устранения угла упреждения сноса (перед приземлением)
automatic hovering control system — верт. система автостабилизации на висении
automatic indicating feathering system — автоматическая система флюгирования с индикацией отказа (двигателя)
automatic mixture-ratio control system — система автоматического регулирования состава (топливной) смеси
automatic pitch control system — автомат тангажа; автоматическая система продольного управления [управления по каналу тангажа]
B.L.C. high-lift system — система управления пограничным слоем для повышения подъёмной силы (крыла)
backpack life support system — ксм. ранцевая система жизнеобеспечения
beam-rider (control, guidance) system — ркт. система наведения по лучу
biowaste electric propulsion system — электрический двигатель, работающий на биологических отходах
buddy (refueling, tank) system — (подвесная) автономная система дозаправки топливом в полете
closed(-circuit, -cycle) system — замкнутая система, система с замкнутым контуром или циклом; система с обратной связью
Cooper-Harper pilot rating system — система баллов оценки ЛА лётчиком по Куперу — Харперу
deployable aerodynamic deceleration system — развёртываемая (в атмосфере) аэродинамическая тормозная система
depressurize the fuel system — стравливать избыточное давление (воздуха, газа) в топливной системе
driver gas heating system — аэрд. система подогрева толкающего газа
dry sump (lubrication) system — дв. система смазки с сухим картером [отстойником]
electrically powered hydraulic system — электронасосная гидросистема (в отличие от гидросистемы с насосами, приводимыми от двигателя)
exponential control flare system — система выравнивания с экспоненциальным управлением (перед приземлением)
flywheel attitude control system — ксм. инерционная система ориентации
gas-ejection attitude control system — ксм. газоструйная система ориентация
gas-jet attitude control system — ксм. газоструйная система ориентация
ground proximity extraction system — система извлечения грузов из самолёта, пролетающего на уровне земли
hot-air balloon water recovery system — система спасения путем посадки на воду с помощью баллонов, наполняемых горячими газами
hypersonic air data entry system — система для оценки аэродинамики тела, входящего в атмосферу планеты с гиперзвуковой скоростью
igh-temperature fatigue test system — установка для испытаний на выносливость при высоких температурах
interceptor (directing, vectoring) system — система наведения перехватчиков
ion electrical propulsion system — ксм. ионная двигательная установка
isotope-heated catalytic oxidizer system — система каталитического окислителя с нагревом от изотопного источника
jet vane actuation system — ркт. система привода газового руля
laminar flow pumping system — система насосов [компрессоров] для ламинаризации обтекания
launching range safety system — система безопасности ракетного полигона; система обеспечения безопасности космодрома
leading edge slat system — система выдвижных [отклоняемых] предкрылков
low-altitude parachute extraction system — система беспосадочного десантирования грузов с малых высот с использованием вытяжных парашютов
magnetic attitude control system — ксм. магнитная система ориентации
magnetically slaved compass system — курсовая система с магнитной коррекцией, гироиндукционная курсовая система
mass-expulsion attitude control system — система ориентации за счёт истечения массы (газа, жидкости)
mass-motion attitude control system — ксм. система ориентации за счёт перемещения масс
mass-shifting attitude control system — ксм. система ориентации за счёт перемещения масс
monopropellant rocket propulsion system — двигательная установка с ЖРД на унитарном [однокомпонентном] топливе
nucleonic propellant gauging and utilization system — система измерения и регулирования подачи топлива с использованием радиоактивных изотопов
open(-circuit, -cycle) system — открытая [незамкнутая] система, система с незамкнутым контуром или циклом; система без обратной связи
plenum chamber burning system — дв. система сжигания топлива во втором контуре
positioning system for the landing gear — система регулирования высоты шасси (при стоянке самолёта на земле)
radar altimeter low-altitude control system — система управления на малых высотах с использованием радиовысотомера
radar system for unmanned cooperative rendezvous in space — радиолокационная система для обеспечения встречи (на орбите) беспилотных кооперируемых КЛА
range and orbit determination system — система определения дальностей [расстояний] и орбит
real-time telemetry processing system — система обработки радиотелеметрических данных в реальном масштабе времени
recuperative cycle regenerable carbon dioxide removal system — система удаления углекислого газа с регенерацией поглотителя, работающая по рекуперативному циклу
rendezvous beacon and command system — маячно-командная система обеспечения встречи («а орбите)
satellite automatic terminal rendezvous and coupling system — автоматическая система сближения и стыковки спутников на орбите
Schuler tuned inertial navigation system — система инерциальной навигации на принципе маятника Шулера
sodium superoxide carbon dioxide removal system — система удаления углекислого газа с помощью надперекиси натрия
space shuttle separation system — система разделения ступеней челночного воздушно-космического аппарата
stellar-monitored astroinertial navigation guidance system — астроинерциальная система навигации и управления с астрокоррекцией
terminal control landing system — система управления посадкой по траектории, связанной с выбранной точкой приземления
terminal descent control system — ксм. система управления на конечном этапе спуска [снижения]
terminal guidance system for a satellite rendezvous — система управления на конечном участке траектории встречи спутников
test cell flow system — ркт. система питания (двигателя) топливом в огневом боксе
vectored thrust (propulsion) system — силовая установка с подъёмно-маршевым двигателем [двигателями]
water to oxygen system — ксм. система добывания кислорода из воды
wind tunnel data acquisition system — система регистрации (и обработки) данных при испытаниях в аэродинамической трубе
— D system -
51 HATS
1) Военный термин: Heuristic Automated Transportation System, helicopter advanced tactical system, helicopter attack system, helicopter automatic targeting system, high-accuracy targeting subsystem, hybrid automatic test system2) Техника: Helmut attitude tracking system, high-accuracy targeting system, high-accuracy tracking system, high-altitude terrain contour data sensor, high-altitude test stand, hybrid automatic test set3) Ветеринария: Horse Alternative Therapeutic Services4) Сокращение: HAWK Advanced Training Simulator5) Образование: Health Action Theatre For Seniors, Helping Adolescents To Succeed, High Achieving Talented Student6) Безопасность: High Assurance Transformation System -
52 SH
1) Компьютерная техника: Single Head, Src Homolog2) Морской термин: однокорпусный (single hull)3) Американизм: SENATE HART Office Building4) Спорт: Switch Hitter, гимнастический конь5) Военный термин: Ship Serviceman, Short Horizontal, Strength And Honor, scout helicopter, sea helicopter, semiactive homing, squash head, station hospital, Южное полушарие6) Техника: sample and hold, shower counter, simple-harmonic, soluble when hot, synthetic holography7) Сельское хозяйство: sulfhydryl8) Шутливое выражение: Sonic Heroes9) Математика: The Subspace Of H10) Религия: Sensing Hands, Spiritual Health, Standard Hebrew11) Юридический термин: Sub Heading12) Страхование: Strengthened for heavy cargoes13) Грубое выражение: Sexy Hotness, Shit Head, Super Hot14) Оптика: single heterostructure16) Сокращение: Parachute retarded (Russia), Saint Helena, Sary Shagan (Russia), Schuberth Helme GmbH (Germany), Serbo-croatian, Support Helicopter, scleroscope hardness, shackle, sheeting, shower, shunt, shield (electronic device), Settlement House (Расчетная палата ММВБ (MICEX))17) Университет: Semester Hour, Shire Hall, Sierra Hall, Study Hall, Study Humans18) Физиология: Sedatives Hypnotics, Self help, Serum Hepatitis, Shoulder, Src Homology, Surgical History19) Космонавтика: Scratch Hardness20) Картография: school house21) Транспорт: Special Handling, Sport Handling, Super Handling22) Пищевая промышленность: Super Hardy23) Фирменный знак: Stanton Harcourt, Stein And Haff24) СМИ: Spartanburg Herald25) Деловая лексика: Specified Hours26) Глоссарий компании Сахалин Энерджи: hadrocarbons saturation, горизонтально поляризованные волны сдвига, Shareholders27) Сетевые технологии: stackable hub28) Полимеры: in shear, super-heavy, surfacehardened29) Программирование: Sense High, Suppress Header30) Сахалин Р: hydrocarbons saturation, shareholder31) Океанография: Southern Hemisphere32) Сахалин Ю: steam high pressure (30-50 bar)33) Расширение файла: SHell script34) Электротехника: subharmonic, superheater35) Имена и фамилии: Sherlock Holmes, Stephen Humble, Steve Harris, Steve Harrison, Steve Howe37) Должность: Senior Hunter, Super Hero38) Чат: Super Human39) Правительство: Side Hill, South Hill40) НАСА: Super Heat41) Единицы измерений: Semester Hours -
53 Sh
1) Компьютерная техника: Single Head, Src Homolog2) Морской термин: однокорпусный (single hull)3) Американизм: SENATE HART Office Building4) Спорт: Switch Hitter, гимнастический конь5) Военный термин: Ship Serviceman, Short Horizontal, Strength And Honor, scout helicopter, sea helicopter, semiactive homing, squash head, station hospital, Южное полушарие6) Техника: sample and hold, shower counter, simple-harmonic, soluble when hot, synthetic holography7) Сельское хозяйство: sulfhydryl8) Шутливое выражение: Sonic Heroes9) Математика: The Subspace Of H10) Религия: Sensing Hands, Spiritual Health, Standard Hebrew11) Юридический термин: Sub Heading12) Страхование: Strengthened for heavy cargoes13) Грубое выражение: Sexy Hotness, Shit Head, Super Hot14) Оптика: single heterostructure16) Сокращение: Parachute retarded (Russia), Saint Helena, Sary Shagan (Russia), Schuberth Helme GmbH (Germany), Serbo-croatian, Support Helicopter, scleroscope hardness, shackle, sheeting, shower, shunt, shield (electronic device), Settlement House (Расчетная палата ММВБ (MICEX))17) Университет: Semester Hour, Shire Hall, Sierra Hall, Study Hall, Study Humans18) Физиология: Sedatives Hypnotics, Self help, Serum Hepatitis, Shoulder, Src Homology, Surgical History19) Космонавтика: Scratch Hardness20) Картография: school house21) Транспорт: Special Handling, Sport Handling, Super Handling22) Пищевая промышленность: Super Hardy23) Фирменный знак: Stanton Harcourt, Stein And Haff24) СМИ: Spartanburg Herald25) Деловая лексика: Specified Hours26) Глоссарий компании Сахалин Энерджи: hadrocarbons saturation, горизонтально поляризованные волны сдвига, Shareholders27) Сетевые технологии: stackable hub28) Полимеры: in shear, super-heavy, surfacehardened29) Программирование: Sense High, Suppress Header30) Сахалин Р: hydrocarbons saturation, shareholder31) Океанография: Southern Hemisphere32) Сахалин Ю: steam high pressure (30-50 bar)33) Расширение файла: SHell script34) Электротехника: subharmonic, superheater35) Имена и фамилии: Sherlock Holmes, Stephen Humble, Steve Harris, Steve Harrison, Steve Howe37) Должность: Senior Hunter, Super Hero38) Чат: Super Human39) Правительство: Side Hill, South Hill40) НАСА: Super Heat41) Единицы измерений: Semester Hours -
54 sh
1) Компьютерная техника: Single Head, Src Homolog2) Морской термин: однокорпусный (single hull)3) Американизм: SENATE HART Office Building4) Спорт: Switch Hitter, гимнастический конь5) Военный термин: Ship Serviceman, Short Horizontal, Strength And Honor, scout helicopter, sea helicopter, semiactive homing, squash head, station hospital, Южное полушарие6) Техника: sample and hold, shower counter, simple-harmonic, soluble when hot, synthetic holography7) Сельское хозяйство: sulfhydryl8) Шутливое выражение: Sonic Heroes9) Математика: The Subspace Of H10) Религия: Sensing Hands, Spiritual Health, Standard Hebrew11) Юридический термин: Sub Heading12) Страхование: Strengthened for heavy cargoes13) Грубое выражение: Sexy Hotness, Shit Head, Super Hot14) Оптика: single heterostructure16) Сокращение: Parachute retarded (Russia), Saint Helena, Sary Shagan (Russia), Schuberth Helme GmbH (Germany), Serbo-croatian, Support Helicopter, scleroscope hardness, shackle, sheeting, shower, shunt, shield (electronic device), Settlement House (Расчетная палата ММВБ (MICEX))17) Университет: Semester Hour, Shire Hall, Sierra Hall, Study Hall, Study Humans18) Физиология: Sedatives Hypnotics, Self help, Serum Hepatitis, Shoulder, Src Homology, Surgical History19) Космонавтика: Scratch Hardness20) Картография: school house21) Транспорт: Special Handling, Sport Handling, Super Handling22) Пищевая промышленность: Super Hardy23) Фирменный знак: Stanton Harcourt, Stein And Haff24) СМИ: Spartanburg Herald25) Деловая лексика: Specified Hours26) Глоссарий компании Сахалин Энерджи: hadrocarbons saturation, горизонтально поляризованные волны сдвига, Shareholders27) Сетевые технологии: stackable hub28) Полимеры: in shear, super-heavy, surfacehardened29) Программирование: Sense High, Suppress Header30) Сахалин Р: hydrocarbons saturation, shareholder31) Океанография: Southern Hemisphere32) Сахалин Ю: steam high pressure (30-50 bar)33) Расширение файла: SHell script34) Электротехника: subharmonic, superheater35) Имена и фамилии: Sherlock Holmes, Stephen Humble, Steve Harris, Steve Harrison, Steve Howe37) Должность: Senior Hunter, Super Hero38) Чат: Super Human39) Правительство: Side Hill, South Hill40) НАСА: Super Heat41) Единицы измерений: Semester Hours -
55 formation
строй, боевой [походный] порядок, построение; ( войсковое) соединение; формирование; мор. ордер; строй; см. тж. order; unitechelon left (right) formation — боевой порядок уступом влево [вправо]; ав. строй [боевой порядок] «левый [правый] пеленг»
— linear battle formation— staggered line formation* * *1) порядок; 2) соединения войск -
56 group
army group, Royal Artillery — Бр. армейская группа ПА
army group, Royal Engineers — Бр. армейская инженерная группа
C3 Countermeasures Working group — рабочая группа по вопросам РЭП систем оперативного управления и связи
combat equipment group, Europe — группа обеспечения войск оружием и военной техникой в Европейской зоне (для сил двойного базирования)
European Interdepartment group, NSC — Европейская межведомственная группа СНБ
intelligence data (technical) processing group — группа (технической) обработки разведывательных данных
Standing group, Military Committee — постоянная группа военного комитета НАТО
tactical air (control) group — мор. группа наведения авиации
— address indicating group— FA group— HQ group— launching control group* * *• 1) группа; 2) дивизия• 1) группироваться; 2) группировать -
57 transport
-
58 landing
посадка; приземление; выброска [выгрузка, высадка] десанта; десантирование; десантный; посадочный— initial assault landing -
59 Breguet, Louis
SUBJECT AREA: Aerospace[br]b. 2 January 1880 Paris, Franced. 4 May 1955 Paris, France[br]French aviation pioneer who built a helicopter in 1907 and designed many successful aircraft.[br]The Breguet family had been manufacturing fine clocks since before the French Revolution, but Louis Breguet and his brother Jacques used their mechanical skills to produce a helicopter, or "gyroplane" as they named it. It was a complex machine with four biplane rotors (i.e. thirty-two lifting surfaces). Louis Breguet had carried out many tests to determine the most suitable rotor design. The Breguet brothers were assisted by Professor Charles Richet and the Breguet-Richet No. 1 was tested in September 1907 when it succeeded in lifting itself, and its pilot, to a height of 1.5 metres. Unfortunately, the gyroplane was rather unstable and four helpers had to steady it; consequently, the flight did not qualify as a "free" flight. This was achieved two months later, also in France, by Paul Cornu who made a 20-second free flight.Louis Breguet turned his attention to aeroplane design and produced a tractor biplane when most other biplanes followed the Wright brothers' layout with a forward elevator and pusher propeller. The Breguet I made quite an impression at the 1909 Reims meeting, but the Breguet IV created a world record the following year by carrying six people. During the First World War the Breguet Type 14 bomber was widely used by French and American squadrons. Between the First and Second World Wars a wide variety of designs were produced, including flying boats and another helicopter, the Breguet- Dorand Gyroplane which flew for over one hour in 1936. The Breguet company survived World War II and in the late 1940s developed a successful four-engined airliner/transport, the Deux-Ponts, which had a bulbous double-deck fuselage.Breguet was an innovative designer, although his designs were functional rather than elegant. He was an early advocate of metal construction and developed an oleo- (oil-spring) undercarriage leg.[br]Bibliography1925, Le Vol à voile dynamique des oiseaux. Analyse des effets des pulsations du vent sur la résultante aérodynamique moyenne d'un planeur, Paris.Further ReadingP.Faure, 1938, Louis Breguet, Paris (biography).C.H.Gibbs-Smith, 1965, The Invention of the Aeroplane 1799–1909, London (provides a careful analysis of Breguet's early aircraft).JDS -
60 Flettner, Anton
SUBJECT AREA: Aerospace[br]b. 1 November 1885 Eddersheim-am-Main, Germanyd. 29 December 1961 New York, USA[br]German engineer and inventor who produced a practical helicopter for the German navy in 1940.[br]Anton Flettner was an engineer with a great interest in hydraulics and aerodynamics. At the beginning of the First World War Flettner was recruited by Zeppelin to investigate the possibility of radio-controlled airships as guided missiles. In 1915 he constructed a small radio-controlled tank equipped to cut barbed-wire defences; the military experts rejected it, but he was engaged to investigate radio-controlled pilotless aircraft and he invented a servo-control device to assist their control systems. These servo-controls, or trim tabs, were used on large German bombers towards the end of the war. In 1924 he invented a sailing ship powered by rotating cylinders, but although one of these crossed the Atlantic they were never a commercial success. He also invented a windmill and a marine rudder. In the late 1920s Flettner turned his attention to rotating-wing aircraft, and in 1931 he built a helicopter with small engines mounted on the rotor blades. Progress was slow and it was abandoned after being damaged during testing in 1934. An autogiro followed in 1936, but it caught fire on a test flight and was destroyed. Undeterred, Flettner continued his development work on helicopters and in 1937 produced the Fl 185, which had a single rotor to provide lift and two propellers on outriggers to combat the torque and provide forward thrust. This arrangement was not a great success, so he turned to twin contra-rotating rotors, as used by his rival Focke, but broke new ground by using intermeshing rotors to make a more compact machine. The Fl 265 with its "egg-beater" rotors was ordered by the German navy in 1938 and flew the following year. After exhaustive testing, Flettner improved his design and produced the two-seater Fl 282 Kolibri, which flew in 1940 and became the only helicopter to be used operationally during the Second World War.After the war, Flettner moved to the United States where his intermeshing-rotor idea was developed by the Kaman Aircraft Corporation.[br]Bibliography1926, Mein Weg zum Rotor, Leipzig; also published as The Story of the Rotor, New York (describes his early work with rotors—i.e. cylinders).Further ReadingW.Gunston and J.Batchelor, 1977, Helicopters 1900–1960, London.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
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