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1 linear career
упр. линейная карьера (модель профессионального развития, в соответствии с которой индивид в начале своей профессиональной деятельности выбирает сферу труда, а затем целенаправленно повышает свой статус в этой сфере; такая модель свойственна государственным служащим, менеджерам и т. п.; напр., специалист становится руководителем отдела, затем заместителем главы компании, а затем возглавляет компанию)Syn:See: -
2 linear
прил.1) общ. линейный, прямолинейныйSee:2) мат. линейныйа) (о функции вида у = kx + b; основное свойство такой функции заключается в том, что ее приращение пропорционально приращению аргумента)б) (связанный с использованием линейных функций, зависимостей, ограничений и т. п.)Ant:linearity, linear algebra, linear economics, linear assumption, linear cost, linear depreciation, linear economics, linear function, linear growth, linear programming, linear weighted moving averageSee: -
3 career
1. сущ.1) общ. карьераSee:career expectations, career woman, careerist, career ladder, career opportunities, career prospects, career path, career pattern, career planning, career expectations, career guidance, career ladder, career management, career mobility, career woman, individual career planning, linear career, organizational career planning, pattern of career development, spiral career, steady-state career, transitory career, moral career, career systemб) (достижение успеха, славы)в) (деятельность на каком-л. поприще)to give up one's career as a musician to concentrate on one's studies — оставить карьеру музыканта ради учебы
Progressive illness cut short his career and forced his retirement in 2001. — Прогрессирующая болезнь оборвала его карьеру и вынудила его в 2001 г. уйти в отставку.
See:career officer, careers consultant, advance, career officer, career banding, career break, career development, profession2) общ. быстрое движение, карьер2. гл.1) общ. быстро двигаться; нестись2) общ. пускать лошадь в карьер3) общ. быстро отодвинуться -
4 pattern of career development
упр. модель профессионального развития (схема развития профессиональной карьеры, которая отражает закономерности в продвижении по службе, сменах профессий или мест работы и т. п.)What is the typical pattern of career development in this field? — Какова типичная модель профессионального развития в этой области?
See:Англо-русский экономический словарь > pattern of career development
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5 broad pattern of career development
упр. = linear careerАнгло-русский экономический словарь > broad pattern of career development
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6 hierarchical pattern of career development
упр. = linear careerАнгло-русский экономический словарь > hierarchical pattern of career development
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7 system
система; комплекс; средство; способ; метод; сеть (напр. дорог) ;aiming-navigation system (analog, digital) — прицельно-навигационная система (аналоговая, цифровая)
air observation, acquisition and fire control system — (бортовая) система воздушной разведки, засечки целей и управления огнем
air support aircraft ECM (equipment) system — (бортовая) система РЭП для самолетов авиационной поддержки
airborne (ground) target acquisition and illumination laser system — ав. бортовая лазерная система обнаружения и подсветки (наземных) целей
airborne (ground) targeting and laser designator system — ав. бортовая лазерная система обнаружения и целеуказания (наземных целей)
airborne laser illumination, ranging and tracking system — ав. бортовая система лазерной подсветки, определения дальности и сопровождения цели
artillery (nuclear) delivery system — артиллерийская система доставки (ядерного) боеприпаса (к цели)
C2 system — система оперативного управления; система руководства и управления
C3 system — система руководства, управления и связи; система оперативного управления и связи
channel and message switching (automatic) communications system — АСС с коммутацией каналов и сообщений
country-fair type rotation system (of instruction) — метод одновременного обучения [опроса] нескольких учебных групп (переходящих от одного объекта изучения к другому)
dual-capable (conventional/nuclear) weapon delivery system — система доставки (обычного или ядерного) боеприпаса к цели
electromagnetic emitters identification, location and suppression system — система обнаружения, опознавания и подавления источников электромагнитных излучений [излучающих РЭС]
field antimissile (missile) system — полевой [войсковой] ПРК
fire-on-the-move (air defense) gun system — подвижный зенитный артиллерийский комплекс для стрельбы в движении [на ходу]
fluidic (missile) control system — ркт. гидравлическая [струйная] система управления полетом
forward (area) air defense system — система ПВО передового района; ЗРК для войсковой ПВО передового района
graduated (availability) operational readiness system — Бр. система поэтапной боевой готовности (частей и соединений)
high-resolution satellite IR detection, tracking and targeting system — спутниковая система с ИК аппаратурой высокой разрешающей способности для обнаружения, сопровождения целей и наведения средств поражения
ICBM (alarm and) early warning satellite system — спутниковая система обнаружения пусков МБР и раннего предупреждения (средств ПРО)
information storage, tracking and retrieval system — система накопления, хранения и поиска информации
instantaneous grenade launcher (armored vehicle) smoke system — гранатомет (БМ) для быстрой постановки дымовой завесы
Precision Location [Locator] (and) Strike system — высокоточная система обеспечения обнаружения и поражения целей; высокоточный разведывательно-ударный комплекс
rapid deceleration (parachute) delivery system — парашютная система выброски грузов с быстрым торможением
real time, high-resolution reconnaissance satellite system — спутниковая разведывательная система с высокой разрешающей способностью аппаратуры и передачей информации в реальном масштабе времени
received signal-oriented (output) jamming signal power-adjusting ECM system — система РЭП с автоматическим регулированием уровня помех в зависимости от мощности принимаемого сигнала
sea-based nuclear (weapon) delivery system — система морского базирования доставки ядерного боеприпаса к цели
small surface-to-air ship self-defense (missile) system — ЗРК ближнего действия для самообороны корабля
Status Control, Alerting and Reporting system — система оповещения, контроля и уточнения состояния [боевой готовности] сил и средств
surface missile (weapon) system — наземный [корабельный] РК
target acquisition, rapid designation and precise aiming system — комплекс аппаратуры обнаружения цели, быстрого целеуказания и точного прицеливания
— ABM defense system— antimissile missile system— central weapon system— countersurprise military system— laser surveying system— tank weapon system— vertical launching system— weapons system -
8 pattern
модель, образец; схема; площадь рассеивания; распределение попаданий; характер; структура— defensive combat pattern— offensive combat pattern -
9 line
линия имя существительное:амплуа (line, theatrical character)имя прилагательное: глагол:выстраиваться в линию (line, rank)выстраивать в ряд (rank, range, line)выстраиваться в ряд (rank, range, line)футеровать (line, fettle)тянуться вдоль (line, line up) -
10 Forrester, Jay Wright
SUBJECT AREA: Electronics and information technology[br]b. 14 July 1918 Anselmo, Nebraska, USA[br]American electrical engineer and management expert who invented the magnetic-core random access memory used in most early digital computers.[br]Born on a cattle ranch, Forrester obtained a BSc in electrical engineering at the University of Nebraska in 1939 and his MSc at the Massachusetts Institute of Technology (MIT) in Cambridge, Massachusetts, where he remained to teach and carry out research. Becoming interested in computing, he established the Digital Computer Laboratory at MIT in 1945 and became involved in the construction of Whirlwind I, an early general-purpose computer completed in March 1951 and used for flight-simulation by the US Army Air Force. Finding the linear memories then available for storing data a major limiting factor in the speed at which computers were able to operate, he developed a three-dimensional store based on the binary switching of the state of small magnetic cores that could be addressed and switched by a matrix of wires carrying pulses of current. The machine used parallel synchronous fixed-point computing, with fifteen binary digits and a plus sign, i.e. 16 bits in all, and contained 5,000 vacuum tubes, eleven semiconductors and a 2 MHz clock for the arithmetic logic unit. It occupied a two-storey building and consumed 150kW of electricity. From his experience with the development and use of computers, he came to realize their great potential for the simulation and modelling of real situations and hence for the solution of a variety of management problems, using data communications and the technique now known as interactive graphics. His later career was therefore in this field, first at the MIT Lincoln Laboratory in Lexington, Massachusetts (1951) and subsequently (from 1956) as Professor at the Sloan School of Management at the Massachusetts Institute of Technology.[br]Principal Honours and DistinctionsNational Academy of Engineering 1967. George Washington University Inventor of the Year 1968. Danish Academy of Science Valdemar Poulsen Gold Medal 1969. Systems, Man and Cybernetics Society Award for Outstanding Accomplishments 1972. Computer Society Pioneer Award 1972. Institution of Electrical Engineers Medal of Honour 1972. National Inventors Hall of Fame 1979. Magnetics Society Information Storage Award 1988. Honorary DEng Nebraska 1954, Newark College of Engineering 1971, Notre Dame University 1974. Honorary DSc Boston 1969, Union College 1973. Honorary DPolSci Mannheim University, Germany. Honorary DHumLett, State University of New York 1988.Bibliography1951, "Data storage in three dimensions using magnetic cores", Journal of Applied Physics 20: 44 (his first description of the core store).Publications on management include: 1961, Industrial Dynamics, Cambridge, Mass.: MIT Press; 1968, Principles of Systems, 1971, Urban Dynamics, 1980, with A.A.Legasto \& J.M.Lyneis, System Dynamics, North Holland. 1975, Collected Papers, Cambridge, Mass.: MIT.Further ReadingK.C.Redmond \& T.M.Smith, Project Whirlwind, the History of a Pioneer Computer (provides details of the Whirlwind computer).H.H.Goldstine, 1993, The Computer from Pascal to von Neumann, Princeton University Press (for more general background to the development of computers).Serrell et al., 1962, "Evolution of computing machines", Proceedings of the Institute ofRadio Engineers 1,047.M.R.Williams, 1975, History of Computing Technology, London: Prentice-Hall.See also: Burks, Arthur Walter; Goldstine, Herman H.; Wilkes, Maurice Vincent; Williams, Sir Frederic CallandKF -
11 Soane, Sir John
SUBJECT AREA: Architecture and building[br]b. 20 September 1753 Whitchurch, Englandd. 20 January 1837 London, England[br]English architect whose highly personalized architectural style foreshadowed the modern architecture of a century later.[br]Between 1777 and 1780 Soane studied in Italy on a Travelling Scholarship, working in Rome but also making extensive excursions further south to Paestum and Sicily to study the early and more severely simple Greek temples there.His architectural career began in earnest with his appointment as Surveyor to the Bank of England in 1788. He held this post until 1833 and during this time developed his highly individual style, which was based upon a wide range of classical sources extending from early Greek to Byzantine themes. His own work became progressively more linear and austere, his domes and arches shallower and more segmental. During the 1790s and early 1800s Soane redesigned several halls in the Bank, notably the Bank Stock Office, which in 1791 necessitated technological experimentation.The redesigning was required because of security problems which limited window openings to high-level positions and a need for fireproof construction because the site was so restricted. Soane solved the difficulties by introducing light through lunettes set high in the walls and through a Roman-style oculus in the centrally placed shallow dome. He utilized hollow terracotta pots as a lightweight material in the segmental vaulting.Sadly, the majority of Soane's work in the Bank interior was lost in the rebuilding during the 1930s, but Soane went on to develop his architectural style in his houses and churches as well as in a quantity of public buildings in Whitehall and Westminster.[br]Principal Honours and DistinctionsKnighted 1831. Fellow Society of Antiquaries 1795. RA 1802. Royal Academy Professor of Architecture 1806. FRS 1821.Further ReadingSir John Summerson, 1952, Sir John Soane, 1753–1837, Art and Technics. Dorothy Stroud, 1961, The Architecture of Sir John Soane, Studio.DY -
12 Varian, Russell Harrison
[br]b. 24 April 1898 Washington, DC, USAd. 28 July 1959 Juneau, Alaska, USA[br]American physicist who, with his brother Sigurd Varian and others, developed the klystron.[br]After attending schools in Palo Alto and Halcyon, Russell Varian went to Stanford University, gaining his BA in 1925 and his MA in 1927 despite illness and being dyslexic. His family being in need of financial help, he first worked for six months for Bush Electric in San Francisco and then for an oil company in Texas, returning to San Francisco in 1930 to join Farnsworth's Television Laboratory. After a move to Philadelphia, in 1933 the laboratory closed and Russell tried to take up a PhD course at Stanford but was rejected, so he trained as a teacher. However, although he did some teaching at Stanford it was not to be his career, for in 1935 he joined his brothers Sigurd and Eric in the setting up of a home laboratory.There, with William Hansen, a former colleague of Russell's at Stanford, they worked on the development of microwave oscillators, based on some of the latter's ideas. By 1937 they had made sufficient progress on an electron velocity-bunching tube, which they called the klystron, to obtain an agreement with the university to provide laboratory facilities in return for a share of any proceeds. By August that year they were able to produce continuous power at a wavelength of 13 cm. Clearly needing greater resources to develop and manufacture the tube, and with a possible war looming, a deal was struck with the Sperry Gyroscope Company to finance the work, which was transferred to the East Coast.In 1946, after the death of his first wife, Russell returned to Palo Alto, and in 1948 the brothers and Hansen founded Varian Associates to make microwave tubes for transmitters and linear accelerators and nuclear magnetic-resonance detectors. Subsequent research also resulted in the development of a satellite-borne magnetometer for measuring the earth's magnetic field.[br]Principal Honours and DistinctionsHonorary DSc Brooklyn Polytechnic Institute 1943. Franklin Institute Medal.Bibliography1939, with S.F.Varian, "High frequency oscillator and amplifier", Journal of Applied Physics 10:321 (describes the klystron).Further ReadingJ.R.Pierce, 1962, "History of the microwave tube art", Proceedings of the Institute of Radio Engineers 979 (provides background to development of the klystron).D.Varian, 1983, The Inventor and the Pilot (biographies of the brothers).See also: Varian, Sigurd FergusKFBiographical history of technology > Varian, Russell Harrison
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