-
81 epr
1) Общая лексика: Exploration and Production Russia (Shell), европейский реактор с водой под давлением (European Pressurised [Water nuclear] Reactor, иногда расшифровывают как evolutionary power reactor (реактор т.н. 3+ поколения, французско-немецкий проект. Есть вариант для США US-EPR)), evaporator pressure regulator2) Авиация: степень повышения давления в двигателе3) Военный термин: Enlisted Performance Report, Extended Planning Annex, emergency parts requisition, equipment performance report, essential performance requirements, experimental packet radio, explosion-proof relay4) Техника: electromechanical potentiokinetic reactivation, electronic parts reliability, emergency planning requirements, emergency planning review, enhanced participatory rulemaking, equipotential region, essential performance requirement, experimental power reactor5) Юридический термин: Evidence Processing Room6) Автомобильный термин: exhaust pressure regulator valve7) Оптика: electron parameter resonance8) Сокращение: Engine Pressure Ratio, этилен-пропиленовый каучук (Ethylene Propylene Rubber)9) Физиология: Electronic Patient Record10) Электроника: Ethylene- Propylene ( Copolymer) Resin11) Нефть: East Pacific Rise, Exxon production research company, electronic paramagnetic resonance, ethylene-propylene rubber conductor insulation, донесение об эксплуатационных качествах оборудования (equipment performance report)12) Космонавтика: Emergency Preparedness and Response Unit (WHO)13) Банковское дело: отношение чистой прибыли к цене акции (earnings-price ratio)14) Воздухоплавание: Engine Pressure Radio, Engine Pressure Ration15) Деловая лексика: Every Painter's Responsibility, Extended Producer Responsibility, Extended Product Responsibility16) Инвестиции: earnings-price ratio18) Программирование: Endpoint references, ссылки на оконечные точки19) Сахалин Р: Explosion Protection Review20) Кабельные производство: ethylene-propylene rubber22) NYSE. Entertainment Properties Trust -
82 et
1) Общая лексика: hum. сокр. Embryo Transfer, hum. сокр. Embryo Transplant2) Компьютерная техника: exchange termination3) Авиация: ground controller approach, electronic ticket4) Медицина: endothelin5) Американизм: Equal Time6) Спорт: End Time7) Военный термин: Earth Terminal, Electronic Trigger, Embedded Training, Enhanced Terminal, European theater, Extra Tanked, educational training, elapsed time, electronic technology, emergency takeover, emerging technologies, employment testing, engineer training, engineering test, equipment test, equivalent training, estimated time, estimation techniques, evaluation test, experiment test, exploratory technique, explosive technology, explosive train8) Техника: Electric Toothbrush, earliest time, eddy current test, electric telegraph, electron tube, electronics test, emergency tank, end of tape, environmental testing, executive team, extraction turbine, клемма заземления9) Математика: Evaluated Tuples10) Бухгалтерия: Code of Professional Conduct, наиболее ранний срок (появления события в системе ПЕРТ, earliest time)11) Астрономия: extraterrestrial, внеземной12) Металлургия: Equal Taper13) Оптика: ephemeris time14) Политика: Ethiopia15) Сокращение: Civil aircraft marking (Ethiopia), Electronic Timer, Electronics Technician, Electrothermal, Embedded Trainer, English translation, Estonian, Ethiopia (NATO country code), ExaByte (quintillion), External Tank, Extra Terrestrial, edge thickness, electrical time, emerging technology, Eastern Time (GMT - 0500), emission trading (официальный термин в Киотском протоколе)16) Текстиль: Extra Tall17) Университет: Education Technology, Environmental Technology, Extra Time18) Физиология: And, Equal Temperament, EsoTropia, Evapo Transpiration, Extra Testicular19) Вычислительная техника: Eastern Time, ElectroText, (Shuttle) External Tank (Space), Extra Terrestrial (Space)20) Иммунология: Experimental Therapeutics21) Гинекология: embryo transfer22) Биотехнология: Early Transposon23) Транспорт: Easy Traction, Electric Traction24) Пищевая промышленность: Extra Tasty25) Фирменный знак: Electronic Research, England Telecom26) Холодильная техника: evaporating temperature27) Экология: Ecological Transport, environmental test, evapotranspiration28) СМИ: Expressed Transcript29) Деловая лексика: Emergency Tender, Executive Training30) Глоссарий компании Сахалин Энерджи: external thread, (ECT) контроль вихревого тока31) Полимеры: effective temperature32) Ядерная физика: Emf-Temperature33) Химическое оружие: event tree34) Расширение файла: Enhancement Technology35) Электротехника: engineering tests36) Имена и фамилии: Elisha Tobey37) Высокочастотная электроника: envelope tracking38) Должность: Early Termination, Educational Trainer, Evil Temptress, Executive Technical39) Правительство: Evergreen Terrace, Extra Territorial40) Программное обеспечение: Editor Toolkit41) Международная торговля: Experimental Tourism42) Клинические исследования: early termination (досрочное завершение (исследования)) -
83 Voelcker, John Augustus
SUBJECT AREA: Agricultural and food technology[br]b. 24 June 1854 Cirencester, Englandd. 1937 England[br]English agricultural chemist.[br]John Augustus Voelcker, as the son of Dr John Christopher Voelcker, grew up in an atmosphere of scientific agriculture and would have had contact with the leading agriculturists of the day. He was educated at University College School and then University College, London, where he obtained both a BA and a BSc Following in his father's footsteps, he studied for his PhD at Giessen University in Germany. At college he enjoyed athletics, an interest he was to pursue for the rest of his life. He decided to take up agricultural chemistry and was to succeed to all the public offices once held by his father, from whom he also took over the directorship of Woburn Farm. The experimental farm had been started in 1876 and was used to study the residual effects of chemicals in the soil. The results of these studies were used as the basis for compensation awards to tenant farmers giving up their farms. Voelcker broadened the range of studies to include trace elements in the soil, but by 1921 the Royal Agricultural Society of England had decided to give up the farm. This was a blow to Voelcker and occurred just before experiments elsewhere highlighted the importance of these elements to healthy plant growth. He continued the research at his own expense until the Rothampsted Experimental Station took over the farm in 1926. Aside from his achievements in Britain, Voelcker undertook a study tour of India in 1890, the report on which led to the appointment of an Agricultural Chemist, and the establishment of a scientific service for the Indian subcontinent.[br]Principal Honours and DistinctionsPresident, Royal Society of Public Analysts. Member of Council, Chemical Society, and Institute of Chemistry. Chairman, Farmers' Club.BibliographyMost of his publications were in the Journal of the Royal Agricultural Society of England, for which he wrote an annual report, and in another series of reports relating to Woburn Farm. The Improvements of Indian Agriculture was the result of his tour in 1890.Further ReadingJ.H.Gilbert, 1937, obituary Journal of the Royal Agricultural Society of England, pp. 464–8.Sir E.John Russell, A History of Agricultural Science in Great Britain.APBiographical history of technology > Voelcker, John Augustus
-
84 ERS
1) Компьютерная техника: Emergency Recovery System, External Reference Specification2) Медицина: European Respiratory Society3) Спорт: Exclusive Ride Session4) Военный термин: Electronics Rack System, Ellipsoidal Reflector Spotlight, electronic reconnaissance set, emergency recovery section, emergency relocation site, expanded radar service5) Техника: Electric Resistant Strain, effective receiver sensitivity6) Автомобильный термин: Electronic Range Select7) Сокращение: EUROPEAN SPACE AGENCY Remote-sensing Satellite, Economic Research Service, Educational Research Service, European Remote sensing Satellite, erased8) Электроника: Event reporting standard9) Вычислительная техника: Enterprise Resource Sharing (ENS, Banyan, VINES), Error Report Suppression (flag, CATNIP)10) Нефть: emergency rescue service11) Космонавтика: ДЗЗ, дистанционное зондирование Земли12) Транспорт: Emergency Road Service13) Деловая лексика: Experimental Resolution System, дополнительная выплата в зависимости от размера заработной платы (Earnings Related Supplement)14) Глоссарий компании Сахалин Энерджи: emergency release system, Emergency Release System (U-3400), Emergency Response System15) Образование: Employees Retirement System16) Сетевые технологии: Enterprise Reporting System, Errors Party17) Сахалин Р: Emergency Response Service18) Океанография: ESA Remote-sensing Satellite, Earth Resources Satellite, European Remote Sensing19) Сахалин Ю: emergency response station20) Расширение файла: Satellite image header (ER Mapper file, Earth Resource Mapping)21) Логистика: доплата за повышенную степень риска (Emergency Risk Surcharge)23) AMEX. Empire Resources, Inc., of Delaware -
85 ers
1) Компьютерная техника: Emergency Recovery System, External Reference Specification2) Медицина: European Respiratory Society3) Спорт: Exclusive Ride Session4) Военный термин: Electronics Rack System, Ellipsoidal Reflector Spotlight, electronic reconnaissance set, emergency recovery section, emergency relocation site, expanded radar service5) Техника: Electric Resistant Strain, effective receiver sensitivity6) Автомобильный термин: Electronic Range Select7) Сокращение: EUROPEAN SPACE AGENCY Remote-sensing Satellite, Economic Research Service, Educational Research Service, European Remote sensing Satellite, erased8) Электроника: Event reporting standard9) Вычислительная техника: Enterprise Resource Sharing (ENS, Banyan, VINES), Error Report Suppression (flag, CATNIP)10) Нефть: emergency rescue service11) Космонавтика: ДЗЗ, дистанционное зондирование Земли12) Транспорт: Emergency Road Service13) Деловая лексика: Experimental Resolution System, дополнительная выплата в зависимости от размера заработной платы (Earnings Related Supplement)14) Глоссарий компании Сахалин Энерджи: emergency release system, Emergency Release System (U-3400), Emergency Response System15) Образование: Employees Retirement System16) Сетевые технологии: Enterprise Reporting System, Errors Party17) Сахалин Р: Emergency Response Service18) Океанография: ESA Remote-sensing Satellite, Earth Resources Satellite, European Remote Sensing19) Сахалин Ю: emergency response station20) Расширение файла: Satellite image header (ER Mapper file, Earth Resource Mapping)21) Логистика: доплата за повышенную степень риска (Emergency Risk Surcharge)23) AMEX. Empire Resources, Inc., of Delaware -
86 programme
1. nпрограмма; план
- ad hoc programme
- adjustment programme
- administrative programme
- advertising programme
- advertising and promotional programme
- allocation programme
- application programme
- approved programme
- audit programme
- austerity programme
- baseline programme
- bilateral programme
- bills programme
- broadened programme
- budgeting programme
- business support programme
- buy-out programme
- census programme
- certification programme
- commercial paper programme
- commissioning programme
- common programme
- comprehensive programme
- construction programme
- control programme
- cost-effectiveness programme
- crash programme
- credit programme
- current programme
- demonstration programme
- design programme
- detailed programme
- development programme
- diagnostic programme
- diversification programme
- economic programme
- efficient programme
- emergency programme
- engineering programme
- evaluation programme
- exhibition programme
- expansion programme
- expense reduction programme
- experimental programme
- exploration programme
- export programme
- extended programme
- extension programme
- extra-budgetary programme
- feasible programme
- federal programme
- financial programme
- follow-up programme
- framework programme
- frequent buyer programme
- general programme
- general work programme
- harvesting programme
- health care programme
- heavy programme
- import programme
- index programme
- indicative programme
- industrial programme
- industrialization programme
- industry-oriented programme
- inspection programme
- investigation programme
- investment programme
- joint programme
- large-scale programme
- licensed programme
- licensing programme
- loading programme
- long-range programme
- long-term programme
- management programme
- manufacturing programme
- marketing programme
- military programme
- modernization programme
- modified programme
- operating programme
- operational programme
- operative programme
- optimum programme
- original programme
- output programme
- output control programme
- outreach programme
- package programme
- packaged computer programme
- pilot programme
- preliminary programme
- price support programme
- priority programme
- privatization programme
- processing programme
- product improvement programme
- production programme
- promotion programme
- proposed programme
- public housing programme
- public welfare programme
- public works programme
- purchasing programme
- purpose-oriented programme
- quality programme
- quality check programme
- rebuilding programme
- recovery programme
- reinterview programme
- relief programme
- research programme
- restructuring programme
- revised programme
- safety programme
- sale-and-leaseback programme
- sales programme
- sales development programme
- sales promotion programme
- selling programme
- source programme
- special programme
- sponsored programme
- stabilization programme
- standardization programme
- standby lending programme
- stock-buyback programme
- target programme
- technical programme
- technological programme
- testing programme
- training programme
- turnaround programme
- updating programme
- user programme
- working programme
- World Food Programme
- zero-defects programme
- programme for economic rehabilitation
- programme for exploration
- programme for investigation
- programme for research
- programme of action
- programme of cooperation
- programme of demonstration
- programme of development
- programme of financing
- programme of instruction
- programme of purchases
- programme of training
- programme of a visit
- programme of work
- agree upon a programme
- approve a programme
- carry out a programme
- commit smb to a programme
- continue with a programme
- co-finance a programme
- coordinate programmes
- cooperate in a programme
- curtail the investment programme
- define a programme
- develop a programme
- disclose a programme
- draw up a programme
- elaborate a programme
- endorse a programme
- establish a programme
- execute a programme
- finance a programme
- formulate a programme
- implement a programme
- initiate a programme
- launch a programme
- lay down a programme
- maintain a programme
- make a programme
- map out a programme
- modify a programme
- negotiate a programme
- offer a programme
- prepare a programme
- project a programme
- propose a programme
- realize a programme
- reconsider a programme
- revise a programme
- roll back a programme
- sponsor a programme
- squeeze social programmes
- suspend a programme
- work out a programme2. vсоставлять программу или план; планировать; программироватьEnglish-russian dctionary of contemporary Economics > programme
-
87 pioneer
1. n пионер, первооткрыватель; первопроходец2. n зачинатель, инициатор3. n новатор4. n воен. сапёр5. n амер. название серии американских автоматических космических аппаратов6. a первый7. a новый, новаторский8. a пробный, исследовательский9. v прокладывать путь, быть пионером, первооткрывателем, инициатором10. v вести, направлятьСинонимический ряд:1. first (adj.) earliest; first; initial; maiden; original; primary; prime2. initiatory (adj.) brave; creative; early; experimental; initiatory; introductory; pioneering; untried3. army engineer (noun) army engineer; bridge builder; combat engineer; engineer; fortification engineer; member of demolition squad; miner; road builder; sapper4. builder (noun) builder; contributor; creator; developer5. colonist (noun) colonist; colonizer; early settler; homesteader; immigrant; pilgrim; settler; squatter6. innovator (noun) innovator; leader; pacesetter7. trailblazer (noun) explorer; forerunner; frontiersman; guide; pathfinder; path-finder; precursor; scout; trailblazer8. establish (verb) blaze; colonise; colonize; develop; discover; establish; explore; found; initiate; settle; triggerАнтонимический ряд: -
88 program(me)
программа; план; последовательность операций; программировать; задавать последовательность операцийaerodynamic research improvement program(me) — программа исследований по улучшению аэродинамики (ЛА)
manned space flight program(me) — программа полётов КЛА с экипажем [пилотируемых КЛА]
multiaircraft flight test program(me) — программа лётных испытаний с участием большого количества ЛА
preselected mixture ratio program(me) — программа изменения состава смеси [соотношения окислителя и горючего] по заранее установленным показателям
-
89 program(me)
программа; план; последовательность операций; программировать; задавать последовательность операцийaerodynamic research improvement program(me) — программа исследований по улучшению аэродинамики (ЛА)
manned space flight program(me) — программа полётов КЛА с экипажем [пилотируемых КЛА]
multiaircraft flight test program(me) — программа лётных испытаний с участием большого количества ЛА
preselected mixture ratio program(me) — программа изменения состава смеси [соотношения окислителя и горючего] по заранее установленным показателям
-
90 vehicle
(авто)транспортное средство; летательный аппарат; ракета, см. тж. aircraft, missile, spacecraft; растворитель, связующее веществоlimited power space vehicle — КЛА с силовой установкой ограниченной тяги [ограниченного ресурса работы]
multipurpose manned entry space vehicle — многоцелевой пилотируемый КЛА, рассчитанный на вход в атмосферу
nonspinning reentry space vehicle — КЛА, нестабилизируемый вращением при входе в атмосферу
nuclear(-powered, -propelled) vehicle — ЛА с ядерной силовой [двигательной] установкой
pogo-stick type lunar surface vehicle — аппарат с пружинным шестом для передвижения по лунной поверхности
space shuttle booster vehicle — ускоритель [стартовый двигатель] челночного воздушно-космического аппарата
spinning reentry space vehicle — КЛА, стабилизируемый вращением при входе в атмосферу
-
91 Davis, Robert Henry
SUBJECT AREA: Ports and shipping[br]b. 6 June 1870 London, Englandd. 29 March 1965 Epsom, Surrey, England[br]English inventor of breathing, diving and escape apparatus.[br]Davis was the son of a detective with the City of London police. At the age of 11 he entered the employment of Siebe, Gorman \& Co., manufacturers of diving and other safety equipment since 1819, at their Lambeth works. By good fortune, his neat handwriting attracted the notice of Mr Gorman and he was transferred to work in the office. He studied hard after working hours and rose steadily in the firm. In his twenties he was promoted to Assistant Manager, then General Manager, Managing Director and finally Governing Director. He retired in 1960, having been made Life President the previous year, and continued to attend the office regularly until May 1964.Davis's entire career was devoted to research and development in the firm's special field. In 1906 he perfected the first practicable oxygen-breathing apparatus for use in mine rescue; it was widely adopted and with modifications was still in use in the 1990s. With Professor Leonard Hill he designed a deep-sea diving-bell incorporating a decompression chamber. He also invented an oxygen-breathing apparatus and heated apparel for airmen flying at high altitudes.Immediately after the first German gas attacks on the Western Front in April 1915, Davis devised a respirator, known as the stocking skene or veil mask. He quickly organized the mass manufacture of this device, roping in members of his family and placing the work in the homes of Lambeth: within 48 hours the first consignment was being sent off to France.He was a member of the Admiralty Deep Sea Diving Committee, which in 1933 completed tables for the safe ascent of divers with oxygen from a depth of 300 ft (91 m). They were compiled by Davis in conjunction with Professors J.B.S.Haldane and Leonard Hill and Captain G.C.Damant, the Royal Navy's leading diving expert. With revisions these tables have been used by the Navy ever since. Davis's best-known invention was first used in 1929: the Davis Submarine Escape Apparatus. It became standard equipment on submarines until it was replaced by the Built-in Breathing System, which the firm began manufacturing in 1951.The firm's works were bombed during the Second World War and were re-established at Chessington, Surrey. The extensive research facilities there were placed at the disposal of the Royal Navy and the Admiralty Experimental Diving Unit. Davis worked with Haldane and Hill on problems of the underwater physiology of working divers. A number of inventions issued from Chessington, such as the human torpedo, midget submarine and human minesweeper. In the early 1950s the firm helped to pioneer the use of underwater television to investigate the sinking of the submarine Affray and the crashed Comet jet airliners.[br]Principal Honours and DistinctionsKnighted 1932.BibliographyDavis was the author of several manuals on diving including Deep Sea Diving and Submarine Operations and Breathing in Irrespirable Atmospheres. He also wrote Resuscitation: A Brief Personal History of Siebe, Gorman \& Co. 1819–1957.Further ReadingObituary, 1965, The Times, 31 March, p. 16.LRD -
92 Domagk, Gerhard Johannes Paul
SUBJECT AREA: Medical technology[br]b. 30 October 1895 Lagow, Brandenburg, Germanyd. 24 April 1964 Burgberg, Germany[br]German physician, biochemist and pharmacologist, pioneer of antibacterial chemotherapy.[br]Domagk's studies in medicine were interrupted by the outbreak of the First World War and his service in the Army, delaying his qualification at Kiel until 1921. For a short while he worked at the University of Greifswald, but in 1925 he was appointed Reader in Pathology at the University of Munster, where he remained as Extraordinary Professor of General Pathology and Pathological Anatomy (1928) and Professor (1958).In 1924 he published a paper on the role of the reticulo-endothelial system against infection. This led to his appointment as Director of Research by IG Farbenindustrie in their laboratory for experimental pathology and bacteriology. The planned programme of research into potential antibacterial chemotherapeutic drugs led, via the discovery of the dye Prontosil rubrum by his colleagues, to his reporting in 1936 the clinical antistreptococcal effects of the sulphonamide drugs. These results were confirmed in other countries, but owing to problems with the Nazi authorities he was unable to receive until 1947 the Nobel Prize that he was awarded in 1939.Domagk turned his interest to the chemotherapy of tuberculosis, and in 1946 he was able to report the therapeutic activity of the thiosemicarbazones, which, although too toxic for general use, in their turn led to the discovery of the potent and effective isoniazid. In his later years he moved into the field of cancer chemotherapy, but interestingly he wrote, "One should not have too great expectations of the future of cytostatic agents." His only daughter was one of the first patients to have a severe streptococcal infection successfully treated with Prontosil rubrum.[br]Principal Honours and DistinctionsNobel Prize for Medicine 1939. Foreign Member of the Royal Society. Paul Ehrlich Gold Medal.Bibliography1935, "Ein Beitrag zur Chemotherapie der bakteriellen Infektionen", Deutsche med. Woch.1924, Virchows Archiv für Path. Anat. und Physiol. u.f. klin. Med. 253:294–638.Further Reading1964, Biographical Memoirs of the Royal Society: Gerhard Domagk, London.MGBiographical history of technology > Domagk, Gerhard Johannes Paul
-
93 Duddell, William du Bois
SUBJECT AREA: Electricity[br]b. 1872 Kensington, London, Englandd. 4 November 1917 London, England[br]English engineer, inventor of the first practical oscillograph.[br]After an education at the College of Stanislas, Cannes, Duddell served an apprenticeship with Davy Paxman of Colchester. Studying under Ayrton and Mather at the Central Technical College in South Kensington, he found the facilities for experimental work of exceptional value to him and remained there for some years. In 1897 Duddell produced a galvanometer which was sufficiently responsive to display an alternating-current wave-form. This instrument, with a coil carrying a mirror in the air gap of a powerful electromagnet, had a small periodic time. An oscillating mirror driven by a synchronous motor spread out the deflection on a time-scale. This development became the first commercial oscillograph and brought Duddell into prominence as a first-rate designer of special instruments. The Duddell oscillograph remained in use until after the Second World War, examples being used for recording short-circuit tests on high-power switchgear and other rapidly varying or transient phenomena. His next important work was to collaborate with Professor Marchant at Liverpool University to investigate the characteristics of the electric arc. This led to the suggestion that, coupled to a resonant circuit, the electric arc could form a generator of high-frequency currents. This arrangement was later developed by Poulson for wireless telegraphy. Duddell spent the last years of his life on government research as a member of the Admiralty Board of Inventions and Research and also of the Inventions Board of the Ministry of Munitions.[br]Principal Honours and DistinctionsCBE 1916. FRS 1907. Royal Society Hughes Medal 1912. President, Institution of Electrical Engineers 1912 and 1913.Bibliography1897, Electrician, 39:636–8 (describes his oscillograph). 5 March 1898, British patent no. 5,449 (the oscillograph).1899, with E.W.Marchant, "Experiments on alternate current arcs by aid of oscillograph", Journal of the Institution of Electrical Engineers 28: 1–107.Further ReadingV.J.Phillips, 1987, Waveforms, Bristol (a comprehensive account).1945, "50 years of scientific instrument manufacture", Engineering, 159:461.GWBiographical history of technology > Duddell, William du Bois
-
94 Florey, Howard Walter
SUBJECT AREA: Medical technology[br]b. 24 September 1898 Adelaide, Australiad. 21 February 1968 Oxford, England[br]Australian pathologist who contributed to the research and technology resulting in the practical clinical availability of penicillin.[br]After graduating MB and BS from Adelaide University in 1921, he went to Oxford University, England, as a Rhodes Scholar in 1922. Following a period at Cambridge and as a Rockefeller Fellow in the USA, he returned to Cambridge as Lecturer in Pathology. He was appointed to the Chair of Pathology at Sheffield at the age of 33, and to the Sir William Dunne Chair of Pathology at Oxford in 1935.Although historically his name is inseparable from that of penicillin, his experimental interests and achievements covered practically the whole range of general pathology. He was a determined advocate of the benefits to research of maintaining close contact between different disciplines. He was an early believer in the need to study functional changes in cells as much as the morphological changes that these brought about.With E. Chain, Florey perceived the potential of Fleming's 1929 note on the bacteria-inhibiting qualities of Penicillium mould. His forthright and dynamic character played a vital part in developing what was perceived to be not just a scientific and medical discovery of unparalleled importance, but a matter of the greatest significance in a war of survival. Between them, Florey and Chain were able to establish the technique of antibiotic isolation and made their findings available to those implementing large-scale fermentation production processes in the USA.Despite being domiciled in England, he played an active role in Australian medical and educational affairs and was installed as Chancellor of the Australian National University in 1966.[br]Principal Honours and DistinctionsLife peer 1965. Order of Merit 1965. Knighted 1944. FRS 1941. President, Royal Society 1960–5. Nobel Prize for Medicine or Physiology (jointly with E.B.Chain and A.Fleming) 1945. Copley Medal 1957. Commander, Légion d'honneur 1946. British Medical Association Gold Medal 1964.Bibliography1940, "Penicillin as a chemotherapeutic agent", Lancet (with Chain). 1949, Antibiotics, Oxford (with Chain et al.).1962, General Pathology, Oxford.MG -
95 Grove, Sir William Robert
SUBJECT AREA: Electricity[br]b. 11 July 1811 Swansea, Walesd. 1 August 1896 London, England[br]Welsh chemist and physicist, inventor of the Grove electrochemical primary cell.[br]After education at Brasenose College, Oxford, Grove was called to the Bar in 1835. Instead of immediately practising, he became involved in electrical research, devising in 1839 the cell that bears his name. He became Professor of Experimental Philosophy at the London Institution from 1840 to 1845; it was during this period that he built up his high reputation among physicists. In 1846 he published On the Correlation of Physical Forces, which was based on a course of his lectures. He returned to the practice of law, becoming a judge in 1871, but retained his interest in scientific research during his sixteen-year occupancy of the Bench. He served as a member of the Council of the Royal Society in 1846 and 1847 and played a leading part in its reform. Contributing to the science of electrochemistry, he invented the Grove cell, which together with its modification by Bunsen became an important source of electrical energy during the middle of the nineteenth century, before mechanically driven generators became available. The Grove cell had a platinum electrode immersed in strong nitric acid, separated by a porous diaphragm from a zinc electrode in weak sulphuric acid. The hydrogen formed at the platinum electrode was immediately oxidized by the acid, turning it into water. This avoided the polarization which occurred in the early copper-zinc cells. It was a very powerful primary cell with a high voltage and a low internal resistance, but it produced objectionable fumes. Grove also invented his "gas battery", the earliest fuel cell, in which a current resulted from the chemical energy released from combining oxygen and hydrogen. This was developed by Rawcliffe and others, and found applications as a power source in manned spacecraft.[br]Principal Honours and DistinctionsKnighted 1872. FRS 1840. Fellow of the Chemistry Society 1841. Royal Society Royal Medal 1847.Bibliography1846, On the Correlation of Physical Forces, London; 1874, 6th edn, with reprints of many of Grove's papers (his only book, an early view on the conservation of energy).1839, "On a small voltaic battery of great energy", Philosophical Magazine 15:287–93 (his account of his cell).Further ReadingObituary, 1896, Electrician 37:483–4.K.R.Webb, 1961, "Sir William Robert Grove (1811–1896) and the origin of the fuel cell", Journal of the Royal Institute of Chemistry 85: 291–3 (for the present-day significance of Grove's experiments).C.C.Gillispie (ed.), 1972, Dictionary of Scientific Biography, Vol. V, New York, pp. 559–61.GWBiographical history of technology > Grove, Sir William Robert
-
96 Lodge, Sir Oliver Joseph
[br]b. 12 June 1851 Penkhull, Staffordshire, Englandd. 22 August 1940 Lake, near Salisbury, Wiltshire, England[br]English physicist who perfected Branly's coherer; said to have given the first public demonstration of wireless telegraphy.[br]At the age of 8 Lodge entered Newport Grammar School, and in 1863–5 received private education at Coombs in Suffolk. He then returned to Staffordshire, where he assisted his father in the potteries by working as a book-keeper. Whilst staying with an aunt in London in 1866–7, he attended scientific lectures and became interested in physics. As a result of this and of reading copies of English Mechanic magazine, when he was back home in Hanley he began to do experiments and attended the Wedgewood Institute. Returning to London c. 1870, he studied initially at the Royal College of Science and then, from 1874, at University College, London (UCL), at the same time attending lectures at the Royal Institution.In 1875 he obtained his BSc, read a paper to the British Association on "Nodes and loops in chemical formulae" and became a physics demonstrator at UCL. The following year he was appointed a physics lecturer at Bedford College, completing his DSc in 1877. Three years later he became Assistant Professor of Mathematics at UCL, but in 1881, after only two years, he accepted the Chair of Experimental Physics at the new University College of Liverpool. There began a period of fruitful studies of electricity and radio transmission and reception, including development of the lightning conductor, discovery of the "coherent" effect of sparks and improvement of Branly's coherer, and, in 1894, what is said to be the first public demonstration of the transmission and reception (using a coherer) of wireless telegraphy, from Lewis's department store to the clock tower of Liverpool University's Victoria Building. On 10 May 1897 he filed a patent for selective tuning by self-in-ductance; this was before Marconi's first patent was actually published and its priority was subsequently upheld.In 1900 he became the first Principal of the new University of Birmingham, where he remained until his retirement in 1919. In his later years he was increasingly interested in psychical research.[br]Principal Honours and DistinctionsKnighted 1902. FRS 1887. Royal Society Council Member 1893. President, Society for Psychical Research 1901–4, 1932. President, British Association 1913. Royal Society Rumford Medal 1898. Royal Society of Arts Albert Medal 1919. Institution of Electrical Engineers Faraday Medal 1932. Fourteen honorary degrees from British and other universities.Bibliography1875, "The flow of electricity in a plane", Philosophical Magazine (May, June and December).1876, "Thermo-electric phenomena", Philosophical Magazine (December). 1888, "Lightning conductors", Philosophical Magazine (August).1889, Modern Views of Electricity (lectures at the Royal Institution).10 May 1897, "Improvements in syntonized telegraphy without line wires", British patent no. 11,575, US patent no. 609,154.1898, "Radio waves", Philosophical Magazine (August): 227.1931, Past Years, An Autobiography, London: Hodder \& Stoughton.Further ReadingW.P.Jolly, 1974, Sir Oliver Lodge, Psychical Resear cher and Scientist, London: Constable.E.Hawks, 1927, Pioneers of Wireless, London: Methuen.See also: Hertz, Heinrich RudolphKFBiographical history of technology > Lodge, Sir Oliver Joseph
-
97 Monro, Philip Peter
SUBJECT AREA: Chemical technology[br]b. 27 May 1946 London, England[br]English biologist, inventor of a water-purification process by osmosis.[br]Monro's whole family background is engineering, an interest he did not share. Instead, he preferred biology, an enthusiasm aroused by reading the celebrated Science of Life by H.G. and G.P.Wells and Julian Huxley. Educated at a London comprehensive school, Monro found it necessary to attend evening classes while at school to take his advanced level science examinations. Lacking parental support, he could not pursue a degree course until he was 21 years old, and so he gained valuable practical experience as a research technician. He resumed his studies and took a zoology degree at Portsmouth Polytechnic. He then worked in a range of zoology and medical laboratories, culminating after twelve years as a Senior Experimental Officer at Southampton Medical School. In 1989 he relinquished his post to devote himself fall time to developing his inventions as Managing Director of Hampshire Advisory and Technical Services Ltd (HATS). Also in 1988 he obtained his PhD from Southampton University, in the field of embryology.Monro had meanwhile been demonstrating a talent for invention, mainly in microscopy. His most important invention, however, is of a water-purification system. The idea for it came from Michael Wilson of the Institute of Dental Surgery in London, who evolved a technique for osmotic production of sterile oral rehydration solutions, of particular use in treating infants suffering from diarrhoea in third-world countries. Monro broadened the original concept to include dried food, intravenous solutions and even dried blood. The process uses simple equipment and no external power and works as follows: a dry sugar/salts mixture is sealed in one compartment of a double bag, the common wall of which is a semipermeable membrane. Impure water is placed in the empty compartment and the water transfers across the membrane by the osmotic force of the sugar/salts. As the pores in the membrane exclude all viruses, bacteria and their toxins, a sterile solution is produced.With the help of a research fellowship granted for humanitarian reasons at King Alfred College, Winchester, the invention was developed to functional prototype stage in 1993, with worldwide patent protection. Commercial production was expected to follow, if sufficient financial backing were forthcoming. The process is not intended to replace large installations, but will revolutionize the small-scale production of sterile water in scattered third-world communities and in disaster areas where normal services have been disrupted.HATS was awarded First Prize in the small business category and was overall prize winner in the Toshiba Year of Invention, received a NatWest/BP award for technology and a Prince of Wales Award for Innovation.[br]Bibliography1993, with M.Wilson and W.A.M.Cutting, "Osmotic production of sterile oral rehydration solutions", Tropical Doctor 23:69–72.LRD -
98 work
- work
- n1. работа
2. изделие
3. обработка
4. возводимый объект (строительства) ( по подрядному договору); конструкция, сооружение
5. работа, мощность
6. pl сооружение, сооружения
7. pl завод, фабрика, мастерские
work above ground — наземные работы ( в отличие от подземных и подводных); работы, производимые на поверхности земли
work below ground ( level) — подземные работы
work carried out on site — работы, выполненные на стройплощадке
work done in sections — работа, выполненная отдельными секциями [частями]
work in open excavations — работы в открытых выемках [горных выработках]
work in progress — (строительные) работы в стадии выполнения, выполняемые [производимые] (строительные) работы; объект в стадии строительства
work in water — работы, производимые в воде [под водой]
work near water — работы, производимые близ водоёмов или рек
work on schedule — работы в процессе выполнения ( по графику); работы, предусмотренные планом [графиком]
- work of deformation
- work of external forces
- work of internal forces
- above-ground works
- additional work
- agricultural works
- alteration work
- ashlar work
- auxiliary work
- avalanche baffle works
- axed work
- backfill work
- backing masonry work
- bag work
- bench work
- block work
- brewery works
- brick work
- broken-color work
- brush work
- building work
- building site works
- carcass work
- carpenter's work
- cement works
- chemical production works
- civil engineering work
- coast protection works
- cob work
- completed work
- complicated building work
- concrete work
- concrete block masonry work
- concrete masonry work
- constructional work
- construction work
- continuous shift work
- contract work
- coursed work
- crib work
- day work
- dead work
- defective work
- defence works
- deformation work
- demolition work
- development work
- diver's works
- diversion works
- donkey work
- drainage works
- earth work
- earth-moving work
- elastic work of a material
- electric work
- electricity production works
- emergency work
- enclosed construction works
- engineering works
- erection work
- erosion protection works
- excavation works
- experimental work
- external work
- extra work
- facing work
- factory work
- fascine work
- finishing work
- finish work
- floating construction works
- flood-control works
- flood-protection works
- floor work
- floor-and-wall tiling work
- floor covering work
- food industry production work
- foundation work
- funerary works
- further day's work
- gas works
- gauged work
- glazed work
- glazier's work
- half-plain work
- hammered work
- hand work
- handy work
- heat insulation work
- heavy work
- highly mechanized work
- hot work
- in-fill masonry work
- innovative construction work
- insulating work
- intake works
- internal work in the system
- ironmongery work
- joinery work
- land retention works
- landslide protection works
- loading works
- manual work
- marine works
- metallurgical processing works
- night work
- nonconforming work
- office work
- off-the-site work
- one-coat work
- open-air intake works
- open construction works
- ornamental works
- ornate work
- outlet works
- overhang work
- overhead work
- permanent works up to ground level
- petroleum extraction works
- piece work
- pitched work
- plaster work
- plumbing work
- power production works
- precast works
- production works
- promotion work
- protection works
- protective works
- public works
- random ashlar work
- refurbishment work
- refuse disposal works
- refuse incineration works
- regulation works
- reinforced concrete work
- research work
- reticulated work
- road transport works
- roof tiling work
- rubble ashlar masonry work
- sanitary works
- sea defence works
- sediment exclusion works
- sewage disposal works
- single construction works
- smillage-axed work
- solid plaster work
- steel construction works
- steel works
- steel plate work
- structural restoration work
- surface transport works
- temporary works
- textile work
- three-coat work
- tiling work
- training works
- transport works
- treatment works
- two-coat work
- underground work
- underwater work
- unloading works
- vermiculated work
- virtual work
- waste disposal works
- water works
- water treatment works
Англо-русский строительный словарь. — М.: Русский Язык. С.Н.Корчемкина, С.К.Кашкина, С.В.Курбатова. 1995.
-
99 program
- program
- nплан, проект; программа
- program of works
- program of work
- building construction program
- building program
- completed program
- experimental program
- housing renewal program
- in-grade program
- modernization program
- object-oriented development program
- packaged building program
- package building program
- public works program
- repair program
- research program
- safety program
- three-phase work program
- training programs for builders
Англо-русский строительный словарь. — М.: Русский Язык. С.Н.Корчемкина, С.К.Кашкина, С.В.Курбатова. 1995.
-
100 model
1) модель; образец || моделировать; создавать по образцу3) метал. шаблон4) метал. реплика5) слепок; лепнина || лепить6) форма || формовать•-
abstract model
-
advection model
-
ageostrophic model
-
analog model
-
analytical model
-
atmospheric dispersion model
-
atomic model
-
band model
-
barotropic model
-
behavioral model
-
biochemical cycling model
-
bottom-end model
-
bowl model
-
Bragg bubble model
-
breadboard model
-
bulk-freezing model
-
cammed model
-
car model
-
channel operation model
-
cognitive model
-
computational model
-
computation model
-
computer model
-
conceptual model
-
console model
-
consulting model
-
coupled air/ocean model
-
damage model
-
data model
-
dead-reckoned model
-
decoupled model
-
deformation model
-
descriptive model
-
design model
-
deterministic model
-
device model
-
directional numerical model
-
discrete model
-
dislocation model of twinning
-
dynamic model
-
dynamical electrical cloud model
-
electric model
-
energy supply model
-
energy-balance model
-
entry-level model
-
equilibrium slip model
-
experimental model
-
external-reference model
-
fault model
-
fine-mesh model
-
finite element model
-
fixed-bed model
-
flat Earth model
-
FMS model
-
frozen state model
-
full-scale model
-
functional model
-
general circulation model
-
geochemical cycling model
-
geostatistical orebody model
-
graphics model
-
graphic model
-
gross-level model
-
group model
-
heuristic model
-
high-end model
-
highly parameterized model
-
homogeneous equilibrium model
-
horizontal model
-
hydraulic scale model
-
hydrological cycling model
-
hypothesize model
-
image model
-
inviscid atmospheric model
-
ionospheric model
-
irregular-grid model
-
jazz model
-
large-scale model
-
large-signal device model
-
Leontief's model
-
Leontief model
-
limited-area model
-
linear model
-
linearized model
-
long-range transport model
-
low-end model
-
low-volume model
-
lucky-electron model
-
macrolevel model
-
master die model
-
master model
-
mathematical model
-
mesogrid model
-
meteorologically validated model
-
microlevel model
-
mine model
-
model of computation
-
movable nested-mesh model
-
multiasperity model
-
n-equation flow model
-
nested-mesh model
-
network model
-
noise model
-
orthogonal flute model
-
photoelastic model
-
pilot model
-
plotting model
-
point model
-
prediction model
-
predictive model
-
preproduction model
-
primitive equation model
-
probabilistic model
-
probability model
-
projective model
-
propagation model
-
prototype model
-
quasi-linear model
-
quasi-solenoidal model
-
radiative-convective model
-
rain-out model
-
reference model
-
relational model
-
relative model
-
reliability model
-
research model
-
river-basin simulation model
-
sampled-data model
-
scaled model
-
scale model
-
sediment movement model
-
self-correcting model
-
semiscale model
-
simulation model
-
skeleton model
-
slip model
-
small-signal device model
-
software model
-
space-independent model
-
spectral model
-
spectral transform model
-
spherical Earth model
-
stability model
-
state-space model
-
statistical model
-
steady-state model
-
stochastic model
-
stochastic sequential model
-
subsynoptic model
-
symbolic-form model
-
table model
-
test model
-
thermal model
-
time-averaged model
-
time-invariant model
-
time-varying model
-
traffic model
-
transistor model
-
tribometric model
-
two-dimensional model
-
two-fluid model
-
urn model
-
vertical model
-
vertically exaggerated model
-
water allocation model
-
water management model
-
water system operation model
-
wave spectral model
-
weather-dependent yield model
-
wire model
-
wireframe model
-
world model
См. также в других словарях:
experimental research — Research Re*search (r? s?rch ), n. [Pref. re + search: cf OF. recerche, F. recherche.] 1. Diligent inquiry or examination in seeking facts or principles; laborious or continued search after truth; as, researches of human wisdom; to research a… … The Collaborative International Dictionary of English
experimental research — eksperimentinis tyrimas statusas T sritis fizika atitikmenys: angl. experimental research vok. experimentelle Forschung, f rus. экспериментальное исследование, n pranc. étude expérimentale, f … Fizikos terminų žodynas
experimental research — eksperimentiniai tyrimai statusas T sritis Kūno kultūra ir sportas apibrėžtis Moksliniai tyrimai, kuriais bandoma nustatyti priežasties ir padarinio tarpusavio santykį atliekant įvairias manipuliacijas. atitikmenys: angl. experimental research… … Sporto terminų žodynas
Experimental techniques — Experimental research designs are used for the controlled testing of causal processes. The general procedure is one or more independent variables are manipulated to determine their effect on a dependent variable. These designs can be used where:… … Wikipedia
experimental science — Research Re*search (r? s?rch ), n. [Pref. re + search: cf OF. recerche, F. recherche.] 1. Diligent inquiry or examination in seeking facts or principles; laborious or continued search after truth; as, researches of human wisdom; to research a… … The Collaborative International Dictionary of English
Research — Re*search (r? s?rch ), n. [Pref. re + search: cf OF. recerche, F. recherche.] 1. Diligent inquiry or examination in seeking facts or principles; laborious or continued search after truth; as, researches of human wisdom; to research a topic in the … The Collaborative International Dictionary of English
Experimental analysis of behavior — The experimental analysis of behavior is the name given to school of psychology founded by B. F. Skinner, and based on his philosophy of radical behaviorism. A central principle was the inductive, data driven [Chiesa, Mecca: Radical Behaviorism:… … Wikipedia
Experimental evolution — In evolutionary biology, the field of experimental evolution is concerned with testing hypotheses and theories of evolution by use of controlled experiments. Evolution can be observed in the laboratory as populations adapt to new environmental… … Wikipedia
Experimental physics — Within the field of physics, experimental physics is the category of disciplines and sub disciplines concerned with the observation of physical phenomena in order to gather data about the universe. Methods vary from discipline to discipline, from … Wikipedia
Research and development — The phrase research and development (also R and D or, more often, R D), according to the Organization for Economic Co operation and Development, refers to creative work undertaken on a systematic basis in order to increase the stock of knowledge … Wikipedia
Experimental psychology — approaches psychology as one of the natural sciences, investigates it using the experimental method. The focus of experimental psychology is on discovering the underlying processes behind behavior and the specific nature of mental life. This is… … Wikipedia