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1 under laboratory conditions
1) Техника: в лабораторных условиях2) Макаров: в условиях лабораторииУниверсальный англо-русский словарь > under laboratory conditions
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2 laboratory
1 nounlaboratoire m;∎ tested under laboratory conditions testé en laboratoire(assistant, equipment, experiment) de laboratoire -
3 conditions
1) условия
2) режим
3) обстановка
– agree on conditions
– boundary conditions
– conditions of fishing
– conditions of loading
– discontinuity conditions
– end conditions
– experimental conditions
– full-load conditions
– initial conditions
– load conditions
– operating conditions
– power conditions
– quiescent conditions
– service conditions
– set conditions for
– stand-by conditions
– starting conditions
– steady-state conditions
– storage conditions
– transient conditions
– weather conditions
– working conditions
establish boundary conditions — установить граничные условия
reduce to normal conditions — приводить к нормальным условиям
visual meteorological conditions — простые метеорологические условие
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4 laboratory
1) лаборатория
2) лабораторный
– aeronautical laboratory
– applied-research laboratory
– cryogenic laboratory
– factory laboratory
– field laboratory
– hot laboratory
– laboratory assistant
– laboratory balance
– laboratory method
– laboratory system
– laboratory test
– laboratory trial
– laboratory yield
– school laboratory
– testing laboratory
– vibration-survey laboratory
standard laboratory atmosphere — эталонная лабораторная атмосфера
veterinary and bacteriological laboratory — <zool.> ветбаклаборатория
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5 laboratory
1) лаборатория2) лабораторный•- chemico-bacteriological laboratory - concrete express laboratory - on-job laboratory - research laboratory - testing laboratory - water research laboratory* * *лаборатория; экспериментально-исследовательское учреждение- construction products research laboratory
- construction technology laboratory
- control field laboratory
- field laboratory
- frost effect laboratory
- mobile road laboratory
- mobile laboratory
- on-job laboratory
- research laboratory
- scientific laboratory
- testing laboratory -
6 laboratory
nounLabor[atorium], das* * *[lə'borətəri, ]( American[) 'læbrəto:ri]((abbreviated to lab) a place where scientific experiments are carried on or where drugs etc are prepared: Samples of her blood were sent to the hospital lab(oratory) for testing.) das Laboratorium* * *la·bora·tory[ləˈbɒrətəri, AM ˈlæbrətɔ:ri]I. n Labor[atorium] ntunder \laboratory conditions unter Laborbedingungento be [still] at the \laboratory stage sich akk [noch] im Versuchsstadium befinden* * *[l\@'bɒrətərI] (US) ['lbrə"tɔːrɪ]nLabor(atorium) ntlaboratory assistant — Laborant( in) m(f)
the project was abandoned at the laboratory stage — das Projekt wurde im Versuchsstadium abgebrochen
* * *1. Laboratorium n, Labor n:laboratory assistant Laborant(in);laboratory test Laborversuch m2. weitS.a) Versuchsanstalt fb) (Sprach- etc) Labor n3. fig Werkstätte f, -statt f:* * *nounLabor[atorium], das* * *n.Labor -s n.Laboratorium n. -
7 laboratory
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8 condition
1) положение; ситуация2) условие || обусловливать, ставить условие3) состояние || приводить в определённое состояние4) кондиция || кондиционировать5) pl обстановка, условия; режим•on condition that — при условии, что
under conditions of a problem — матем. по условиям задачи
to satisfy a condition — мат. удовлетворять условию
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9 Rammler, Erich
[br]b. 9 July 1901 Tirpersdorf, near Oelsnitz, Germanyd. 6 November 1986 Freiberg, Saxony, Germany[br]German mining engineer, developer of metallurgic coke from lignite.[br]A scholar of the Mining Academy in Freiberg, who in his dissertation dealt with the fineness of coal dust, Rammler started experiments in 1925 relating to firing this material. In the USA this process, based on coal, had turned out to be very effective in large boiler furnaces. Rammler endeavoured to apply the process to lignite and pursued general research work on various thermochemical problems as well as methods of grinding and classifying. As producing power from lignite was of specific interest for the young Soviet Union, with its large demand from its new power stations and its as-yet unexploited lignite deposits, he soon came into contact with the Soviet authorities. In his laboratory in Dresden, which he had bought from the freelance metallurgist Paul Otto Rosin after his emigration and under whom he had been working since he left the Academy, he continued his studies in refining coal and soon gained an international reputation. He opened up means of producing coke from lignite for use in metallurgical processes.His later work was of utmost importance after the Second World War when several countries in Eastern Europe, especially East Germany with its large lignite deposits, established their own iron and steel industries. Accordingly, the Soviet administration supported his experiments vigorously after he joined Karl Kegel's Institute for Briquetting in Freiberg in 1945. Through his numerous books and articles, he became the internationally leading expert on refining lignite and Kegel's successor as head of the Institute and Professor at the Bergakademie. Six years later, he produced for the first time high-temperature coke from lignite low in ash and sulphur for smelting in low-shaft furnaces. Rammler was widely honoured and contributed decisively to the industrial development of his country; he demonstrated new technological processes when, under austere conditions, economical and ecological considerations were neglected.[br]BibliographyRammler, whose list of publications comprises more than 600 titles on various matters of his main scientific concern, also was the co-author (with E.Wächtler) of two articles on the development of briquetting brown coal in Germany, both published in 1985, Freiberger Forschungshefte, D 163 and D 169, Leipzig.Further ReadingE.Wächtler, W.Mühlfriedel and W.Michel, 1976, Erich Rammler, Leipzig, (substantial biography, although packed with communist propaganda).M.Rasch, 1989, "Paul Rosin—Ingenieur, Hochschullehrer und Rationalisierungsfachmann". Technikgeschichte 56:101–32 (describes the framework within which Rammler's primary research developed).WK -
10 field
1) поле
2) полевая
3) полевые
4) полукадр
5) прииск
6) <math.> тело
7) экспедиционный
8) область
9) корпоидальный
10) корпус
11) область рациональности
12) полевой
13) промысловый
14) эксплуатационный
– action field
– antenna field
– card field
– choking field
– coal field
– connecting field
– controlling field
– cross-connecting field
– cyclotomic field
– deflection field
– difference field
– electromagnetic field
– establish field
– extension field
– field adjustment
– field albedometer
– field assembly
– field astronomy
– field case
– field clamping
– field classification
– field coil
– field comparison
– field computation
– field copper
– field cultivator
– field current
– field description
– field distortion
– field emission
– field equation
– field excitation
– field experiment
– field extension
– field frame
– field frequency
– field glasses
– field inspection
– field ion emission
– field ion microscope
– field joint
– field killer
– field killing
– field laboratory
– field length
– field lens
– field magnet
– field mesh
– field modulation
– field of application
– field of constants
– field of force
– field of sets
– field oxide
– field party
– field pattern
– field pole
– field potential
– field reduction
– field resistance
– field rivet
– field sheet
– field sketch
– field sketching
– field source
– field spider
– field sprayer
– field station
– field strenght
– field strength
– field survey
– field sweep
– field telephone
– field test
– field theory
– field traverse
– field triangulation
– field tube
– field varistor
– field weld
– field windbreak
– field work
– force field
– gamma field
– gas field
– gold field
– hyper-real field
– in the field
– induction field
– inertia field
– interlaced field
– leakage field
– magnetic field
– multidifferential field
– non-commutative field
– oil field
– oil field administration
– ordered field
– prime field
– quotient field
– radiation field
– retarding field
– rotary field
– rotating field
– rotational field
– signal field
– skew field
– splitting field
– stray field
– translation field
– vortex field
automatic field damper — <electr.> автомат гашения поля
characteristic exponent of field — степень характеристики поля
circuital vector field — <electr.> поле вихревое
collapse of the magnetic field — исчезновение магнитного поля
field discharge switch — <electr.> автомат гашения поля
field form factor — <electr.> коэффициент поля
field of class two — поле второго класса, метабелево поле
field reject rate — частота обнаружения неработоспособных кристаллов в системе
field repetition rate — <phot.> частота полукадров
unified field theory — <phys.> теория поля единая, теория поля обобщенная
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11 Psychoanalysis
[Psychoanalysis] seeks to prove to the ego that it is not even master in its own house, but must content itself with scanty information of what is going on unconsciously in the mind. (Freud, 1953-1974, Vol. 16, pp. 284-285)Although in the interview the analyst is supposedly a "passive" auditor of the "free association" narration by the subject, in point of fact the analyst does direct the course of the narrative. This by itself does not necessarily impair the evidential worth of the outcome, for even in the most meticulously conducted laboratory experiment the experimenter intervenes to obtain the data he is after. There is nevertheless the difficulty that in the nature of the case the full extent of the analyst's intervention is not a matter that is open to public scrutiny, so that by and large one has only his own testimony as to what transpires in the consulting room. It is perhaps unnecessary to say that this is not a question about the personal integrity of psychoanalytic practitioners. The point is the fundamental one that no matter how firmly we may resolve to make explicit our biases, no human being is aware of all of them, and that objectivity in science is achieved through the criticism of publicly accessible material by a community of independent inquirers.... Moreover, unless data are obtained under carefully standardized circumstances, or under different circumstances whose dependence on known variables is nevertheless established, even an extensive collection of data is an unreliable basis for inference. To be sure, analysts apparently do attempt to institute standard conditions for the conduct of interviews. But there is not much information available on the extent to which the standardization is actually enforced, or whether it relates to more than what may be superficial matters. (E. Nagel, 1959, pp. 49-50)3) No Necessary Incompatibility between Psychoanalysis and Certain Religious Formulationshere would seem to be no necessary incompatibility between psychoanalysis and those religious formulations which locate God within the self. One could, indeed, argue that Freud's Id (and even more Groddeck's It), the impersonal force within which is both the core of oneself and yet not oneself, and from which in illness one become[s] alienated, is a secular formation of the insight which makes religious people believe in an immanent God. (Ryecroft, 1966, p. 22)Freudian analysts emphasized that their theories were constantly verified by their "clinical observations."... It was precisely this fact-that they always fitted, that they were always confirmed-which in the eyes of their admirers constituted the strongest argument in favour of these theories. It began to dawn on me that this apparent strength was in fact their weakness.... It is easy to obtain confirmations or verifications, for nearly every theory-if we look for confirmation. (Popper, 1968, pp. 3435)5) Psychoanalysis Is Not a Science But Rather the Interpretation of a Narrated HistoryPsychoanalysis does not satisfy the standards of the sciences of observation, and the "facts" it deals with are not verifiable by multiple, independent observers.... There are no "facts" nor any observation of "facts" in psychoanalysis but rather the interpretation of a narrated history. (Ricoeur, 1974, p. 186)6) Some of the Qualities of a Scientific Approach Are Possessed by PsychoanalysisIn sum: psychoanalysis is not a science, but it shares some of the qualities associated with a scientific approach-the search for truth, understanding, honesty, openness to the import of the observation and evidence, and a skeptical stance toward authority. (Breger, 1981, p. 50)[Attributes of Psychoanalysis:]1. Psychic Determinism. No item in mental life and in conduct and behavior is "accidental"; it is the outcome of antecedent conditions.2. Much mental activity and behavior is purposive or goal-directed in character.3. Much of mental activity and behavior, and its determinants, is unconscious in character. 4. The early experience of the individual, as a child, is very potent, and tends to be pre-potent over later experience. (Farrell, 1981, p. 25)Our sceptic may be unwise enough... to maintain that, because analytic theory is unscientific on his criterion, it is not worth discussing. This step is unwise, because it presupposes that, if a study is not scientific on his criterion, it is not a rational enterprise... an elementary and egregious mistake. The scientific and the rational are not co-extensive. Scientific work is only one form that rational inquiry can take: there are many others. (Farrell, 1981, p. 46)Psychoanalysts have tended to write as though the term analysis spoke for itself, as if the statement "analysis revealed" or "it was analyzed as" preceding a clinical assertion was sufficient to establish the validity of what was being reported. An outsider might easily get the impression from reading the psychoanalytic literature that some standardized, generally accepted procedure existed for both inference and evidence. Instead, exactly the opposite has been true. Clinical material in the hands of one analyst can lead to totally different "findings" in the hands of another. (Peterfreund, 1986, p. 128)The analytic process-the means by which we arrive at psychoanalytic understanding-has been largely neglected and is poorly understood, and there has been comparatively little interest in the issues of inference and evidence. Indeed, psychoanalysts as a group have not recognized the importance of being bound by scientific constraints. They do not seem to understand that a possibility is only that-a possibility-and that innumerable ways may exist to explain the same data. Psychoanalysts all too often do not seem to distinguish hypotheses from facts, nor do they seem to understand that hypotheses must be tested in some way, that criteria for evidence must exist, and that any given test for any hypothesis must allow for the full range of substantiation/refutation. (Peterfreund, 1986, p. 129)Historical dictionary of quotations in cognitive science > Psychoanalysis
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12 Dickson, J.T.
[br]b. c.1920 Scotland[br]Scottish co-inventor of the polyester fibre, Terylene.[br]The introduction of one type of artificial fibre encouraged chemists to look for more. J.T.Dickson and J.R. Whinfield discovered one such fibre in 1941 when they derived polyester from terephthalic acid and ethylene glycol. Dickson, a 21-year-old Edinburgh graduate, was working under Whinfield at the Calico Printers' Association research laboratory at Broad Oak Print Works in Accrington. He was put onto fibre research: probably in April, but certainly by 5 July 1941, a murky-looking resin had been synthesized, out of which Dickson successfully drew a filament, which was named "Terylene" by its discoverers. Owing to restrictions imposed in Britain during the Second World War, this fibre was developed initially by the DuPont Company in the USA, where it was marketed under the name "Dacron". When Imperial Chemical Industries (ICI) were able to manufacture it in Britain, it acquired the brand name "Terylene" and became very popular. Under the microscope, Terylene appears identical to nylon: longitudinally, it is completely devoid of any structure and the filaments appear as glass rods with a perfectly circular cross-section. The uses of Terylene are similar to those of nylon, but it has two advantages. First, it can be heat-set by exposing the fabric to a temperature about 30°C higher than is likely to be encountered in everyday use, and therefore can be the basis for "easy-care" clothing such as drip-dry shirts. It can be blended with other fibres such as wool, and when pressed at a high temperature the creases are remarkably durable. It is also remarkably resistant to chemicals, which makes it particularly suitable for industrial purposes under conditions where other textile materials would be degraded rapidly. Dickson later worked for ICI.[br]Further ReadingFor accounts of the discovery of Terylene, see: J.R.Whinfield, 1953, Textile Research Journal (May). R.Collins, 1991, "Terylene", Historian 30 (Spring).Accounts of the introduction of svnthetic fibres are covered in: D.S.Lyle, 1982, Modern Textiles, New York.S.R.Cockett, An Introduction to Man-Made Fibres.G.R.Wray, Modern Yarn Production.RLH -
13 flying
flying nвыполнение полетовfly vлетатьaccident-free flyingбезаварийное выполнение полетовadvanced flying schoolшкола повышения летной подготовкиaircraft flyingполеты воздушных судовairways flyingполеты по воздушным трассамall-weather flyingвсепогодные полетыauthorized low flyingразрешенные полеты на малой высотеback beam flyingполеты по обратному лучуbasic flying schoolшкола основной летной подготовкиbusiness flyingделовые полетыcircuit flyingполеты по кругуcontour flyingбреющие полетыdesign flying rangeрасчетная дальность полетаdistance flown counterсчетчик дальности полетаdistance flown indicatorуказатель пройденного путиexecutive flyingадминистративные полетыfix-to-fix flyingполеты по контрольным точкамfly above the weatherлетать над верхней кромкой облаковfly a gear downлетать с выпущенным шассиfly a gear upлетать с убранным шассиfly aroundоблетыватьfly a simulatorлетать на тренажереfly at a low levelлетать в режиме бреющего полетаfly at nightлетать в темное время сутокfly at the altitudeлетать на заданной высотеfly automaticallyпилотировать с помощью автоматического управленияfly backвозвращаться в пункт вылетаfly by an aircraftлетать на воздушном суднеfly by dayлетать в светлое время сутокfly by instrumentsлетать по приборамfly by wireуправлять рулями с помощью электроприводовfly crosswindлетать при боковом ветреfly downwindлетать по ветруfly en-routeлетать по маршрутуfly hand offлетать с брошенным штурваломfly heading modeлетать в курсовом режимеfly inдоставлять по воздухуfly in formation1. выполнять групповой полет2. летать в строю flying aidsсредства обеспечения полетаflying around obstacleоблет препятствияflying boatлетающая лодкаflying crane helicopterвертолет большой грузоподъемности с внешней подвескойflying dual instruction timeвремя налета с инструкторомflying duty timeвремя налетаflying experienceопыт летной работыflying gogglesлетные защитные очкиflying intensityинтенсивность полетовflying laboratoryлетающая лабораторияflying lifeсрок службы в часах налетаflying missionполетное заданиеflying personnelлетный составflying proficiencyопыт летной работыflying propertyлетная характеристикаflying qualityлетное качествоflying schoolлетное училищеflying standтурболетflying testbedлетающая лабораторияflying time todayполетное время, продолжительность полета в данный деньflying trainingобучение в процессе полетовflying training centerцентр летной подготовкиflying weightполетная массаfly into the sunлетать против солнцаfly into the windлетать против ветраfly levelлетать на эшелонеfly manuallyпилотировать с помощью штурвального управленияfly northboundлететь в северном направленииfly offвылететьfly on instrumentsлетать по приборамfly on the autopilotлетать на автопилотеfly on the courseлетать по курсуfly on the headingлетать по курсуfly outвылетатьfly overпролетать надfly roundлетать по кругуfly soloлетать самостоятельноfly straightлетать по прямойfly the aircraft1. управлять самолетом2. пилотировать воздушное судно fly the beamлететь по лучуfly the circleлетать по кругуfly the glide-slope beamлетать по глиссадному лучуfly the great circleлетать по ортодромииfly the headingвыполнять полет по курсуfly the rhumb lineлетать по локсодромииfly throughследовать транзитомfly under conditionsвыполнять полет в определенных условияхfly under screenлетать по приборам в процессе тренировокfly under the autopilotпилотировать при помощи автопилотаfly under the supervision ofлетать под контролемfly up windлетать против ветраfront beam flyingполеты по прямому лучуglider flyingполеты планераgreat-circle flyingполеты по ортодромииhour's flying timeвремя налета в часахinapt for flyingбыть непригодным к полетамin flying conditionготовый к полетуinstruction flyingучебные полетыinstrument flying bindшторка слепого полетаinstrument flying simulated timeвремя налета по приборам на тренажереinstrument flying timeвремя налета по приборамlevel flyingвыполнение горизонтального полетаlocal flyingместные полетыlow flyingполеты на малых высотахlow flying operationполет на малой высотеmaintain the flying speedвыдерживать требуемую скорость полетаminimum flying speedминимальная скорость полетаnight flying timeвремя налета в ночных условияхnight-time flyingночные полетыnose-down flyingполет со снижениемnose-up flyingполет с набором высотыobtain the flying speedнабирать заданную скорость полетаpleasure flyingпрогулочные полетыpressure flyingполеты по изобареsolo flying timeвремя самолетного полетаthe route to be flownнамеченный маршрут полетаtotal flying timeобщее время взлетаvisual flying ratingквалификационная отметка о допуске к визуальным полетам -
14 test
испытание; исследование; опыт, проба; проверка; обнаружение; определение; показатель пробы; характеристика продукта (результат пробы); II испытывать; подвергать испытанию; пробовать; исследовать; делать опыты- test bar- test bed- test by bending and unbending- test car- test conditions - test cubicle - test facilities - test fan - test figures - test for durability - test for ground - test for parallelism - test for short - test gauge - test glass - test hause - test lamp - test method - test miles per day - test mixer - test period - test pick - test pressure - test prod - test pulse - test results- test rig- test-room- test run- test to destruction - test tunnel - test unit - test vehicle - test work- air test- break down test - color test - crash test - exaggerated test - exhaustive test - exposure test - heavy duty test - hill climbing test- hot test- odd test- oil-immersion test - paint rub test - palm test - percentage test - percussion test - performance test - periodic test - physical test - pitting corrosion test - plasticity test - porosity test - pour test - pouring test - preliminaryt test - pressure test - production test - production typical test - programme test - proof test - protracted test - psychotechnic test - pull test - pulling test - punching test - qualification test - quality test - quantitative test - quick test - rebound hardness test - reception test - recovery test - red-heat test - repair test - repeated test - repeated bending stress test - repeated compression test - repeated direct stress test - repeated dynamic stress test - repeated impact test - repeated impact tension test - repeated stress test - repeated tensile stress test - repeated tension test - repeated torsion test - repetition test - replicated field test - resilience test - retardation test - reverse bend test - rig test - rigid test - road test - roll-over test - rolling acceleration test - rotating bar fatigue test - rotating beam fatigue test - rough test - rough-track test - routine test - running test - rupture test - safety test - scratch test - scratch oil test - screening test - scuffing test - separation test - service test - shake test - shock test - short-circuit test - short-time test - simulated test - single test - skid test - skid pad test - roadability test - slow-speed test - small-scale test - soil test - sonic test - standard distillation test - starting test - static test - static torsional test - steering test - step test - stiffness test - stop-and-go test - stop-start test - stopping and starting test - stroking test - structure test - tactical test - tensile and compression test - tensile fatigue test - test tensile impact test - tensile shock test - thermal test - tilting test - torque test - torsion test - torsion impact test - toughness test - towing test - transverse test - transverse bending test - trial test - triaxial compression test - twisting test - type test - ultrasonic test - understandability test - underwater test - vehicle drag test - vehicle road test - vibration test - vibratory test - visibility test - volatility test - warpage test - warranty test - water test - water-absorption test - water-resistance test - wear test - wearing test - weather-exposure test - weather-resistance test - weathering test - wheel test - whirling test - wind-tunnel test -
15 Appleton, Sir Edward Victor
[br]b. 6 September 1892 Bradford, Englandd. 21 April 1965 Edinburgh, Scotland[br]English physicist awarded the Nobel Prize for Physics for his discovery of the ionospheric layer, named after him, which is an efficient reflector of short radio waves, thereby making possible long-distance radio communication.[br]After early ambitions to become a professional cricketer, Appleton went to St John's College, Cambridge, where he studied under J.J.Thompson and Ernest Rutherford. His academic career interrupted by the First World War, he served as a captain in the Royal Engineers, carrying out investigations into the propagation and fading of radio signals. After the war he joined the Cavendish Laboratory, Cambridge, as a demonstrator in 1920, and in 1924 he moved to King's College, London, as Wheatstone Professor of Physics.In the following decade he contributed to developments in valve oscillators (in particular, the "squegging" oscillator, which formed the basis of the first hard-valve time-base) and gained international recognition for research into electromagnetic-wave propagation. His most important contribution was to confirm the existence of a conducting ionospheric layer in the upper atmosphere capable of reflecting radio waves, which had been predicted almost simultaneously by Heaviside and Kennelly in 1902. This he did by persuading the BBC in 1924 to vary the frequency of their Bournemouth transmitter, and he then measured the signal received at Cambridge. By comparing the direct and reflected rays and the daily variation he was able to deduce that the Kennelly- Heaviside (the so-called E-layer) was at a height of about 60 miles (97 km) above the earth and that there was a further layer (the Appleton or F-layer) at about 150 miles (240 km), the latter being an efficient reflector of the shorter radio waves that penetrated the lower layers. During the period 1927–32 and aided by Hartree, he established a magneto-ionic theory to explain the existence of the ionosphere. He was instrumental in obtaining agreement for international co-operation for ionospheric and other measurements in the form of the Second Polar Year (1932–3) and, much later, the International Geophysical Year (1957–8). For all this work, which made it possible to forecast the optimum frequencies for long-distance short-wave communication as a function of the location of transmitter and receiver and of the time of day and year, in 1947 he was awarded the Nobel Prize for Physics.He returned to Cambridge as Jacksonian Professor of Natural Philosophy in 1939, and with M.F. Barnett he investigated the possible use of radio waves for radio-location of aircraft. In 1939 he became Secretary of the Government Department of Scientific and Industrial Research, a post he held for ten years. During the Second World War he contributed to the development of both radar and the atomic bomb, and subsequently served on government committees concerned with the use of atomic energy (which led to the establishment of Harwell) and with scientific staff.[br]Principal Honours and DistinctionsKnighted (KCB 1941, GBE 1946). Nobel Prize for Physics 1947. FRS 1927. Vice- President, American Institute of Electrical Engineers 1932. Royal Society Hughes Medal 1933. Institute of Electrical Engineers Faraday Medal 1946. Vice-Chancellor, Edinburgh University 1947. Institution of Civil Engineers Ewing Medal 1949. Royal Medallist 1950. Institute of Electrical and Electronics Engineers Medal of Honour 1962. President, British Association 1953. President, Radio Industry Council 1955–7. Légion d'honneur. LLD University of St Andrews 1947.Bibliography1925, joint paper with Barnett, Nature 115:333 (reports Appleton's studies of the ionosphere).1928, "Some notes of wireless methods of investigating the electrical structure of the upper atmosphere", Proceedings of the Physical Society 41(Part III):43. 1932, Thermionic Vacuum Tubes and Their Applications (his work on valves).1947, "The investigation and forecasting of ionospheric conditions", Journal of theInstitution of Electrical Engineers 94, Part IIIA: 186 (a review of British work on the exploration of the ionosphere).with J.F.Herd \& R.A.Watson-Watt, British patent no. 235,254 (squegging oscillator).Further ReadingWho Was Who, 1961–70 1972, VI, London: A. \& C.Black (for fuller details of honours). R.Clark, 1971, Sir Edward Appleton, Pergamon (biography).J.Jewkes, D.Sawers \& R.Stillerman, 1958, The Sources of Invention.KFBiographical history of technology > Appleton, Sir Edward Victor
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16 Glauber, Johann Rudolf
SUBJECT AREA: Metallurgy[br]b. 1604 Karlstadt, Germanyd. March 1670 Amsterdam, Holland[br]German chemist and metallurgist.[br]The son of a barber, Glauber took up the study of alchemy and travelled widely in search of its secrets. Around 1639, the political uncertainties of the Thirty Years War persuaded him to leave Germany for a more settled life in Amsterdam. While there, he carried out most of the practical work for which he is famous, including his distillation furnace, which made it possible to reach higher temperatures and to heat substances in a variety of conditions. To earn a living he set up in the wine trade, but he continued his alchemical pursuits, under cover on account of the unpopularity of the would-be gold makers. After the end of the war, he returned to Germany, but in 1655 personal disputes and religious friction drove him back to Amsterdam. He set about constructing the largest and most elaborate chemical laboratory in Europe.Glauber's best-known writing, the Furni novi philosophici (1646–9) gives the clearest idea of his practical methods and was influential on some of the leading chemists of the time and later. His name survives today in Glauber's salt for hydrated sodium sulphate. Glauber described several methods for preparing the mineral acids, materials of great importance to the chemist, and obtained the concentrated acids by using his distilling furnace. He tried distilling any substance he could lay hands on, and in the course of this work became probably the first chemist to distil coal and, using hydrochloric acid, obtain benzene and phenol. Glauber was the best practical chemist of the age and the first industrial chemist.[br]Bibliography1646–9, Furni novi philosophiciFurther ReadingK.F.Gugel, 1955, Johann Rudolf Glauber (1604–1670), Leben und Werke, Würzburg (the fullest account of his life; with a bibliography).P.Walden, 1929, "Glauber", in Das Buch der grossen Chemiker, ed. G.Bugge, Berlin, pp. 151–72 (the best account of Glauber's practical methods).E.Farber, 1961, Great Chemists, New York, pp. 115–31 (an abridged translation of ibid.).LRD -
17 test
test nиспытаниеaerodynamic test vehicleмодель для проведения аэродинамических испытанийaircraft acceleration testsиспытания воздушного судна на перегрузкиaircraft alternate-stress testsиспытания воздушного судна на переменные нагрузкиaircraft commissioning testsэксплуатационные испытания воздушного суднаaircraft endurance testsресурсные испытания воздушного суднаaircraft environmental testиспытание воздушного судна в термобарокамереaircraft test dataданные о результатах испытаний воздушного суднаaircraft test stationиспытательная станция воздушных судовaltitude-chamber testиспытания в барокамереaltitude test facilitiesбарокамераaltitude testsвысотные испытанияanechoic test facilitiesбезэховая испытательная установкаapproach test procedureметодика испытаний при заходе на посадкуaural reception testоценка способности принимать на слухautomatic test systemсистема автоматического контроляbench-run testsстендовые испытания на выносливостьbraking action testиспытание на эффективность торможенияbraking test deviceустройство для проверки торможенияbuild-in test systemсистема встроенного контроляbuilt-in test circuitцепь встроенного контроляbuilt-in test equipmentоборудование встроенного контроляcabin leak test setустановка для проверки герметичности кабиныcalibration testтарировкаcalibration test rigтарировочный стендcertification test flightсертификационный испытательный полетcertification test operational procedureметодика сертификационных испытанийcertification testsсертификационные испытанияcheck testsконтрольные испытанияclimatic test benchтермобарокамераclimbing testиспытание на скороподъемностьcompliance testиспытание на соответствиеconduct testsпроводить испытанияcontainment testиспытание на герметичностьcontrolled-crash testиспытание с имитацией аварииdial test indicatorиндикатор с круговой шкалойdirect testиспытание в реальных условияхditching testиспытание на аварийное приводнениеendurance block testsпоэтапные ресурсные испытанияendurance testsресурсные испытанияengine ground test timeвремя опробования двигателя на землеengine test baseиспытательная станцияengine test benchстенд для испытания двигателейfactory test flightзаводской испытательный полетfactory testsзаводские испытанияfatigue testsиспытания на усталостное разрушениеfield testsэксплуатационные испытанияflatter testsиспытания на флаттерflight acceptance testконтрольный полет перед приемкойflight stress measurement testsиспытания по замеру нагрузки в полетеflight testлетное испытаниеflight test noise measurementизмерение шума в процессе летных испытанийflight test procedureметодика летных испытанийflight test recorderрегистратор летных испытанийflight test techniqueметодика летных испытанийflyover noise testиспытание на шум при пролетеfree drop testиспытание на свободное падениеfree-flight testиспытание в свободном полетеfriction test deviceустройство для замера сцепленияfull-distance testиспытание на максимальную дальность полетаfull-scale testsиспытания по полной программеfunctional testsиспытания на соответствие заданным техническим условиямgo-around testиспытание по уходу на второй кругground testsназемные испытанияhovering testиспытание в режиме висенияhydraulic test rigгидростендignition testиспытание на воспламеняемостьimpact testиспытание на ударную нагрузкуinflight engine testиспытание двигателя в полетеintegral testвстроенный контрольlanding gear drop testsдинамические испытания шассиleak testпроверка на герметичностьlicense testsсертификационные испытанияlong-run testресурсное испытаниеmanufacturer's test pilotлетчик - испытатель серийного заводаnoise certification test conditionsусловия сертификационных испытаний по шумуnoise sertification testсертификационное испытаниеnoise testиспытание на шумofficial testгосударственные испытанияoperation testsэксплуатационные испытанияpenalty testsконтрольные испытанияpercent testвыборочное испытаниеpneumatic test rigстенд для проверки пневмосистемыpreliminary testпредварительное испытаниеpressurized leakage testпроверка на герметичностьproduction test flightзаводской испытательный полетproduction testsсерийные испытанияproof-of-compliance testsиспытания на соответствие заданным техническим условиямrating testэкзамен на получение квалификационной отметкиrotocraft snow and dust testиспытание вертолета в условиях снежного и пыльного вихрейrun-in testобкатка двигателяservice life testиспытание на амортизационный ресурсshock testиспытание на ударную нагрузкуsimulated flight testиспытание путем имитации полетаstatic testsстатические испытанияstore testиспытание с наружной подвескойstructural testиспытание на прочностьsubstantiating testиспытание на подтверждениеtachometer test setустановка для проверки тахометровtakeoff noise testиспытание на шум при взлетеtaxi testsрулежные испытанияtest aerodromeиспытательный аэродромtest a fuel nozzleпроливать топливную форсункуtest aircraftиспытываемое воздушное судноtest boxбокс для испытанияtest certificateсвидетельство о проведенных испытанияхtest cycleиспытательный циклtest dataрезультаты испытанияtest environmentусловия проведения испытанийtest equipmentиспытательное оборудованиеtest facilitiesоборудование для испытанияtest flightиспытательный полетtest flow restrictorпроливать дроссельный пакетtest flyиспытательные полетыtest gears for smoothпроверять шестерни на плавность зацепленияtest in flightиспытывать в полетеtest instrumentконтрольный приборtest in the wind tunnelпродувать в аэродинамической трубеtest laboratoryиспытательная лабораторияtest landingиспытательная посадкаtest marginдопуск на испытанияtest modelопытная модельtest noiseшум при испытанииtest operationиспытательный полетtest pilotлетчик испытательtest pressureиспытательное давлениеtest procedureметодика испытанийtest reportотчет об испытанияхtest standконтрольно-проверочный стендtest the systemиспытывать системуtest ticketконтрольный билетtowing basing testиспытание в гидроканалеtransmission test indicatorсигнализатор работоспособности трансмиссииtwo-dimensional flow testиспытание в двухмерном потокеunder flight testиспытываемый в полетеundergo flight testsпроводить летные испытанияvibration testиспытание на вибрациюwind-tunnel testиспытание в аэродинамической трубе
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