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1 вылет
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2 радиус действия
1) General subject: action radius (самолёта), amplitude, beam (микрофона, громкоговорителя), flight range2) Biology: reach3) Aviation: operating range, range of coverage4) Naval: effective area5) Military: action range, cruising range, operating radius, operational range, range of operation, sensitive range6) Engineering: effective range, handling radius (крана, манипулятора), radius7) Agriculture: range8) Construction: horizontal grasp, work range9) Mathematics: the radius of action of10) Automobile industry: radius of operation, range (автомобилей, двигателей и т.п.), reach (напр. свечи зажигания), working radius, working range12) Forestry: operating span13) Oil: radius of action14) Special term: cruising radius16) Network technologies: touch area17) Makarov: range of action, useful radius18) Logistics: turn-around, turn-round -
3 вылет
1) General subject: a start, flight, gab, handling radius (стрелы крана), sortie, taking off2) Geology: swinging radius3) Biology: emergence5) Naval: outrigger (грузовой стрелы и т.п.), reach (стрелы, крана), spread (грузовой стрелы)7) Military: (крана) boom, cruise-out, flyoff, serial, (радиус действия) sweep8) Engineering: boom, departure, flying, gap, out-in (руки манипулятора), outreach (стрелы крана), overhand, overhanging length, radius (стрелы крана), sweep, spread (стрелы)9) Construction: boom (стрелы), cantilever, horizontal outreach, outreach (стрелы крана, консоли), radius (стрелы), swinging radius (стрелы крана), working radius10) Mathematics: take-off11) Railway term: length of bracket, offset12) Economy: start13) Automobile industry: lever, unsupported length (балки, заделанной одним концом), (колеса) offset14) Mining: swinging radius (стрелы)15) Metallurgy: arm length (сварочной машины), stick-out (электрода)16) Polygraphy: bleed17) Electronics: escape19) Fishery: emergence (водных насекомых)20) Astronautics: embarkation, outing21) Mechanic engineering: outrigger (грузоподъёмного механизма)22) Advertising: departing flight23) Drilling: extension (электрода)25) Automation: boom (стрелы крана), extension length, outreach (напр. крана), overhung situation, projection, projection length, protrusion, radius (напр. стрелы крана), salient, sweep (стрелы крана)26) Robots: boom (руки робота), outlet (напр. руки робота), radius (напр. руки робота), reach (напр. руки робота), sweep (напр. руки робота)27) Makarov: escape (частицы), escape (частицы, напр. электрона), out-in (стрелы-крана), outlet (напр., стрелы крана), overhang (длина свеса), overhang (стрелы), reach (напр. стрелы)28) Electrical engineering: departure (электронов)29) Computer games: crash (о компьютерных программах) -
4 вылет стрелы
1) Geology: boom-out2) Naval: handling radius, outstretch (Китаевич)4) Railway term: handling radius (крана)5) Mining: outreach6) Forestry: boom reach (крана), radius (крана), reach of crane (крана)8) Sakhalin energy glossary: boom reach9) General subject: working radius (автокрана, трубоукладчика)10) Makarov: arm of crane, crane arm, swing radius (крана)11) oil&gas: boom extension (крана) -
5 Ausladung
Ausladung1 f BERGB, KRAN, UMSCHL outreach, radius, reach, sweep, working radius (z. B. Montagekranausleger); projection (z. B. des Gegengewichtes) -
6 Ausladung
Ausladung f hanging-over, cantilever, nosing, overhang, projecting, projection (Bauteil, Gebäude usw.); outreach, radius, working radius (Baukran)Deutsch-Englisch Fachwörterbuch Architektur und Bauwesen > Ausladung
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7 радиус обслуживания
Automobile industry: working radiusУниверсальный русско-английский словарь > радиус обслуживания
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8 arbeidsradius
subst. working radius -
9 Schwenkraum
Deutsch-Englisch Fachwörterbuch Architektur und Bauwesen > Schwenkraum
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10 диапазон точности
Русско-английский новый политехнический словарь > диапазон точности
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11 Phillips, Horatio Frederick
SUBJECT AREA: Aerospace[br]b. 2 February 1845 London, Englandd. 15 July 1926 Hampshire, England[br]English aerodynamicist whose cambered two-surface wing sections provided the foundations for aerofoil design.[br]At the age of 19, Phillips developed an interest in flight and constructed models with lightweight engines. He spent a large amount of time and money over many years, carrying out practical research into the science of aerodynamics. In the early 1880s he built a wind tunnel with a working section of 15 in. by 10 in. (38 cm by 25 cm). Air was sucked through the working section by an adaptation of the steam injector used in boilers and invented by Henry Giffard, the airship pioneer. Phillips tested aerofoils based on the cross-section of bird's wings, with a greater curvature on the upper surface than the lower. He measured the lift and drag and showed that the major component of lift came from suction on the upper surface, rather than pressure on the lower. He took out patents for his aerofoil sections in 1884 and 1891. In addition to his wind-tunnel test, Phillips tested his wing sections on a whirling arm, as used earlier by Cayley, Wenham and Lilienthal. After a series of tests using an arm of 15 ft (4.57 m) radius, Phillips built a massive whirling arm driven by a steam engine. His test pieces were mounted on the end of the arm, which had a radius of 50 ft (15.24 m), giving them a linear speed of 70 mph (113 km/h). By 1893 Phillips was ready to put his theories to a more practical test, so he built a large model aircraft driven by a steam engine and tethered to run round a circular track. It had a wing span of 19 ft (5.79 m), but it had fifty wings, one above the other. These wings were only 10 in. (25 cm) wide and mounted in a frame, so it looked rather like a Venetian blind. At 40 mph (64 km/h) it lifted off the track. In 1904 Phillips built a full-size multi-wing aeroplane with twenty wings which just lifted off the ground but did not fly. He built another multi-wing machine in 1907, this time with four Venetian blind' frames in tandem, giving it two hundred wings! Phillips made a short flight of almost 500 ft (152 m) which could be claimed to be the first powered aeroplane flight in England by an Englishman. He retired from flying at the age of 62.[br]Bibliography1900, "Mechanical flight and matters relating thereto", Engineering (reprint).1891–3, "On the sustentation of weight by mechanical flight", Aeronautical Society of Great Britain 23rd Report.Further ReadingJ.Laurence Pritchard, 1957, "The dawn of aerodynamics", Journal of the Royal Aeronautical Society (March) (good descriptions of Phillips's early work and his wind tunnel).J.E.Hodgson, 1924, The History of Aeronautics in Great Britain, London.F.W.Brearey, 1891–3, "Remarks on experiments made by Horatio Phillips", Aeronautical Society of Great Britain 23rd Report.JDSBiographical history of technology > Phillips, Horatio Frederick
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12 Arbeitsbereich
m1. (Tätigkeitsbereich) scope (of work)2. TECH. range of operation; von Kran, Bagger etc.: operating radius3. (Umfeld) work surroundings, workplace* * *der Arbeitsbereichfield of attention; field of concentration; area of operations; working area; study field; study area* * *Ạr|beits|be|reichm1) (= Arbeitsgebiet) field of work; (= Aufgabenbereich) area of work* * *Ar·beits·be·reichm area [or field] of work* * *der area of work; (Arbeitsgebiet) field of work* * *1. (Tätigkeitsbereich) scope (of work)2. TECH range of operation; von Kran, Bagger etc: operating radius3. (Umfeld) work surroundings, workplace* * *der area of work; (Arbeitsgebiet) field of work* * *m.area of operations n.work area n. -
13 Arbeitsbereich
Arbeitsbereich2 m TECH area of work, domain, field of activity, field of study, province, sphere of operations, sphere of work (Fachgebiet); working area (z. B. in der Werkshalle); operating range, working range (in der Elektromechanik); outreach, radius, reach (Reichweite) -
14 максимально допустимая рабочая нагрузка на различных вылетах стрелы
Универсальный русско-английский словарь > максимально допустимая рабочая нагрузка на различных вылетах стрелы
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15 передаточное число
1) General subject: ratio2) Engineering: gear ratio, gear-ratio, power ratio, progressive ratio, ratio of gearing3) Construction: ratio of transmission4) Mathematics: transmission number5) Automobile industry: ratio of number of teeth6) Information technology: reduction rate (редуктора)7) Oil: ratio of gear, reduction gear ratio, reduction ratio, transmission ratio8) Special term: speed ratio9) Astronautics: gearing, static gearing ratio10) Mechanics: drive ratio, gear reduction rate, translation ratio, velocity ratio11) Polymers: gear rating, ratio rating12) Transformers: (трансформатора) transmission number13) Automation: diameter ratio, drive( - gear) ratio, gear transmission ratio, gear-to-pinion pitch radius, reduction, transfer ratio, transmission (gear) ratio, working ratio14) Electrical engineering: (счётчика) transfer numberУниверсальный русско-английский словарь > передаточное число
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16 Clarke, Arthur Charles
[br]b. 16 December 1917 Minehead, Somerset, England[br]English writer of science fiction who correctly predicted the use of geo-stationary earth satellites for worldwide communications.[br]Whilst still at Huish's Grammar School, Taunton, Clarke became interested in both space science and science fiction. Unable to afford a scientific education at the time (he later obtained a BSc at King's College, London), he pursued both interests in his spare time while working in the Government Exchequer and Audit Department between 1936 and 1941. He was a founder member of the British Interplanetary Society, subsequently serving as its Chairman in 1946–7 and 1950–3. From 1941 to 1945 he served in the Royal Air Force, becoming a technical officer in the first GCA (Ground Controlled Approach) radar unit. There he began to produce the first of many science-fiction stories. In 1949–50 he was an assistant editor of Science Abstracts at the Institution of Electrical Engineers.As a result of his two interests, he realized during the Second World War that an artificial earth satellite in an equatorial orbital with a radius of 35,000 km (22,000 miles) would appear to be stationary, and that three such geo-stationary, or synchronous, satellites could be used for worldwide broadcast or communications. He described these ideas in a paper published in Wireless World in 1945. Initially there was little response, but within a few years the idea was taken up by the US National Aeronautics and Space Administration and in 1965 the first synchronous satellite, Early Bird, was launched into orbit.In the 1950s he moved to Ceylon (now Sri Lanka) to pursue an interest in underwater exploration, but he continued to write science fiction, being known in particular for his contribution to the making of the classic Stanley Kubrick science-fiction film 2001: A Space Odyssey, based on his book of the same title.[br]Principal Honours and DistinctionsClarke received many honours for both his scientific and science-fiction writings. For his satellite communication ideas his awards include the Franklin Institute Gold Medal 1963 and Honorary Fellowship of the American Institute of Aeronautics and Astronautics 1976. For his science-fiction writing he received the UNESCO Kalinga Prize (1961) and many others. In 1979 he became Chancellor of Moratuwa University in Sri Lanka and in 1980 Vikran Scrabhai Professor at the Physical Research Laboratory of the University of Ahmedabad.Bibliography1945. "Extra-terrestrial relays: can rocket stations give world wide coverage?", Wireless World L1: 305 (puts forward his ideas for geo-stationary communication satellites).1946. "Astronomical radar: some future possibilities", Wireless World 52:321.1948, "Electronics and space flight", Journal of the British Interplanetary Society 7:49. Other publications, mainly science-fiction novels, include: 1955, Earthlight, 1956, TheCoast of Coral; 1958, Voice Across the Sea; 1961, Fall of Moondust; 1965, Voicesfrom the Sky, 1977, The View from Serendip; 1979, Fountain of Paradise; 1984, Ascent to Orbit: A Scientific Autobiography, and 1984, 2010: Odyssey Two (a sequel to 2001: A Space Odyssey that was also made into a film).Further Reading1986, Encyclopaedia Britannica.1991, Who's Who, London: A. \& C.Black.See also: Pierce, John RobinsonKF -
17 корабль с большой дальностью плавания
Русско-английский военно-политический словарь > корабль с большой дальностью плавания
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18 судно речного плавания
Русско-английский военно-политический словарь > судно речного плавания
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