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1 early radiation effects
ранние последствия облучения
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[А.С.Гольдберг. Англо-русский энергетический словарь. 2006 г.]Тематики
EN
Англо-русский словарь нормативно-технической терминологии > early radiation effects
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2 early radiation effects
English-Russian dictionary on nuclear energy > early radiation effects
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3 short-range radiation effects
English-Russian dictionary on nuclear energy > short-range radiation effects
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4 early
1. ранний2. рано -
5 exposing to radiation
1. подвержение облучению2. подвергающий облучениюradiation annealing — радиционный отжиг; отжиг облучением
English-Russian big polytechnic dictionary > exposing to radiation
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6 mitigate the effects
1.смягчать последствия; локализовать последствия2.смягчать воздействия; локализовать последствияEnglish-Russian dictionary on nuclear energy > mitigate the effects
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7 expose to radiation
radiation annealing — радиционный отжиг; отжиг облучением
English-Russian big polytechnic dictionary > expose to radiation
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8 exposed to radiation
подвергнул облучению; подвергнутый облучениюradiation annealing — радиционный отжиг; отжиг облучением
English-Russian big polytechnic dictionary > exposed to radiation
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9 surface radiation
radiation annealing — радиционный отжиг; отжиг облучением
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10 aggravate the effects
English-Russian dictionary on nuclear energy > aggravate the effects
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11 limit the effects
English-Russian dictionary on nuclear energy > limit the effects
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12 health effects (of radiation)
воздействия на здоровье (излучения)
Воздействие на здоровье излучения, для которого обычно существует пороговый уровень дозы, выше которого тяжесть проявления этого эффекта возрастает с увеличением дозы. Такой эффект характеризуется как серьезный детерминированный эффект, если он является смертельным или угрожающим жизни, или же приводит к постоянному ущербу, снижающему качество жизни. Уровень пороговой дозы характеризует конкретное воздействие на здоровье, однако он может в ограниченной степени также зависеть от облучаемого человека. Примеры детерминированных эффектов включают эритему и острый лучевой синдром (лучевую болезнь). В некоторых более ранних публикациях применяется термин нестохастический эффект {non-stochastic effect; теперь он заменяется термином детерминированный эффект. Противоположный по значению термин: стохастический эффект. Наследственный эффект hereditary effect Радиационно индуцированное (вызванное излучением) воздействие на здоровье, которое проявляется у потомка облучаемого лица. Употребляется также менее точный термин 'генетический эффект', однако предпочтительным является термин наследственный эффект. Наследственные эффекты – это обычно стохастические эффекты. Противоположный по значению термин: соматический эффект. [нестохастический эффект non-stochastic effect]. См. воздействия на здоровье (излучения):детерминированный эффект. Ранний эффект early effect Радиационно индуцированное (вызванное излучением) воздействие на здоровье, которое проявляется в течение нескольких месяцев после облучения, вызвавшего этот эффект. Все ранние эффекты – это детерминированные эффекты; большинство детерминированных эффектов, но не все они являются ранними эффектами. позднее последствие late effect Радиационно индуцированное (вызванное излучением) воздействие на здоровье, которое проявляется в течение нескольких лет после облучения, вызвавшего этот эффект. Наиболее распространенными поздними последствиями являются стохастические эффекты, такие, как лейкемия и солидный рак, но некоторые детерминированные эффекты (например, катаракта) могут также быть поздними последствиями. серьезный детерминированный эффект severe deterministic effect. Детерминированный эффект, который является смертельным или угрожающим жизни, или же приводит к постоянному ущербу, снижающему качество жизни. См. воздействия на здоровье (излучения): детерминированный эффект. соматический эффект somatic effect Радиационно индуцированное (вызванное излучением) воздействие на здоровье, которое проявляется у облучаемого лица. Этот термин охватывает эффекты, проявляющиеся после рождения, которые вызываются облучением в утробе (in utero). Детерминированные эффекты – это обычно также соматические эффекты; стохастические эффекты могут быть соматическими эффектами или наследственными эффектами. Противоположный по значению термин: наследственный эффект. Стохастический эффект stochastic effect Радиационно индуцированное (вызванное излучением) воздействие на здоровье, вероятность возникновения которого повышается при более высоких дозах излучения, а тяжесть проявления (если оно имеет место) – не зависит от дозы. Стохастические эффекты могут быть соматическими эффектами или наследственными эффектами и обычно не имеют порогового уровня дозы. Примерами являются солидный рак и лейкемия. Противоположный по значению термин: детерминированный эффект.
[Глоссарий МАГАТЭ по вопросам безопасности]Тематики
EN
Англо-русский словарь нормативно-технической терминологии > health effects (of radiation)
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13 RER
1) Общая лексика: hum. сокр. Rough Endoplasmic Reticulum, (Renewable Energy Resources) ВИЭ (возобновляемые источники энергии)2) Американизм: Radiation Effects Report, Remediation Effectiveness Report3) Военный термин: Radar Effects Reactor, Recovery and Evacuation Report, Restricted Equipment Requirement, resource expenditure rate4) Техника: Regional Europe, radioactive effluent release, redundant element removal, regulatory effectiveness review, representative for experiment review, residual-error ratio, risk evaluation report, rotating equipment reliability5) Химия: Radiation Effects Reactor, Rare Earth Research6) Сокращение: Radar Electrical Rack (radar uplink / downlink)7) Физиология: Respiratory Exchange Ratio8) Гематология: rapid early response (быстрый ранний ответ)9) Транспорт: Reseau Express Regional10) Фирменный знак: Real Estate Roundtable, Regional Economic Research, Inc., Rental Equipment Register11) СМИ: Rerun12) Сетевые технологии: residual error ratio, коэффициент необнаруженных ошибок -
14 rER
1) Общая лексика: hum. сокр. Rough Endoplasmic Reticulum, (Renewable Energy Resources) ВИЭ (возобновляемые источники энергии)2) Американизм: Radiation Effects Report, Remediation Effectiveness Report3) Военный термин: Radar Effects Reactor, Recovery and Evacuation Report, Restricted Equipment Requirement, resource expenditure rate4) Техника: Regional Europe, radioactive effluent release, redundant element removal, regulatory effectiveness review, representative for experiment review, residual-error ratio, risk evaluation report, rotating equipment reliability5) Химия: Radiation Effects Reactor, Rare Earth Research6) Сокращение: Radar Electrical Rack (radar uplink / downlink)7) Физиология: Respiratory Exchange Ratio8) Гематология: rapid early response (быстрый ранний ответ)9) Транспорт: Reseau Express Regional10) Фирменный знак: Real Estate Roundtable, Regional Economic Research, Inc., Rental Equipment Register11) СМИ: Rerun12) Сетевые технологии: residual error ratio, коэффициент необнаруженных ошибок -
15 device
устройство; прибор; аппарат; средство; элемент; знакintruder alarm (proximity) device — разведывательно-сигнализационный прибор с датчиками неконтактного действия
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16 effect
1) эффект; явление || производить эффект; порождать явление2) влияние; (воз)действие || влиять; оказывать влияние; (воз)действовать; оказывать воздействие3) pl тлв вчт спецэффекты•- ac Hall effect
- ac Josephson effect
- acoustical Faraday effect
- acoustic Doppler effect
- acoustoelectric effect
- acoustoresistive effect
- ambisonic effect
- anisotropic effect
- anode effect
- anomalous Hall effect
- anomalous Sasaki-Shibuya effect
- anomalous Zeeman effect
- antenna effect
- aspect effect
- atomic photoelectric effect
- Auger effect
- avalanche effect
- background effect
- back-porch effect
- back stress effect
- back-wall photoelectric effect
- Barkhausen effect
- Barnett effect
- barrier effect
- base-robbing effect
- binaural effect
- blackout effect
- blindness effect
- Boers effect
- Bragg effect
- Bridgman effect
- bulk effect
- Burstein-Moss effect
- butterfly effect
- capture effect
- Casimir effect
- Cerenkov effect
- channel effect
- charge-storage effect
- cocktail-party effect
- collector-follower effect
- colossal magnetoresistive effect
- comet effect
- Compton effect
- conductivity modulation effect
- contour effect
- conventional skin effect
- converse effect
- converse magnetostrictive effect
- Cooper effect
- Corbino effect
- corner effect
- corona effect
- Cotton effect
- Cotton-Mouton effect
- cryptomagnetic effect
- dc Hall effect
- dc Josephson effect
- dead-end effect
- Debye effect
- Debye-Sears effect
- delayed-sidetone effect
- Dellinger effect
- Dember effect
- dephasing effect
- Destriau effect
- digital multi-effects - domino effect
- Doppler effect
- dynamic pinch effect
- dynamic stereoscopic effect
- dynatron effect
- Early effect
- echo effect
- edge effect
- Edison effect
- Einstein-de Haas effect
- elastooptical effect
- elastoresistive effect
- electroacoustic effect
- electrooptical effect
- electrooptical Kerr effect
- electro-opto-acoustical effect
- electroosmotic effect
- electrophonic effect
- electrophoretic effect
- electroresistive effect
- electrostatic Kerr effect
- electrostrictive effect
- emitter dip effect
- emitter push effect
- end effect
- equatorial Kerr effect
- equatorial magnetooptical Kerr effect
- Esaki effect
- Ettingshausen effect
- external photoelectric effect
- extrinsic photoconductive effect
- extrinsic photoelectric effect
- Faraday effect
- ferroelectric effect
- ferromagnetic proximity effect
- field effect
- field-rejection effect
- fixed effects
- flexoelectric effect
- flicker effect
- flywheel effect
- forbidden effect
- fractional quantum Hall effect
- fringe effect
- galvanomagnetic effects
- galvanothermomagnetic effects
- gap effect
- Gauss effect
- giant Hall effect
- giant magnetoimpedance effect
- giant magnetoresistive effect
- granularity effect
- greenhouse effect
- Gudden-Pohl effect
- Gunn effect
- gyromagnetic effects
- Haas effect
- Hall effect
- Hallwachs effect
- Hanle effect
- heating effect of current
- height effect
- hole-burning effect
- hyperfine effect
- image effect
- inlay effect
- interface effects
- internal photoelectric effect
- intrinsic photoconductive effect
- invar effect
- inverse effect
- inverse Faraday effect
- inverse photoelectric effect
- inverse piezoelectric effect
- island effect
- isotope effect
- Jahn-Teller effect
- Josephson effect
- Joule effect
- junction edge effect
- Kapitza-Dirac effect
- Kerr effect
- Kirk effect
- Kirkendall effect
- Kundt effect
- lagged effect
- laser effect
- Leduc-Righi effect
- linear electrooptic effect
- longitudinal galvanothermomagnetic effect
- longitudinal Kerr effect
- longitudinal magnetoresistive effect
- longitudinal thermomagnetic effect
- long-line effect
- long-run effect
- Lorentz effect
- Lossev effect
- Luxemburg effect
- Maggi-Righi-Leduc effect
- magnetoelastic effect
- magnetoelectric effect
- magnetogalvanic effects
- magnetoimpedance effect
- magnetooptical Kerr effect
- magnetoresistive effect
- magnetostrictive effect
- magnetron effect
- Malter effect
- Meisner effect
- meridional Kerr effect
- meridional magnetooptical Kerr effect
- metamagnetic effect
- metamagnetoelastic effect
- microphonic effect
- microwave biological effect
- Miller effect
- moiré effect
- Mössbauer effect
- motor effect
- multipactor effect
- multipath effect
- multi-valued Sasaki-Shibuya effect
- mutual coupling effect on input impedance
- mutual coupling effect on radiation pattern
- negative resistance effect
- Nernst effect
- Nernst-Ettingshausen effect
- night effect
- normal Hall effect
- normal Zeeman effect
- Nottingham effect
- Ovshinsky effect
- pairing effect
- parallel pumping instability effect
- parallel pumping spin wave instability effect
- Pashen-Back effect
- peak effect
- Peltier effect
- photocapacitor effect
- photoconductive effect
- photodielectric effect
- photodiffusion effect
- photoelastic effect
- photoelectret effect
- photoelectric effect
- photoelectromagnetic effect
- photoemissive effect
- photomagnetic effect
- photomagnetoelectric effect
- photopiezoelectric effect
- photothermoelectric effect
- photovoltaic effect
- picket-fence effect
- piezoelectric effect
- piezomagnetic effect
- piezomagnetoelectric effect
- piezooptical effect
- piezoresistance effect
- piezoresistive effect
- pinch effect
- pinch-in effect
- Pockels effect
- polar Kerr effect
- polar magnetooptical Kerr effect
- Pool-Frenkel effect
- print-through effect
- proximity effect
- pyroelectric effect
- pyromagnetic effect
- quadraphonic effect
- quadro effect
- quadratic magnetooptical effect
- quantized Hall effect
- quantum Hall effect
- Raman effect
- Ramsauer effect
- random effect
- rate effect
- red eyes effect
- Renner effect
- Richardson effect
- Ridley-Watkins-Hilsum-Gunn effect
- Righi-Leduc effect
- Rijke effect
- ripple effect
- ripple-through effect
- Rocky-Point effect
- S-effect
- Sasaki-Shibuya effect
- Schottky effect
- schrot effect
- screening effect
- seasonal effect
- Seebeck effect
- shore effect
- short-channel effect
- short-run effect
- shot effect
- side effect
- sidewalk effect
- Silsbee effect
- size effect
- skin effect
- sound effects
- space-charge effect
- special effects
- speckle effect
- spillover effect
- Stark effect
- stereo effect
- stereophonic effect
- stereoscopic effect
- Stiles-Crawford effect
- stimulated Raman effect
- stirring effect
- storage effect
- stroboscopic effect
- Stroop effect
- Suhl effect
- superparamagnetic effect
- surface-charge effect
- surface field effect
- tensoresistive effect
- tertiary pyroelectric effect
- thermal effect
- thermoelectric effect
- thermogalvanomagnetic effect
- thermomagnetic effect
- Thomson effect
- threshold effect
- transferred-electron effect
- transverse galvanothermomagnetic effect
- transverse Hall effect
- transverse Kerr effect
- transverse magnetoresistive effect
- transverse Nernst-Ettingshausen effect
- transverse pumping instability effect
- transverse pumping spin wave instability effect
- transverse thermogalvanomagnetic effect
- transverse thermomagnetic effect
- trap effect
- trapping effect
- tunnel effect
- tunneling effect
- turnpike effect
- twisted nematic effect
- Tyndall effect
- Venetian blind effect
- vertical component effect
- Villari effect
- Voigt effect
- Volta effect
- wall effect
- Webster effect
- Wertheim effect
- Wiedemann effect
- Wiegand effect
- window effect
- word superiority effect
- X-ray photoelectric effect
- Zeeman effect
- Zener effect
- ΔE-effect -
17 effect
1) эффект; явление || производить эффект; порождать явление2) влияние; (воз)действие || влиять; оказывать влияние; (воз)действовать; оказывать воздействие3) pl.; тлв.; вчт. спецэффекты•- ac Hall effect
- ac Josephson effect
- acoustic Doppler effect
- acoustical Faraday effect
- acoustoelectric effect
- acoustoresistive effect
- ambisonic effect
- anisotropic effect
- anode effect
- anomalous Hall effect
- anomalous Sasaki-Shibuya effect
- anomalous Zeeman effect
- antenna effect
- aspect effect
- atomic photoelectric effect
- Auger effect
- avalanche effect
- back stress effect
- background effect
- back-porch effect
- back-wall photoelectric effect
- Barkhausen effect
- Barnett effect
- barrier effect
- base-robbing effect
- binaural effect
- blackout effect
- blindness effect
- Boers effect
- Bragg effect
- Bridgman effect
- bulk effect
- Burstein-Moss effect
- butterfly effect
- capture effect
- Casimir effect
- Cerenkov effect
- channel effect
- charge-storage effect
- cocktail-party effect
- collector-follower effect
- colossal magnetoresistive effect
- comet effect
- Compton effect
- conductivity modulation effect
- contour effect
- conventional skin effect
- converse effect
- converse magnetostrictive effect
- Cooper effect
- Corbino effect
- corner effect
- corona effect
- Cotton effect
- Cotton-Mouton effect
- cryptomagnetic effect
- dc Hall effect
- dc Josephson effect
- dead-end effect
- Debye effect
- Debye-Sears effect
- delayed-sidetone effect
- Dellinger effect
- Dember effect
- dephasing effect
- Destriau effect
- digital multi-effects
- digital video effect
- direct piezoelectric effect
- domino effect
- Doppler effect
- dynamic pinch effect
- dynamic stereoscopic effect
- dynatron effect
- Early effect
- echo effect
- edge effect
- Edison effect
- effect of intermediate valence
- Einstein-de Haas effect
- elastooptical effect
- elastoresistive effect
- electroacoustic effect
- electrooptical effect
- electrooptical Kerr effect
- electro-opto-acoustical effect
- electroosmotic effect
- electrophonic effect
- electrophoretic effect
- electroresistive effect
- electrostatic Kerr effect
- electrostrictive effect
- emitter dip effect
- emitter push effect
- end effect
- equatorial Kerr effect
- equatorial magnetooptical Kerr effect
- Esaki effect
- Ettingshausen effect
- external photoelectric effect
- extrinsic photoconductive effect
- extrinsic photoelectric effect
- Faraday effect
- ferroelectric effect
- ferromagnetic proximity effect
- field effect
- field-rejection effect
- fixed effects
- flexoelectric effect
- flicker effect
- flywheel effect
- forbidden effect
- fractional quantum Hall effect
- fringe effect
- galvanomagnetic effects
- galvanothermomagnetic effects
- gap effect
- Gauss effect
- giant Hall effect
- giant magnetoimpedance effect
- giant magnetoresistive effect
- granularity effect
- greenhouse effect
- Gudden-Pohl effect
- Gunn effect
- gyromagnetic effects
- Haas effect
- Hall effect
- Hallwachs effect
- Hanle effect
- heating effect of current
- height effect
- hole-burning effect
- hyperfine effect
- image effect
- inlay effect
- interface effects
- internal photoelectric effect
- intrinsic photoconductive effect
- invar effect
- inverse effect
- inverse Faraday effect
- inverse photoelectric effect
- inverse piezoelectric effect
- island effect
- isotope effect
- Jahn-Teller effect
- Josephson effect
- Joule effect
- junction edge effect
- Kapitza-Dirac effect
- Kerr effect
- Kirk effect
- Kirkendall effect
- Kundt effect
- lagged effect
- laser effect
- Leduc-Righi effect
- linear electrooptic effect
- longitudinal galvanothermomagnetic effect
- longitudinal Kerr effect
- longitudinal magnetoresistive effect
- longitudinal thermomagnetic effect
- long-line effect
- long-run effect
- Lorentz effect
- Lossev effect
- Luxemburg effect
- Maggi-Righi-Leduc effect
- magnetoelastic effect
- magnetoelectric effect
- magnetogalvanic effects
- magnetoimpedance effect
- magnetooptical Kerr effect
- magnetoresistive effect
- magnetostrictive effect
- magnetron effect
- Malter effect
- Meisner effect
- meridional Kerr effect
- meridional magnetooptical Kerr effect
- metamagnetic effect
- metamagnetoelastic effect
- microphonic effect
- microwave biological effect
- Miller effect
- moiré effect
- Mössbauer effect
- motor effect
- multipactor effect
- multipath effect
- multi-valued Sasaki-Shibuya effect
- mutual coupling effect on input impedance
- mutual coupling effect on radiation pattern
- negative resistance effect
- Nernst effect
- Nernst-Ettingshausen effect
- night effect
- normal Hall effect
- normal Zeeman effect
- Nottingham effect
- Ovshinsky effect
- pairing effect
- parallel pumping instability effect
- parallel pumping spin wave instability effect
- Pashen-Back effect
- peak effect
- Peltier effect
- photocapacitor effect
- photoconductive effect
- photodielectric effect
- photodiffusion effect
- photoelastic effect
- photoelectret effect
- photoelectric effect
- photoelectromagnetic effect
- photoemissive effect
- photomagnetic effect
- photomagnetoelectric effect
- photopiezoelectric effect
- photothermoelectric effect
- photovoltaic effect
- picket-fence effect
- piezoelectric effect
- piezomagnetic effect
- piezomagnetoelectric effect
- piezooptical effect
- piezoresistance effect
- piezoresistive effect
- pinch effect
- pinch-in effect
- Pockels effect
- polar Kerr effect
- polar magnetooptical Kerr effect
- Pool-Frenkel effect
- print-through effect
- proximity effect
- pyroelectric effect
- pyromagnetic effect
- quadraphonic effect
- quadratic magnetooptical effect
- quadro effect
- quantized Hall effect
- quantum Hall effect
- Raman effect
- Ramsauer effect
- random effect
- rate effect
- red eyes effect
- Renner effect
- Richardson effect
- Ridley-Watkins-Hilsum-Gunn effect
- Righi-Leduc effect
- Rijke effect
- ripple effect
- ripple-through effect
- Rocky-Point effect
- S effect
- Sasaki-Shibuya effect
- Schottky effect
- schrot effect
- screening effect
- seasonal effect
- Seebeck effect
- shore effect
- short-channel effect
- short-run effect
- shot effect
- side effect
- sidewalk effect
- Silsbee effect
- size effect
- skin effect
- sound effects
- space-charge effect
- special effects
- speckle effect
- spillover effect
- Stark effect
- stereo effect
- stereophonic effect
- stereoscopic effect
- Stiles-Crawford effect
- stimulated Raman effect
- stirring effect
- storage effect
- stroboscopic effect
- Stroop effect
- Suhl effect
- superparamagnetic effect
- surface field effect
- surface-charge effect
- tensoresistive effect
- tertiary pyroelectric effect
- thermal effect
- thermoelectric effect
- thermogalvanomagnetic effect
- thermomagnetic effect
- Thomson effect
- threshold effect
- transferred-electron effect
- transverse galvanothermomagnetic effect
- transverse Hall effect
- transverse Kerr effect
- transverse magnetoresistive effect
- transverse Nernst-Ettingshausen effect
- transverse pumping instability effect
- transverse pumping spin wave instability effect
- transverse thermogalvanomagnetic effect
- transverse thermomagnetic effect
- trap effect
- trapping effect
- tunnel effect
- tunneling effect
- turnpike effect
- twisted nematic effect
- Tyndall effect
- Venetian blind effect
- vertical component effect
- Villari effect
- Voigt effect
- Volta effect
- wall effect
- Webster effect
- Wertheim effect
- Wiedemann effect
- Wiegand effect
- window effect
- word superiority effect
- X-ray photoelectric effect
- Zeeman effect
- Zener effectThe New English-Russian Dictionary of Radio-electronics > effect
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18 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 -
19 Preece, Sir William Henry
[br]b. 15 February 1834 Bryn Helen, Gwynedd, Walesd. 6 November 1913 Penrhos, Gwynedd, Wales[br]Welsh electrical engineer who greatly furthered the development and use of wireless telegraphy and the telephone in Britain, dominating British Post Office engineering during the last two decades of the nineteenth century.[br]After education at King's College, London, in 1852 Preece entered the office of Edwin Clark with the intention of becoming a civil engineer, but graduate studies at the Royal Institution under Faraday fired his enthusiasm for things electrical. His earliest work, as connected with telegraphy and in particular its application for securing the safe working of railways; in 1853 he obtained an appointment with the Electric and National Telegraph Company. In 1856 he became Superintendent of that company's southern district, but four years later he moved to telegraph work with the London and South West Railway. From 1858 to 1862 he was also Engineer to the Channel Islands Telegraph Company. When the various telegraph companies in Britain were transferred to the State in 1870, Preece became a Divisional Engineer in the General Post Office (GPO). Promotion followed in 1877, when he was appointed Chief Electrician to the Post Office. One of the first specimens of Bell's telephone was brought to England by Preece and exhibited at the British Association meeting in 1877. From 1892 to 1899 he served as Engineer-in-Chief to the Post Office. During this time he made a number of important contributions to telegraphy, including the use of water as part of telegraph circuits across the Solent (1882) and the Bristol Channel (1888). He also discovered the existence of inductive effects between parallel wires, and with Fleming showed that a current (thermionic) flowed between the hot filament and a cold conductor in an incandescent lamp.Preece was distinguished by his administrative ability, some scientific insight, considerable engineering intuition and immense energy. He held erroneous views about telephone transmission and, not accepting the work of Oliver Heaviside, made many errors when planning trunk circuits. Prior to the successful use of Hertzian waves for wireless communication Preece carried out experiments, often on a large scale, in attempts at wireless communication by inductive methods. These became of historic interest only when the work of Maxwell and Hertz was developed by Guglielmo Marconi. It is to Preece that credit should be given for encouraging Marconi in 1896 and collaborating with him in his early experimental work on radio telegraphy.While still employed by the Post Office, Preece contributed to the development of numerous early public electricity schemes, acting as Consultant and often supervising their construction. At Worcester he was responsible for Britain's largest nineteenth-century public hydro-electric station. He received a knighthood on his retirement in 1899, after which he continued his consulting practice in association with his two sons and Major Philip Cardew. Preece contributed some 136 papers and printed lectures to scientific journals, ninety-nine during the period 1877 to 1894.[br]Principal Honours and DistinctionsCB 1894. Knighted (KCB) 1899. FRS 1881. President, Society of Telegraph Engineers, 1880. President, Institution of Electrical Engineers 1880, 1893. President, Institution of Civil Engineers 1898–9. Chairman, Royal Society of Arts 1901–2.BibliographyPreece produced numerous papers on telegraphy and telephony that were presented as Royal Institution Lectures (see Royal Institution Library of Science, 1974) or as British Association reports.1862–3, "Railway telegraphs and the application of electricity to the signaling and working of trains", Proceedings of the ICE 22:167–93.Eleven editions of Telegraphy (with J.Sivewright), London, 1870, were published by 1895.1883, "Molecular radiation in incandescent lamps", Proceedings of the Physical Society 5: 283.1885. "Molecular shadows in incandescent lamps". Proceedings of the Physical Society 7: 178.1886. "Electric induction between wires and wires", British Association Report. 1889, with J.Maier, The Telephone.1894, "Electric signalling without wires", RSA Journal.1898, "Aetheric telegraphy", Proceedings of the Institution of Electrical Engineers.Further ReadingJ.J.Fahie, 1899, History of Wireless Telegraphy 1838–1899, Edinburgh: Blackwood. E.Hawkes, 1927, Pioneers of Wireless, London: Methuen.E.C.Baker, 1976, Sir William Preece, F.R.S. Victorian Engineer Extraordinary, London (a detailed biography with an appended list of his patents, principal lectures and publications).D.G.Tucker, 1981–2, "Sir William Preece (1834–1913)", Transactions of the Newcomen Society 53:119–36 (a critical review with a summary of his consultancies).GW / KFBiographical history of technology > Preece, Sir William Henry
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