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41 Reason, Richard Edmund
SUBJECT AREA: Mechanical, pneumatic and hydraulic engineering[br]b. 21 December 1903 Exeter, Devon, Englandd. 20 March 1987 Great Bowden, Leicestershire, England[br]English metrologist who developed instruments for measuring machined-surface roughness.[br]Richard Edmund Reason was educated at Tonbridge School and the Royal College of Science (Imperial College), where he studied under Professor A.F.C.Pollard, Professor of Technical Optics. After graduating in 1925 he joined Taylor, Taylor and Hobson Ltd, Leicester, manufacturers of optical, electrical and scientific instruments, and remained with that firm throughout his career. One of his first contributions was in the development, with E.F.Fincham, of the Fincham Coincidence Optometer. At this time the firm, under William Taylor, was mainly concerned with optical instruments and lens manufacture, but in the 1930s Reason was also engaged in developing means for measuring the roughness of machined surfaces. The need for establishing standards and methods of measurement of surface finish was called for when the subcontracting of aero-engine components became necessary during the Second World War. This led to the development by Reason of an instrument in which a stylus was moved across the surface and the profile recorded electronically. This was called the Talysurf and was first produced in 1941. Further development followed, and from 1947 Reason tackled the problem of measuring roundness, producing the first Talyrond machine in 1949. The technology developed for these instruments was used in the production of others such as the Talymin Comparator and the Talyvel electronic level. Reason was also associated with the development of optical projection systems to measure the profile of parts such as gear teeth, screw threads and turbine blades. He retired in 1968 but continued as a consultant to the company. He served for many years on committees of the British Standards Institution on surface metrology and was a representative of Britain at the International Standards Organization.[br]Principal Honours and DistinctionsOBE 1967. FRS 1971. Honorary DSc University of Birmingham 1969. Honorary DSc Leicester University 1971.Further ReadingD.J.Whitehouse, 1990, Biographical Memoirs of Fellows of the Royal Society 36, London, pp. 437–62 (an illustrated obituary notice listing Reason's eighty-nine British patents, published between 1930 and 1972, and his twenty-one publications, dating from 1937 to 1966).K.J.Hume, 1980, A History of Engineering Metrology, London, 113–21 (contains a shorter account of Reason's work).RTS -
42 method
1) метод; приём; способ2) методика3) технология4) система•- accelerated strength testing method-
benching method-
bullhead well control method-
electrical-surveying method-
electromagnetic surveying method-
long-wire transmitter method-
operational method-
rule of thumb method-
straight flange method of rolling beams-
symbolical method-
tee-test method-
testing method-
triangulation method-
value-iteration method -
43 square
[skweə] 1. noun1) (a four-sided two-dimensional figure with all sides equal in length and all angles right angles.) quadrado2) (something in the shape of this.) quadrado3) (an open place in a town, with the buildings round it.) praça4) (the resulting number when a number is multiplied by itself: 3 × 3, or 32 = 9, so 9 is the square of 3.) quadrado2. adjective1) (having the shape of a square or right angle: I need a square piece of paper; He has a short, square body / a square chin.) quadrado2) ((of business dealings, scores in games etc) level, even, fairly balanced etc: If I pay you an extra $5 shall we be (all) square?; Their scores are (all) square (= equal).) igual3) (measuring a particular amount on all four sides: This piece of wood is two metres square.) quadrado4) (old-fashioned: square ideas about clothes.) antiquado3. adverb1) (at right angles, or in a square shape: The carpet is not cut square with the corner.) em esquadria2) (firmly and directly: She hit him square on the point of the chin.) em cheio4. verb1) (to give a square shape to or make square.) tornar quadrado2) (to settle, pay etc (an account, debt etc): I must square my account with you.) acertar3) (to (cause to) fit or agree: His story doesn't square with the facts.) ajustar(-se)4) (to multiply a number by itself: Two squared is four.) elevar ao quadrado•- squared- squarely
- square centimetre
- metre
- square root
- fair and square
- go back to square one
- a square deal* * *[skwɛə] n 1 quadrado. 2 coisa quadrada ou retangular, divisão de tabuleiro de xadrez, vidraça, etc. 3 praça, área (cercada de ruas), quadra. 4 Amer comprimento de um lado de uma praça. 5 largo, parque de uma cidade. 6 tropas colocadas em forma de quadrado. 7 esquadro. 8 (também square number) Math quadrado, segunda potência de um número. 9 fig igualdade, simetria, regularidade, eqüidade, honestidade. 10 medida de área, correspondente a 100 pés quadrados. 11 pessoa antiquada, conservadora. • vt+vi 1 fazer retangular, fazer quadrado, esquadrar. 2 dividir em quadrados. 3 pôr no esquadro, verificar o ângulo. 4 fazer plano, endireitar. 5 ajustar, liquidar (contas). he squared him / ele o pagou, ele liquidou suas dívidas. 6 corresponder, estar de acordo, concordar. 7 Math quadrar, elevar ao quadrado. 8 determinar, colocar em lugar certo, regularizar. I’ll square things / regularizarei o negócio. 9 adaptar, adaptar-se. 10 formar ângulo reto. 11 sl subornar. he squared him / sl ele o subornou. • adj 1 quadrado, retangular, quadrangular, em quadrangular. she has a square chin / ela tem um queixo quadrado. 2 em quadrado, relativo à área, que designa a unidade de área. 3 que forma um angulo de 90°, reto. 4 direito, plano, no nível. 5 líquido, sem sobras, igual. 6 justo, honesto, correto, direito. 7 completo, absoluto. 8 Math ao quadrado, na segunda potência. 9 sólido, forte. 10 sl antiquado, conservador, retrógrado. 11 claro, direto, inequívoco. 12 coll satisfatório, abundante, substancial. I have had a square meal / tive uma refeição reforçada. • adv 1 coll honestamente. 2 em forma quadrada, em ângulos retos. he squared up to her ele se colocou diante dela. he’s square-pushing with her sl ele anda com ela. I got square with him estou quite com ele. like a square peg in a round hole fig uma coisa que não se adapta, como um peixe fora d’água. on the square a) no esquadro. b) coll honesto, justo. that fellow is on the square / sl este camarada está em ordem. out of square irregular, fora do normal. to square away coll estar pronto para entrar em ação. to square off a) dar forma retangular a. b) tomar posição para boxe. to square oneself coll reparar danos, ajustar contas. to square one’s shoulders enfrentar o destino. to square the circle descobrir a quadratura do círculo, fig tentar fazer uma coisa impossível. to square the yards Naut cruzar as vergas. to square up liquidar uma conta. to start from square one começar do princípio, voltar ao começo. -
44 square
I [skweə(r)]1) (in town) piazza f.; (in barracks) piazzale m.2) (four-sided shape) quadrato m.; (in board game, crossword) casella f.; (of glass, linoleum) piastrella f., mattonella f.3) mat. (second power) quadrato m.4) tecn. (instrument) squadra f.5) colloq. (conventional person) inquadrato m. (-a)6) on the square colloq. onesto••II [skweə(r)]to be out of square — essere fuori squadra, fuori posto
1) (right-angled) [shape, box, jaw, shoulders] quadrato; (correctly aligned) allineato, dritto2) mat. metrol. [mile, metre, etc.] quadrato, quadro3) fig. (level, quits)to be (all) square — [ accounts] essere in regola; [ teams] essere pari
4) (honest) [person, transaction] onestoto give sb. a square deal — riservare a qcn. un trattamento onesto
5) colloq. (boring) palloso, inquadratoIII [skweə(r)]square-faced — col volto quadrato, con la faccia quadrata
IV [skweə(r)]to look sb. square in the eye — guardare qcn. dritto negli occhi
1) (make right-angled) squadrare [stone, timber, corner, end]2) mat. elevare al quadrato, alla seconda [ number]4) sportsquare the score, the series — pareggiare
5) (persuade) occuparsi di, sistemare [ person]; (bribe) corrompere, comprare [ person]I have problems squareing this with my beliefs — non riesco a conciliare tutto questo con i miei principi
•* * *[skweə] 1. noun1) (a four-sided two-dimensional figure with all sides equal in length and all angles right angles.) quadrato2) (something in the shape of this.) quadrato3) (an open place in a town, with the buildings round it.) piazza4) (the resulting number when a number is multiplied by itself: 3 × 3, or 32 = 9, so 9 is the square of 3.) quadrato2. adjective1) (having the shape of a square or right angle: I need a square piece of paper; He has a short, square body / a square chin.) quadrato2) ((of business dealings, scores in games etc) level, even, fairly balanced etc: If I pay you an extra $5 shall we be (all) square?; Their scores are (all) square (= equal).) giusto, equo, in parità3) (measuring a particular amount on all four sides: This piece of wood is two metres square.) quadrato4) (old-fashioned: square ideas about clothes.) antiquato3. adverb1) (at right angles, or in a square shape: The carpet is not cut square with the corner.) (ad angolo retto)2) (firmly and directly: She hit him square on the point of the chin.) proprio4. verb1) (to give a square shape to or make square.) squadrare2) (to settle, pay etc (an account, debt etc): I must square my account with you.) regolare3) (to (cause to) fit or agree: His story doesn't square with the facts.) quadrare4) (to multiply a number by itself: Two squared is four.) elevare al quadrato•- squared- squarely
- square centimetre
- metre
- square root
- fair and square
- go back to square one
- a square deal* * *I [skweə(r)]1) (in town) piazza f.; (in barracks) piazzale m.2) (four-sided shape) quadrato m.; (in board game, crossword) casella f.; (of glass, linoleum) piastrella f., mattonella f.3) mat. (second power) quadrato m.4) tecn. (instrument) squadra f.5) colloq. (conventional person) inquadrato m. (-a)6) on the square colloq. onesto••II [skweə(r)]to be out of square — essere fuori squadra, fuori posto
1) (right-angled) [shape, box, jaw, shoulders] quadrato; (correctly aligned) allineato, dritto2) mat. metrol. [mile, metre, etc.] quadrato, quadro3) fig. (level, quits)to be (all) square — [ accounts] essere in regola; [ teams] essere pari
4) (honest) [person, transaction] onestoto give sb. a square deal — riservare a qcn. un trattamento onesto
5) colloq. (boring) palloso, inquadratoIII [skweə(r)]square-faced — col volto quadrato, con la faccia quadrata
IV [skweə(r)]to look sb. square in the eye — guardare qcn. dritto negli occhi
1) (make right-angled) squadrare [stone, timber, corner, end]2) mat. elevare al quadrato, alla seconda [ number]4) sportsquare the score, the series — pareggiare
5) (persuade) occuparsi di, sistemare [ person]; (bribe) corrompere, comprare [ person]I have problems squareing this with my beliefs — non riesco a conciliare tutto questo con i miei principi
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45 элемент
cell, detail, device, (конструкции, машины, схемы) element, elementary unit, entry, (изображения, геометрической фигуры, топологии) feature, ( расчетной схемы) node, organ, ( данных) item вчт., (конструкции, машины, схемы, множества, массива) member, part, term, unit* * *элеме́нт м.1. (составная часть чего-л.) element, component2. ( химический источник тока) cell3. (устройство, прибор) device, unit; ( иногда) element4. мат. element, quantity; ( треугольника) part5. (списка выходов, макрокоманды) вчт. entryэлеме́нт аккумуля́торной батаре́и — storage(-battery) [accumulator] cellаккумуля́торный элеме́нт — storage(-battery) [accumulator] cellакти́вный элеме́нт — active element, active componentэлеме́нт аналити́ческой фу́нкции — element of an analytic functionана́логовый элеме́нт — analog elementэлеме́нт анте́нны — (aerial [antenna]) elementэлеме́нт анте́нны, акти́вный — radiating [directly excited] elementэлеме́нт анте́нны, пасси́вный — passive [parasitically excited] elementарми́рующий элеме́нт стр. — reinforcing elementбесконе́чно удалё́нные элеме́нты мат. — points at infinity, ideal pointsэлеме́нты букв, выступа́ющие — ascendersэлеме́нты букв, свиса́ющие — descendersэлеме́нт вероя́тности — probability elementэлеме́нт Весто́на — Weston standard cellэлеме́нт ви́хря — vortex elementвлагочувстви́тельный элеме́нт — humidity-sensitive elementвоспринима́ющий элеме́нт — sensing element, sensorвоспринима́ющий, опти́ческий элеме́нт — optical sensorвходно́й элеме́нт — input elementэлеме́нт вы́борки — sample unitэлеме́нт вы́борочного пла́на мат. — plotвыходно́й элеме́нт — output elementэлеме́нт вычисли́тельной маши́ны — computer elementвычисли́тельный элеме́нт — computer element; ( в аналоговой технике) computing elementгальвани́ческий элеме́нт — galvanic cellгальвани́ческий, возду́шно-ци́нковый элеме́нт — air-zinc cellгальвани́ческий, га́зовый элеме́нт — gas cellгальвани́ческий, контро́льный элеме́нт — pilot cellгальвани́ческий, концево́й элеме́нт — end cellгальвани́ческий, концентрацио́нный элеме́нт — concentration cellгальвани́ческий, необрати́мый элеме́нт — irreversible cellгальвани́ческий, обрати́мый элеме́нт — reversible cellгальвани́ческий, перви́чный элеме́нт — primary cellгальвани́ческий, у́гольный элеме́нт — carbon cellгистере́зисный элеме́нт — hysteretic elementэлеме́нт гла́вной диагона́ли определи́теля мат. — leading element in a determinantэлеме́нт да́нных — data element, data itemдвои́чный элеме́нт вчт. — binary cellдвухпозицио́нный элеме́нт вчт., элк. — two-position [two-stable state] elementдискре́тный элеме́нт — discrete element, discrete componentдоче́рний элеме́нт физ. — daughter elementэлеме́нт жи́дкости — fluid elementжи́дкостный элеме́нт — wet cellэлеме́нт заде́ржки — delay elementэлеме́нт запомина́ющего устро́йства — storage [memory] elementзапомина́ющий элеме́нт — storage [memory] element, storage [memory] cell (Не путать с яче́йкой па́мяти. Not to be confused with storage register, storage location)запомина́ющий элеме́нт нахо́дится в (состоя́нии) «0» или «1» — the storage [memory] cell is in a “0” or a “1” stateустана́вливать запомина́ющий элеме́нт в (состоя́ние) «0» или «1» — set the storage [memory] cell to a “0” or “1” stateзвукоизлуча́ющий элеме́нт — acoustic radiating elementзвукоприё́мный элеме́нт — sound pick-up elementэлеме́нт И — AND elementизбы́точный элеме́нт — redundant elementизмери́тельный элеме́нт — measuring elementэлеме́нт изображе́ния тлв. — picture element, elemental areaэлеме́нт ИЛИ — OR elementиммерсио́нный элеме́нт ( полупроводникового фотоприёмника) — immersion elementи́мпульсный элеме́нт автмт. — samplerинверти́рующий элеме́нт — inverting elementинтегра́льный элеме́нт элк. — integrated (circuit) elementисхо́дный элеме́нт физ. — parent element; original elementкоммутацио́нный элеме́нт элк. — switching elementэлеме́нт констру́кции стр. — memberэлеме́нт констру́кции, несу́щий — bearing memberэлеме́нт констру́кции, попере́чный — cross memberэлеме́нт констру́кции, продо́льный — longitudinal memberэлеме́нт констру́кции, рабо́тающий на изги́б — member in bendingэлеме́нт констру́кции, рабо́тающий на круче́ние — member in torsionэлеме́нт констру́кции, рабо́тающий на растяже́ние — member in tensionэлеме́нт констру́кции, рабо́тающий на сжа́тие — compressional member, (compression) strutэлеме́нт констру́кции, рабо́тающий на срез — member in shearэлеме́нт констру́кции, уси́ливающий — reinforcing member, stiffenerконта́ктный элеме́нт эл. — contact element, contact electrodeкриоге́нный элеме́нт — cryogenic elementлеги́рующий элеме́нт1. метал. alloying element2. полупр. doping elementлоги́ческий элеме́нт ( ЦВМ) — logic element, gateнабо́р логи́ческих элеме́нтов облада́ет функциона́льной полното́й — the set of gates is functionally completeлоги́ческий, запомина́ющий элеме́нт — storage [memory, sequential] elementлоги́ческий элеме́нт И — AND gate, AND circuitлоги́ческий элеме́нт ИЛИ — OR gate, OR circuitлоги́ческий элеме́нт ИЛИ-НЕ — NOR gate, NOR circuitлоги́ческий элеме́нт И-НЕ — NAND gate, NAND circuitлоги́ческий, комбинацио́нный элеме́нт — combinational [decision, memoryless] element, gateлоги́ческий, мажорита́рный элеме́нт — majority (logic) elementлоги́ческий, микроминиатю́рный (мо́дульный) элеме́нт — micrologic elementлоги́ческий элеме́нт НЕ — NOT [inverter] gate, NOT [inverter] circuitлоги́ческий, поро́говый элеме́нт — threshold elementлоги́ческий, реша́ющий элеме́нт — decision [memoryless, combinational] element, gateвыходно́й сигна́л реша́ющего логи́ческого элеме́нта определя́ется комбина́цией входны́х сигна́лов — the output of a decision element is produced by a combination of inputsмагни́тный элеме́нт — magnetic elementмагни́тный, многоды́рочный элеме́нт — magnetic multiaperture elementэлеме́нт ма́ссы — element of massматери́нский элеме́нт физ. — parent elementма́тричный элеме́нт мат. — matrix element, element of a matrixме́стный элеме́нт — local (galvanic) callэлеме́нт микросхе́мы — integrated-circuit [IC] elementэлеме́нт мише́ни ( в ЭЛТ) — target elementмо́крый элеме́нт — wet cellмонокристалли́ческий элеме́нт — single-crystal elementнавесно́й элеме́нт элк. — interconnection [discrete interconnected] componentнагрева́тельный элеме́нт — heating elementэлеме́нт на твё́рдом те́ле — solid-state elementневзаи́мный элеме́нт — nonreciprocal [unidirectional] elementнелине́йный элеме́нт — non-linear elementнерабо́чий элеме́нт вчт. — inactive entryнесо́бственные элеме́нты мат. — points at infinity, ideal pointsнорма́льный элеме́нт ( как мера эдс) — standard cellнорма́льный, насы́щенный элеме́нт — saturated standard cellнорма́льный, ненасы́щенный элеме́нт — unsaturated standard cellобра́тный элеме́нт мат. — inverseэлеме́нт объё́ма мат. — volume element, element [differential] of volume, cellопо́рный элеме́нт ( отсчёта или сравнения) — reference elementоптикоэлектро́нный элеме́нт — optoelectronic elementопти́ческий элеме́нт автомоби́льной фа́ры — (lamp) sealed-beam unit, headlamp insertопти́ческий, реле́йный элеме́нт — photorelay, photoelectric [light] relay, photo-switchэлеме́нты орби́ты — elements of an orbitпараметри́ческий элеме́нт элк. — parametric elementпеча́тающие элеме́нты полигр. — printing areasпеча́тный элеме́нт вчт. — printed componentплё́ночный элеме́нт элк. — (thin-)film componentэлеме́нт пове́рхности мат. — surface elementпоглоща́ющий элеме́нт элк. — dissipative elementэлеме́нт подве́ски — spring unitэлеме́нт подве́ски, упру́гий — springing mediumполоско́вый элеме́нт элк. — strip elementпри́месный элеме́нт полупр. — impurity elementпробе́льный элеме́нт полигр. — spacing materialэлеме́нт, рабо́тающий в преде́льном режи́ме элк. — marginal componentразвё́ртывающий элеме́нт тлв. — picture element, elemental areaвыделя́ть развё́ртывающий элеме́нт на передава́емом изображе́нии ( в фототелеграфе) — scan the subject-copyэлеме́нт ра́стра тлв. — picture element, elemental areaра́стровый элеме́нт тлв. — picture element, elemental areaрезе́рвный элеме́нт т. над. — redundant elementэлеме́нт свя́зи радио, элк. — coupling elementсвязу́ющий элеме́нт хим. — binderсегнетоэлектри́ческий элеме́нт — ferroelectric elementэлеме́нт с жи́дким электроли́том — wet cellсилово́й элеме́нт1. маш. load-bearing element2. стр. load-bearing memberэлеме́нт следя́щей систе́мы автмт. — servo elementсо́лнечный элеме́нт — solar cellсо́лнечный, кре́мниевый элеме́нт — silicon solar cellсо́лнечный, тонкоплё́ночный элеме́нт — thin-film solar cellсопряжё́нный элеме́нт мат. — transformстру́йный элеме́нт автмт. — fluidic elementсумми́рующий элеме́нт вчт. — adding elementсухо́й элеме́нт — dry cellэлеме́нты сфери́ческого треуго́льника — circular partsэлеме́нты сфе́ры мат. — median section; goreсхе́мный элеме́нт — circuit elementтепловыделя́ющий элеме́нт ( реактора) — fuel elementтермоэлектри́ческий элеме́нт — thermocouple, thermojunction (см. тж. термопара)ти́тульные элеме́нты кни́ги — front matterтонкоплё́ночный элеме́нт — thin-film componentто́пливный элеме́нт — fuel cellэлеме́нт траекто́рии астр., косм. — elements of a trajectoryуправля́емый элеме́нт автмт. — controlled elementуправля́ющий элеме́нт автмт. — control elementферри́товый элеме́нт — ferrite elementферри́товый, разветвлё́нный элеме́нт — multipath ferrite structureферромагни́тный элеме́нт — ferromagnetic elementфильтру́ющий элеме́нт — filter elementфильтру́ющий, во́йлочный элеме́нт — felt filter elementэлеме́нт форма́та ( данных) вчт. — format itemфотовольтаи́ческий элеме́нт — photovoltaic cellфотогальвани́ческий элеме́нт — photovoltaic cellфотохими́ческий элеме́нт — photochemical cellфотоэлектри́ческий элеме́нт — photocell, photoelectric cellфункциона́льный элеме́нт элк. — functional elementхими́ческий элеме́нт — chemical elementхими́ческий, лё́гкий элеме́нт — light elementхими́ческий, радиоакти́вный элеме́нт — radioactive elementхими́ческий, редкоземе́льный элеме́нт — rare earth elementхими́ческий элеме́нт с больши́м а́томным но́мером — high-Z elementхими́ческий элеме́нт с ма́лым а́томным но́мером — low-Z elementхими́ческий, трансура́новый элеме́нт — transuranium elementхими́ческий, тяжё́лый элеме́нт — heavy elementэлеме́нт це́пи — circuit elementчувстви́тельный элеме́нт — sensing element, sensorэлектролити́ческий элеме́нт — electrolytic cellэлектронагрева́тельный элеме́нт — electric heating elementэлектронагрева́тельный, тру́бчатый элеме́нт — tubular electric heating element -
46 square
1. noun1) (Geom.) Quadrat, das2) (object, arrangement) Quadrat, dascarpet square — Teppichfliese, die
3) (on board in game) Feld, dasbe or go back to square one — (fig. coll.) wieder von vorn anfangen müssen
4) (open area) Platz, der5) (scarf) [quadratisches] Tuch2. adjectivesilk square — Seidentuch, das
1) quadratisch2)a square foot/mile/metre — etc. ein Quadratfuß/eine Quadratmeile/ein Quadratmeter usw.
a foot square — ein Fuß im Quadrat
3) (right-angled) rechtwink[e]ligsquare with or to — im rechten Winkel zu
4) (stocky) gedrungen [Statur, Gestalt]5) (in outline) rechteckig; eckig [Schultern, Kinn]6) (quits) quitt (ugs.)3. adverbbe [all] square — [völlig] quitt sein (ugs.); [Spieler:] gleich stehen; [Spiel:] unentschieden stehen
breit [sitzen]4. transitive verbput something square in the middle of something — etwas mitten auf etwas (Akk.) stellen
1) (make right-angled) rechtwinklig machen; vierkantig zuschneiden [Holz]2) (place squarely)square one's shoulders — seine Schultern straffen
3) (divide into squares) in Karos einteilen4) (Math.): (multiply) quadrieren3 squared is 9 — 3 [im] Quadrat ist 9; 3 hoch 2 ist 9
5) (reconcile)square something with something — etwas mit etwas in Einklang bringen
6)5. intransitive verbsquare it with somebody — (coll.): (get somebody's approval) es mit jemandem klären
(be consistent) übereinstimmensomething does not square with something — etwas steht nicht im Einklang mit etwas
Phrasal Verbs:- academic.ru/91998/square_up">square up* * *[skweə] 1. noun1) (a four-sided two-dimensional figure with all sides equal in length and all angles right angles.) das Quadrat2) (something in the shape of this.) das Quadrat3) (an open place in a town, with the buildings round it.) der Platz4) (the resulting number when a number is multiplied by itself: 3 × 3, or 32 = 9, so 9 is the square of 3.) das Quadrat2. adjective1) (having the shape of a square or right angle: I need a square piece of paper; He has a short, square body / a square chin.) quadratisch2) ((of business dealings, scores in games etc) level, even, fairly balanced etc: If I pay you an extra $5 shall we be (all) square?; Their scores are( all) square (= equal).) quitt3) (measuring a particular amount on all four sides: This piece of wood is two metres square.) im Quadrat4) (old-fashioned: square ideas about clothes.) spießig3. adverb1) (at right angles, or in a square shape: The carpet is not cut square with the corner.) rechteckig2) (firmly and directly: She hit him square on the point of the chin.) direkt4. verb1) (to give a square shape to or make square.) quadratisch machen4) (to multiply a number by itself: Two squared is four.) quadrieren•- squared- squarely
- square centimetre
- metre
- square root
- fair and square
- go back to square one
- a square deal* * *[skweəʳ, AM skwer]I. nto cut sth into \squares etw in Quadrate zerschneidento fold sth into a \square etw zu einem Quadrat faltentown \square zentraler Platz7.▶ to be there or be \square (sl) einfach dabei sein müssenII. adjto be [all] \square auf gleich sein famthey're all \square at thirty points each sie liegen mit je dreißig Punkten gleichaufto look \square bescheuert aussehen sl5. (straight) geradeto keep sth \square etw gerade haltenIV. vtto \square one's shoulders die Schultern straffen2. (settle)let's \square our accounts rechnen wir ab3. ECON▪ to \square sth etw glattstellenbook-squaring Glattstellen nt von Positionen4. MATH▪ to \square sth etw ausgleichento \square a match ein Match auf Gleichstand bringen6.V. vi* * *[skwɛə(r)]1. n1) (= shape, Geometry, on graph paper) Quadrat nt2) (piece of material, paper etc) (= perfect square) Quadrat nt; (= rectangle) Viereck nt; (on chessboard etc) Feld nt; (on paper) Kästchen nt, Karo nt; (in crossword) Kästchen nt; (= check on material etc) Karo nt; (= head square) Kopftuch nt6) (MIL: battle formation) Karree nt2. adj (+er)1) (in shape) quadratisch; picture, lawn etc viereckig, quadratisch; nib viereckig; block of wood etc vierkantigto be a square peg in a round hole — am falschen Platz sein
2) (= forming right angle) angle recht; corner rechtwinklig; shoulder eckig; chin, jaw kantig, eckig; build vierschrötigthere wasn't a square inch of space left — es war kein Zentimeter Platz mehr
I'll be square with you — ich will ehrlich or offen mit dir sein
6) (figwe are (all) square (Sport) — wir stehen beide/alle gleich; (fig) jetzt sind wir quitt
he wanted to be square with his creditors —
7) (inf: conventional) überholt, verstaubt; person, ideas spießig (inf)he's square — er ist von (vor)gestern
be there or be square! — das kann man sich nicht entgehen lassen!
3. adv (+er)1) (= at right angles) rechtwinklig2) (= directly) direkt, genauto be square in the middle of sth — mitten in etw (dat) drin sein
3)(= parallel)
to stand square — gerade stehenSee:→ fair4. vt1) (= make square) quadratisch machen; (= make a right angle) rechtwinklig machento square one's shoulders —
to square a block of wood (= cut square) — einen Holzklotz vierkantig zuschneiden
to try to square the circle —
I'll square it with the porter (inf) — ich mache das mit dem Portier ab (inf)
4) (inf: bribe) schmieren (inf)5. viübereinstimmen* * *square [skweə(r)]A s1. MATH Quadrat n (Figur)2. Quadrat n, Viereck n, quadratisches Stück (Glas, Stoff etc), Karo n3. Feld n (eines Brettspiels):4. US Häuserblock m, -viereck n5. (öffentlicher) Platz:6. TECHa) Winkel(maß) m(n), Anschlagwinkel mby the square fig genau, exakt;on the square im rechten Winkel, fig umg ehrlich, anständig, in Ordnung;out of square nicht rechtwink(e)lig, fig nicht in Ordnung;7. MATH Quadrat(zahl) n(f):in the square im Quadrat8. MIL Karree n9. (Wort-, Zahlen) Quadrat n10. ARCH Säulenplatte f11. Buchbinderei: vorspringender Rand12. Drehzapfen m (der Uhr)13. sl Spießer(in)B v/t3. MATHa) den Flächeninhalt berechnen von (oder gen)b) eine Zahl quadrieren, ins Quadrat erheben:three squared drei zum Quadrat5. TECHb) im rechten Winkel anbringen7. die Schultern straffen8. ausgleichena) eine Schuld begleichenb) einen Gläubiger befriedigen11. sla) jemanden schmieren, bestechenC v/isquare up to sb sich vor jemandem aufpflanzen umg;square up to a problem ein Problem angehen oder anpacken2. (with) in Einklang stehen (mit), passen (zu)3. seine Angelegenheiten in Ordnung bringen:D adj (adv squarely)1. MATH quadratisch, Quadrat…:square pyramid quadratische Pyramide;square root (Quadrat)Wurzel f;2. MATH … im Quadrat:3. rechtwink(e)lig, im rechten Winkel (stehend) (to zu)6. breit(schulterig), vierschrötig, stämmig (Person)8. gleichmäßig, gerade, eben (Fläche etc)get things square die Sache in Ordnung bringen10. WIRTSCHa) abgeglichen (Konten)b) quitt:get (all) square with sb mit jemandem quitt werden (a. fig);at half time the teams were (all) square SPORT zur Halbzeit stand das Spiel unentschieden11. umga) reell, anständig12. klar, deutlich (Ablehnung etc):the problem must be faced squarely das Problem muss klar ins Auge gefasst werden13. umg ordentlich, anständig (Mahlzeit etc)14. … zu viert:15. sl altmodisch, spießig:turn square verspießernE adv1. quadratisch, (recht-, vier-)eckig2. umg anständig, ehrlich3. US mitten, direktsq. abk1. sequence3. square* * *1. noun1) (Geom.) Quadrat, das2) (object, arrangement) Quadrat, dascarpet square — Teppichfliese, die
3) (on board in game) Feld, dasbe or go back to square one — (fig. coll.) wieder von vorn anfangen müssen
4) (open area) Platz, der5) (scarf) [quadratisches] Tuch2. adjectivesilk square — Seidentuch, das
1) quadratisch2)a square foot/mile/metre — etc. ein Quadratfuß/eine Quadratmeile/ein Quadratmeter usw.
3) (right-angled) rechtwink[e]ligsquare with or to — im rechten Winkel zu
4) (stocky) gedrungen [Statur, Gestalt]5) (in outline) rechteckig; eckig [Schultern, Kinn]6) (quits) quitt (ugs.)3. adverbbe [all] square — [völlig] quitt sein (ugs.); [Spieler:] gleich stehen; [Spiel:] unentschieden stehen
breit [sitzen]4. transitive verb1) (make right-angled) rechtwinklig machen; vierkantig zuschneiden [Holz]3) (divide into squares) in Karos einteilen4) (Math.): (multiply) quadrieren3 squared is 9 — 3 [im] Quadrat ist 9; 3 hoch 2 ist 9
5) (reconcile)6)5. intransitive verbsquare it with somebody — (coll.): (get somebody's approval) es mit jemandem klären
(be consistent) übereinstimmenPhrasal Verbs:* * *(in a town) n.Platz ¨-e m. adj.quadratisch adj.viereckig adj.vierschrötig adj. n.Karo -s n.Quadrat -e n.Viereck -e n.zweite Potenz f. v.abgleichen v.ausgleichen v. -
47 UMA
1. universal measuring amplifier - универсальный измерительный усилитель;2. universal measuring assembly - универсальный измерительный стенд;3. upper memory area - верхняя область памяти -
48 equipment
-
49 Messstelle
Messstelle1 f METR detector, sensor; instrument tapping point, sensing area, instrument tapping point, test point (Versuch) -
50 system
1) система; комплекс2) метод; способ3) канал•- acoustic alarm system
- acoustic image system
- acoustic systems
- actiontrack system
- active IR-system
- actuator system
- adaptive communication system
- adaptive teleinformation system
- adaptive telemetering system
- advanced information system
- Afsatcom system
- air system
- aircraft intercommunication system
- airfield communication system
- air-ground automatic system
- airline reservation system
- air-to-ground TV system
- alarm signal system
- alarm system
- all-channel signaling system
- ALL-IN-ONE system
- alphanumeric system
- amplified speaker system
- amplitude shift-keying system
- AMPS system
- analog cellular communication system
- analog cellular system
- analog component video system
- analog television system
- analog tropospheric system
- anisochronous system
- antenna system
- antitheft system
- AR system
- Arabsat system
- ASK system
- associated channel analog system
- asynchronous address communication system
- audio recording system
- Aurora system
- Aussat system
- automatic communication system
- automatic connection establishment system
- automatic control system
- automatic data acquisition system
- automatic telegraphy system
- automatic telephone system
- automatic tuning system
- automatized cellular system
- auxiliary alarm system
- balanced cable transmission system
- band sharing system
- base station system
- baseband system
- basic input/output system
- bass-reflex speaker system
- batch processing system
- batch transmission system
- batch-and-forward system
- batteryless system
- bilateral CTV system
- binary tariff system
- biocontrol system
- bit parallel interface system
- bit transport system
- bridge duplex system
- broadband mobile system
- broadcast satellite system
- broadcasting delivery media systems
- burglar alarm system
- byte-serial interface system
- cabinet system
- cabinetless system
- cable distribution system
- cable TV system
- call-accounting system
- call-answering system
- call-counting system
- call-distributing system
- call-processing system
- call-queueing system
- camp-on system
- CAPTAIN system
- car component audio system
- carrier reinsertion system
- carrier system
- carrier-communication system
- carrier-current communication system
- Cassegrain-Schmidt system
- cassette recording system
- cassette reproducing system
- CATRIN system
- caution system
- CD 900 system
- cellular system
- cellular-radio system
- central-battery system
- centralized control system
- chirp binary telegraph system
- cipher system
- circuit switched telecommunication system
- circuit switching telecommunication system
- circular telecontrol system
- clock system
- closed-circuit communication system
- closed-circuit telegraph system
- closed-numbering system
- code-dependent system
- code-division multiple access system
- code-independent system
- code-insensitive system
- code-sensitive system
- coding system
- coherent fiber-optic system
- collimating system
- collocated system
- color separating system
- combined numbering system
- combined power supply system
- combined satellite communication system
- common-battery system
- common-carrier system
- common-channel signaling system
- common-engineering communication system
- common-purpose cellular system
- common-using band system
- common-using cordless telephone system
- common-using paging system
- communication system
- communication traffic system
- communications system
- community antenna system
- community antenna television system
- community TV-system
- commununication switching system
- compact disk digital audio system
- compatible color television system
- compatible single sideband system
- compatible single-band system
- compatible TV-system
- complex radio communication system
- computer vision system
- computer-telephone system
- Comsar system
- Comsat system
- Conax system
- concentrated-insonation system
- conference system
- conference-communication system
- congested system
- congress-class system
- constant-current system
- control generating system
- conventional television system
- Conversant system
- cordless-communication system
- crossbar system
- crossed-coincident microphone system
- Crosspoint system
- CSE system
- C-system
- cubical video projecting system
- data processing system
- data system
- data transport system
- data-collection system
- data-compression system
- data-exchange system
- dataflow system
- data-gathering system
- data-handling system
- data-measuring system
- data-reduction system
- data-transmission system
- Decca Navigator system
- DECfax system
- decision-feedback system
- dedicated control channel system
- dedicated multimedia system
- delta-sigma system
- deluxe presentation system
- departmental communication system
- desktop-video system
- DFS/Copernicus system
- dial-telephone system
- differential phase shift-keying system
- differential-duplex system
- differential-magnetic system
- digital camera system
- digital hybrid-key telephone system
- digital mass storage system
- digital microwave radio transmission system
- digital telephone communication system
- digital transmission system
- digital TV-communication system
- Digital UNIX system
- digital-analog system
- digital-cellular system
- digital-data modulation system
- digital-effect system
- digital-message entry system
- digital-termination system
- direct-broadcasting satellite system
- directing system
- direct-modulation system
- direct-sequence system
- direct-telephone communication system
- discrete communication system
- discrete sound system
- discrete-addressing system
- disk-operating system
- DISOSS system
- dispatch telephone communication system
- dispatch-center system
- dispersed-insonation system
- distributed-insonation system
- distributed-processing system
- documental-type communication system
- Dolby systems
- domestic satellite communication system
- double-band telephone communication system
- double-channel transmission system
- double-current transmission system
- double-pole communication system
- double-sideband large carrier system
- DSCS system
- D-system
- dual-cable system
- dual-reflector system
- duplexed system
- Earth-to-space transmission system
- ECM system
- electric communication system
- electronic antishock system
- electronic data-gathering system
- electronic data-processing system
- electronic-message system
- electronic-scanning system
- electronic-switching system
- Ellipso system
- emergency telephone communication system
- emergency-broadcast system
- EMX system
- equidistant system
- error-correction system
- error-detection system
- Eutelsat system
- extensible system
- external paging system
- facsimile system
- fast-acting servicing system
- fault-tolerant system
- fax communication system
- fax transmitting system
- feed system
- fiber transmission system
- fiber-optic transmission system
- field-sequential system
- final mile system
- finishing system
- fire alarm system
- fire warning system
- first generation cellular system
- five-channel communication system
- fixed satellite system
- Flexcam system
- flexible access system
- Flitsatcom system
- focusing system
- four-channel sound system
- four-dimensional system
- four-wire telephone communication system
- frame-sequential system
- frequency shift-keying system
- frequency-carrier system
- frequency-control system
- front-bass reflex speaker system
- fully digital system
- gate system
- Gaussian system
- generalized system
- generating dynamic system
- generator-dc-motor system
- GIGASET radio system
- global positioning system
- Global system
- Gopher system
- grandfathered system
- group-alerting and dispatching system
- guide system
- hard-wired CCTV system
- hazard system
- helical-scan system
- HF-synchronizing system
- high-precision navigating system
- Hi-linear system
- home system
- home-telephone system
- home-type system
- homing-guidance system
- host system
- hydroacoustic system
- ideal communication system
- idealized system
- image informaion system
- image-forming system
- immedial servicing system
- incompatible system
- independent system
- information retrieval system
- information system radio system
- information system
- information-feedback system
- information-measuring system
- infrared alarm system
- Inmarsat system
- Inmarsat-A system
- Inmarsat-B system
- Inmarsat-C system
- Inmarsat-D system
- Inmarsat-M system
- Inmarsat-P system
- integrated telephone system
- integrated videographic teleconferencing system
- integrated-antenna system
- integrated-communication system
- integrated-modulation system
- integrated-office system
- Intelsat system
- interactive system
- intercarrier-sound system
- intercommunication system
- intercontinental tropospheric system
- interlock system
- intermachine exchange system
- intermediate system
- international communication system
- interphone system
- Intervision system
- intraband signaling system
- intruder alarm system
- inward-outward dialing system
- ionoscatter system
- ionosphere sounder system
- ionospheric system
- Iridium system
- isolated system
- Italsat system
- J-carrier system
- joint-multichannel trunking and switching system
- K-carrier system
- key system
- key-telephone system
- land satellite communication system
- large-grained communication system
- laser communication system
- L-band satellite system
- L-carrier system
- Leasat system
- lightning protection system
- limited distortion system
- line amplifiers system
- link system
- little-channel relay system
- local alarm system
- local battery system
- local communication system
- local radio paging system
- long-haul system
- long-range system
- loop system
- loud-speaking communication system
- low-traffic system
- magnetic tape recording system
- Mail system
- management-information system
- manual cellular system system
- manual telephone set system
- Marisat system
- master television system
- master-antenna television system
- matrix sound system
- message feedback system
- message procession system
- message registration system
- message-switched system
- meteor radio system
- Metrobus system
- micro component system
- Micro Press Cluster Printing system
- micro-lens system
- microprocessor system
- microwave relay system
- midi system
- mine radio telephone system
- mini system
- mixed media system
- mixed numbering system
- mobile cellular communication system
- mobile land communication system
- mobile radio system
- mobile relay system
- mobile system
- modulated system
- monetary mobile system
- MS-Mail system
- multiareal system
- multicassette system
- multichannel telephone system
- multicomputer system
- multidisk system
- multiformat recording system
- multifrequency tone signaling system
- multiguard system
- multilevel mixed system
- multimedia system
- multiple-channel system
- multiqueue system
- Multiscrypt system
- multistandard system
- multitrack editing system
- mutibeam antenna system
- muting system
- Nagravision system
- NAMTS system
- narrow-angle TV system
- national communication system
- navigation system
- n-channel communication system
- n-channel DPSK system
- n-channel transmission system
- network standalone system
- network system
- network-operation system
- networks numbering system
- neutral direct-current telegraph system
- n-head video system
- NMT system
- noise-reduction system
- nonhoming tuning system
- noninterlaced television system
- nonsegmented system
- Norsat system
- n-satellite system system
- n-tone DPSK system
- n-tone MFSK system
- NTSC system
- NTT system
- obligatory message system
- Odyssey system
- off-line system
- on-line computer system
- on-line secured system
- open numbering system
- open system
- operative-engineering communication system
- opposite signals system
- optical-communication system
- optical-information system
- optical-projection system
- optoelectronic system
- oscillating system
- oscillation system
- outband signaling system
- package-and-resource tracking system
- pagemaster system
- paging system
- PAL system
- parametric system
- PATHWORKS system
- pattern recognition system
- personal holding guard system
- phase shift-keying system
- phone system
- Piccolo system
- pilot-controller system
- polar direct-current telegraph system
- portable mobile system
- power control system
- power controlling system
- power-line carrier system
- power-supply system
- press-to-talk system
- Prestel system
- primary-supply system
- privacy system
- private branch paging system
- private movable system
- private videodata system
- private videotex system
- process-interface system
- PROFS system
- programmable cross-connect system
- programmable cross-connected system
- programmed radio system
- prompting system
- protected wireline distribution system
- protection system
- pseudoquadraphony system
- pseudotrunking system
- public videodata system
- public videotex system
- pulse-code system
- pulse-frequency system
- pulse-time system
- quadraphonic sound system
- quadruple-diversity system
- R1 system
- R2 system
- radio buoy system
- radio command system
- radio communication system
- Radio Data system
- radio facsimile system
- Radiocom 2000 system
- radio-control system
- radio-paging system
- radio-relay system
- radiosonde-radio-wind system
- radio-telemetering system
- real time pulse-echo system
- real time system
- receiver lockout system
- recording system
- recovery system
- redundant system
- reference-information system
- regional electronic payment system
- relay-radio system
- remote concentrating system
- remote control system
- remote diagnostic system
- remote information system
- remote semiconcentrating system
- remote sensing system
- remote signaling system
- rendering system
- rerecording system
- reserved servicing system
- RF/Transmission system
- rotary system
- safety alarm system
- safety system
- Satcom system
- satellite comminication system
- satellite marine comminication system
- Satellite Master Antenna Television system
- satellite radio system
- satellite-aircraft communication system
- SB-communication system
- SBL communication system
- scalable system
- scanning trunking system
- SCO UNIX system
- searchless identification system
- seat reservation system
- SECAM system
- second generation cellular system
- second room system
- secondary supply system
- secrecy system
- section communication system
- security system
- segmented system
- seismic system
- selective calling system
- selective frequency base station system
- selective protective system
- selective telephone system
- self-adjusting system
- self-balancing differential system
- self-contained system
- self-test system
- selsyn system
- semiautomatic-switching system
- semiautomatized cellular system
- sensory system
- servo system
- shadow-batch system
- short-haul microwave system
- Sicral system
- Sigma Servo system
- signal system
- simplex movable system
- single-band transmission system
- single-busbar system
- single-cable communication system
- single-cable system
- single-channel system
- single-current transmission system
- single-pulse tracking system
- Skynet system
- small-grained communication system
- SmarTrunk II radio communication system
- solid-state uninterruptible power battery system
- Sony bus system
- sound alarm system
- sound equalization system
- sound navigation system
- sound reinforcement system
- sound warning system
- space-division system
- space-switched system
- spark-safe system
- speaker system
- special communication system
- speech-processing system
- speech-recognition system
- split-speaker system
- spread-spectrum system
- stabilizing system
- stage monitoring system
- standalone double point system
- star-circuit system
- STAREX CMX system
- starting communication system
- start-stop system
- stationary satellite system
- step-by-step system
- stereo sound system
- stereophonic sound system
- storage system
- storage-and-retrieval system
- Strowger system
- submarine fiber-optic system
- subprimary digital transmission system
- subscriber carrier system
- subscriber switching system
- suffix system
- Supersat system
- supervisory control system
- surround sound system
- switched telecommunication system
- switching system
- sync communication system
- synchro system
- synchronous communication system
- synchronous digital system
- TAGS system
- tandem system
- tariffication system
- T-carrier system
- TDF system
- teleautomatic system
- Telecom system
- telecommunication system
- telecommunications system
- telecommunication-service priority system
- telecommunications-service priority system
- telecontrol system
- telemechanic system
- telemetering system
- telemetry system
- telephone system
- telephone-answering system
- telephone-communication system
- telephone-communications system
- teleprocessing system
- Telesat system
- teletex system
- teletypewriter system
- television-telephone system
- Tele-X system
- Telsar system
- terminal system
- terrestrial radio-relay system
- theft-prevention system
- thin-route system
- third generation communication system
- three-axle stabilizing system
- three-channel HF-telephone system
- three-channel transmission system
- three-color system
- three-lens optical system
- three-primary system
- three-wire system
- time-dissemination system
- time-frequency hopping system
- time-switched system
- total access communication system
- total area coverage system
- transmission system
- trichromatic system
- triple-interlace system
- triplex system
- trunk communication system
- TV-observation system
- twelve-channel transmission system
- two-arm system
- two-band system
- two-color system
- two-roller transfer system
- two-step control system
- two-way CATV system
- two-way system
- two-wire telephone communication system
- ultra-match system
- ULTRIX system
- unified radioaccess system
- unilateral-control system
- unilateral-synchronization system
- uninterruptible-power system
- Unisat system
- universal alarm system
- universal-battery system
- universal-electronic system
- universal-movable system
- Uniworks system
- vestigial-sideband system
- video editing system
- video home system
- video recording system
- videocom system
- videoteleconference system
- videotex system
- virtual studio system
- vision system
- vocoder system
- voice dialog system
- voice frequency carrier telegraph system
- voice modulation system
- voice post system
- volume control system
- waiting system
- warning system
- watch system
- watching system
- waterside facsimile communication system
- wave-propagating system
- wide-angle TV system
- Winfax Pro system
- wired broadcasting system
- wireless CCTV system
- wireless home system
- wireless infrared speaker system
- wire-radio communication system
- XY system
- zone-selective protection system
- zoning systemEnglish-Russian dictionary of telecommunications and their abbreviations > system
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51 device
устройство; прибор; аппарат; средство; элемент; знакintruder alarm (proximity) device — разведывательно-сигнализационный прибор с датчиками неконтактного действия
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52 πλέθρον
Grammatical information: n.Meaning: measure of length of 100 feet, square measure of 10000 square feet (IA.); later (Plu.) = Lat. iugerum; also `racetrack' (Syrac.).Other forms: πέλεθρον (Hom., also Delph. a. Corc.Compounds: As 2. member e.g. in ἀ-πέλεθρος `immeasurable' (Hom., Nonn.), δί-πλεθρος `measuring two πλ.', - ον n. `length or area of πλ.' (hell.). - ία f. `id.' (Corc.).Derivatives: πλεθρ-ιαῖος `measuring one πλ.' (X., Pl.). - ιον n. designation of a part of the Gymnasiums in Olympia (Paus., Luc.), - ίζω approx. `to measure, to spread oneself over smth.' (Thphr. Char. 23, 2; ἐκ- πλέθρον Gal) with - ισμα = δρόμημα (H., Phot.).Origin: PG [a word of Pre-Greek origin]Etymology: Formation like βέρεθρον a.o. (Schwyzer 533); etymol. unclear. Hypothesis by Lobeck (s. Curtius 277 a. Bq; cf. Persson Beitr. 2, 663): to πίμπλημι `fill'; by Kretschmer Glotta 9, 225 f. (with Hultsch): prop. `earthinversion'(? `-umwendung'), `ploughing, furrow' to πέλομαι `turn' (rather `turning of the plough'; Thierfelder by letter.); cf. also WP. 1, 516. After Hermann IF 34, 340 foreign word. -- On the varying forms πέλεθρον: πλέθρον also Schwyzer 259 and Szemerényi Syncope in Greek and Indo-European (Napoli 1964) 214f., who takes πλέθρον as Greek syncope of πέλεθρον. -- Furnée 152 adduces βλέθρον inscr. Thespiae, LSJ 1414.Page in Frisk: 2,555Greek-English etymological dictionary (Ελληνικά-Αγγλικά ετυμολογική λεξικό) > πλέθρον
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53 measure
measure ⇒ Length measurement, Surface area measurements, Capacity measurement, Volume measurement, Weight measurement, SizesA n1 ( unit) unité f de mesure ; weights and measures les poids mpl et mesures fpl ; a measure of length une unité de longueur ; liquid measure mesure f de capacité pour les liquides ; to make sth to measure faire qch sur mesure ; it's made to measure ( garment) c'est fait sur mesure, c'est du sur mesure ;2 (standard amount, container) mesure f ; a double measure of vodka une double mesure de vodka ; he gave me short measure, I got short measure il a triché sur la quantité ;3 ( device for measuring) instrument m de mesure ;4 fig (qualified amount, extent) some ou a certain measure of un/-e certain/-e ; a measure of respect/success/change un certain respect/succès/changement ; to receive only a small measure of support ne recevoir qu'un soutien limité ; a good ou wide measure of autonomy une grande autonomie ; in large measure dans une large mesure ; she despised them and envied them in equal measure elle les méprisait autant qu'elle les enviait ; to distribute praise and blame in equal measure faire autant de compliments que de critiques ; in full measure [feel, possess, fulfil, contribute] pleinement ; [repay] entièrement ; [suffer] profondément ;5 (way of estimating, indication) ( of price rises) mesure f ; (of success, anger, frustration etc) mesure f, indication f ; (of efficiency, performance) critère m ; to be the measure of donner la mesure de ; to give some measure of donner une idée de [delight, failure, talent, arrogance etc] ; to use sth as a measure of utiliser qch pour mesurer [effects, impact, success] ; this is a measure of how dangerous it is ceci montre à quel point c'est dangereux ; this is a measure of how seriously they are taking the situation ceci montre à quel point ils prennent la situation au sérieux ; that is a measure of how well the company is run cela mesure la qualité de la gestion de la société ;6 ( assessment) beyond measure [change, increase] énormément ; [anxious, beautiful, difficult] extrêmement ; it has improved beyond measure il y a eu d'énormes progrès ; to take the measure of sb jauger qn ; I have the measure of them je sais ce qu'ils valent ;7 (action, step) mesure f (against contre ; to do pour faire) ; to take measures prendre des mesures ; safety ou security measure mesure de sécurité ; measures aimed at doing des mesures destinées à faire ; to do sth as a precautionary/an economy measure faire qch par mesure de précaution/d'économie ; as a preventive measure à titre préventif ; as a temporary measure provisoirement ; the measure was defeated Pol Jur la mesure a été rejetée ;B vtr1 ( by standard system) [person, instrument] mesurer [length, rate, depth, person, waist] ; to measure sth in mesurer qch en [metres, inches] ; to get oneself measured for faire prendre ses mesures pour ; over a measured kilometre Sport sur un kilomètre (délimité par des balises) ; to measure sth into mesurer qch dans [container] ;2 ( have a measurement of) mesurer ; to measure four by five metres mesurer quatre mètres sur cinq ; a tremor measuring 5.2 on the Richter scale une secousse de 5,2 sur l'échelle de Richter ;3 ( assess) mesurer [performance, ability, success, popularity] ; they measure their progress by the number of ils mesurent leur progrès au nombre de ;C vi [person, instrument] mesurer.for good measure pour faire bonne mesure ; to do things by half-measures se contenter de demi-mesures ; there can be no half-measures il ne saurait être question de demi-mesures.■ measure off:▶ measure off [sth] mesurer [fabric, ribbon etc].■ measure out:▶ measure out [sth] mesurer [land, flour, liquid] ; doser [medicine] ; compter [drops].■ measure up:▶ measure up [person] avoir les qualités requises ; [product] être de qualité ; to measure up against sb être l'égal de qn ; to measure up to être à la hauteur de [expectations] ; soutenir la comparaison avec [achievement] ;▶ measure up [sth] mesurer [room etc]. -
54 range
1. дальность <полета, действия>; расстояние; дистанция; радиус < действия>/ определять расстояние2. диапазон; область; предел(ы);3. амплитуда; размах4. полигон; (испытательная) установка5. серия; ряд; класс; ранг/ классифицировать; ранжироватьrange during climbrange of scalabilityrange to goabsolute rangeaccelerometer rangeACMI rangeaeroballistic rangeafterburning rangeair combat maneuveringair superiority rangeaircraft-to-target rangealpha rangealtitude rangeangle-of-attack rangeangle-of-sideslip rangeangular rangeAOA rangeat stand-off rangeballistic rangebest rangeCG rangecoast-to-coast rangeconstant altitude-constant airspeed rangecontinuous Mach number rangecritical range of the Reynolds numbercruise rangecruise-climb rangedeflection rangeelastic-plastic rangeelevator rangeempty-weight rangeferry rangefinal-maneuver activation rangefiring rangeflight path rangefull-payload rangegain rangegunnery rangehigh-angle-of-attack rangehigh-AOA rangehigh-power rangehigh-altitude rangehigh-supersonic speed rangehorizontal rangeIFR rangeindoor rangeinstantaneous rangelaser-measured rangelaunch rangelinear rangeload factor rangelock-on rangelower angle-of-attack rangelower AOA rangeMach number rangemaneuver lift rangemaximum fuel rangemaximum payload rangemeasurement rangemidstroke rangemillimetric rangemission rangemotion sickness rangeno-wind rangeoperational rangeoutdoor rangeplastic rangeradar cross-section measuring rangeRCS measuring rangerefueled rangeReynolds number rangerotation rangesideslip rangespecific rangespeed rangespin area rangestill-air rangestress rangethrust rangetranscontinental rangeunrefueled rangevisual range -
55 Ayrton, William Edward
[br]b. 14 September 1847 London, Englandd. 8 November 1908 London, England[br]English physicist, inventor and pioneer in technical education.[br]After graduating from University College, London, Ayrton became for a short time a pupil of Sir William Thomson in Glasgow. For five years he was employed in the Indian Telegraph Service, eventually as Superintendent, where he assisted in revolutionizing the system, devising methods of fault detection and elimination. In 1873 he was invited by the Japanese Government to assist as Professor of Physics and Telegraphy in founding the Imperial College of Engineering in Tokyo. There he created a teaching laboratory that served as a model for those he was later to organize in England and which were copied elsewhere. It was in Tokyo that his joint researches with Professor John Perry began, an association that continued after their return to England. In 1879 he became Professor of Technical Physics at the City and Guilds Institute in Finsbury, London, and later was appointed Professor of Physics at the Central Institution in South Kensington.The inventions of Avrton and Perrv included an electric tricycle in 1882, the first practicable portable ammeter and other electrical measuring instruments. By 1890, when the research partnership ended, they had published nearly seventy papers in their joint names, the emphasis being on a mathematical treatment of subjects including electric motor design, construction of electrical measuring instruments, thermodynamics and the economical use of electric conductors. Ayrton was then employed as a consulting engineer by government departments and acted as an expert witness in many important patent cases.[br]Principal Honours and DistinctionsFRS 1881. President, Physical Society 1890–2. President, Institution of Electrical Engineers 1892. Royal Society Royal Medal 1901.Bibliography28 April 1883, British patent no. 2,156 (Ayrton and Perry's ammeter and voltmeter). 1887, Practical Electricity, London (based on his early laboratory courses; 7 edns followed during his lifetime).1892, "Electrotechnics", Journal of the Institution of Electrical Engineers 21, 5–36 (for a survey of technical education).Further ReadingD.W.Jordan, 1985, "The cry for useless knowledge: education for a new Victorian technology", Proceedings of the Institution of Electrical Engineers, 132 (Part A): 587– 601.G.Gooday, 1991, History of Technology, 13: 73–111 (for an account of Ayrton and the teaching laboratory).GW -
56 Brown, Joseph Rogers
SUBJECT AREA: Mechanical, pneumatic and hydraulic engineering[br]b. 26 January 1810 Warren, Rhode Island, USAd. 23 July 1876 Isles of Shoals, New Hampshire, USA[br]American machine-tool builder and co-founder of Brown \& Sharpe.[br]Joseph Rogers Brown was the eldest son of David Brown, who was modestly established as a maker of and dealer in clocks and watches. Joseph assisted his father during school vacations and at the age of 17 left to obtain training as a machinist. In 1829 he joined his father in the manufacture of tower clocks at Pawtucket, Rhode Island, and two years later went into business for himself in Pawtucket making lathes and small tools. In 1833 he rejoined his father in Providence, Rhode Island, as a partner in the manufacture of docks, watches and surveying and mathematical instruments. David Brown retired in 1841.J.R.Brown invented and built in 1850 a linear dividing engine which was the first automatic machine for graduating rules in the United States. In 1851 he brought out the vernier calliper, the first application of a vernier scale in a workshop measuring tool. Lucian Sharpe was taken into partnership in 1853 and the firm became J.R.Brown \& Sharpe; in 1868 the firm was incorporated as the Brown \& Sharpe Manufacturing Company.In 1855 Brown invented a precision gear-cutting machine to make clock gears. The firm obtained in 1861 a contract to make Wilcox \& Gibbs sewing machines and gave up the manufacture of clocks. At about this time F.W. Howe of the Providence Tool Company arranged for Brown \& Sharpe to make a turret lathe required for the manufacture of muskets. This was basically Howe's design, but Brown added a few features, and it was the first machine tool built for sale by the Brown \& Sharpe Company. It was followed in 1862 by the universal milling machine invented by Brown initially for making twist drills. Particularly for cutting gear teeth, Brown invented in 1864 a formed milling cutter which could be sharpened without changing its profile. In 1867 the need for an instrument for checking the thickness of sheet material became apparent, and in August of that year J.R.Brown and L.Sharpe visited the Paris Exhibition and saw a micrometer calliper invented by Jean Laurent Palmer in 1848. They recognized its possibilities and with a few developments marketed it as a convenient, hand-held measuring instrument. Grinding lathes were made by Brown \& Sharpe in the early 1860s, and from 1868 a universal grinding machine was developed, with the first one being completed in 1876. The patent for this machine was granted after Brown's sudden death while on holiday.[br]Further ReadingJ.W.Roe, 1916, English and American Tool Builders, New Haven: Yale University Press; repub. 1926, New York and 1987, Bradley, Ill.: Lindsay Publications Inc. (further details of Brown \& Sharpe Company and their products).R.S.Woodbury, 1958, History of the Gear-Cutting Machine, Cambridge, Mass.: MIT Press ——, 1959, History of the Grinding Machine, Cambridge, Mass.: MIT Press.——, 1960, History of the Milling Machine, Cambridge, Mass.: MIT Press.RTS -
57 Johansson, Carl Edvard
[br]b. 15 March 1864 Orebro, Swedend. 30 September 1943 Eskilstuna, Sweden[br]Swedish metrologist and inventor of measuring-gauge blocks.[br]Carl Edvard Johansson was first apprenticed to a shoemaker, but he soon abandoned that career. In 1882 he went to America to join his brother Arvid working at a sawmill in the summer; in winter the brothers obtained further general education at the Gustavus Adolphus College at St Peter, Minnesota. They returned to Sweden in November 1884 and in the following year Carl obtained employment with a small engineering firm which rented a workshop in the government small-arms factory at Eskilstuna. In his spare time he attended the Eskilstuna Technical College and in 1888 he was accepted as an apprentice armourer inspector. After completion of his apprenticeship he was appointed an armourer inspector, and it was in his work of inspection that he realized that the large number of gauges then required could be reduced if several accurate gauges could be used in combination. This was in 1896, and the first set of gauges was made for use in the rifle factory. With these, any dimension between 1 mm and 201 mm could be made up to the nearest 0.01 mm, the gauges having flat polished surfaces that would adhere together by "wringing". Johansson obtained patents for the system from 1901, but it was not until c.1907 that the sets of gauges were marketed generally. Gauges were made in inch units for Britain and America—slightly different as the standards were not then identical. Johansson formed his own company to manufacture the gauges in 1910, but he did not give up his post in the rifle factory until 1914. By the 1920s Johansson gauges were established as the engineering dimensional standards for the whole world; the company also made other precision measuring instruments such as micrometers and extensometers. A new company, C.E.Johansson Inc., was set up in America for manufacture and sales, and the gauges were extensively used in the American automobile industry. Henry Ford took a special interest and Johansson spent several years in a post with the Ford Motor Company in Detroit, Michigan, until he returned to Sweden in 1936.[br]Principal Honours and DistinctionsHonorary Doctorates, Gustavus Adolphus College, St Peter and Wayne University, Detroit. Swedish Engineering Society John Ericsson Gold Medal. American Society of Mechanical Engineers Gold Medal.Further ReadingK.J.Hume, 1980, A History of Engineering Metrology, London, pp. 54–66 (a short biography).RTS -
58 Maudslay, Henry
SUBJECT AREA: Mechanical, pneumatic and hydraulic engineering[br]b. 22 August 1771 Woolwich, Kent, Englandd. 15 February 1831 Lambeth, London, England[br]English precision toolmaker and engineer.[br]Henry Maudslay was the third son of an ex-soldier and storekeeper at Woolwich Arsenal. At the age of 12 he was employed at the Arsenal filling cartridges; two years later he was transferred to the woodworking department, adjacent to the smithy, to which he moved when 15 years old. He was a rapid learner, and three years later Joseph Bramah took him on for the construction of special tools required for the mass-production of his locks. Maudslay was thus employed for the next eight years. He became Bramah's foreman, married his housekeeper, Sarah Tindale, and, unable to better himself, decided to leave and set up on his own. He soon outgrew his first premises in Wells Street and moved to Margaret Street, off Oxford Street, where some examples of his workmanship were displayed in the window. These caught the attention of a visiting Frenchman, de Bacquancourt; he was a friend of Marc Isambard Brunel, who was then in the early stages of designing the block-making machinery later installed at Portsmouth dockyard.Brunel wanted first a set of working models, as he did not think that the Lords of the Admiralty would be capable of understanding engineering drawings; Maudslay made these for him within the next two years. Sir Samuel Bentham, Inspector-General of Naval Works, agreed that Brunel's system was superior to the one that he had gone some way in developing; the Admiralty approved, and an order was placed for the complete plant. The manufacture of the machinery occupied Maudslay for the next six years; he was assisted by a draughtsman whom he took on from Portsmouth dockyard, Joshua Field (1786–1863), who became his partner in Maudslay, Son and Field. There were as many as eighty employees at Margaret Street until, in 1810, larger premises became necessary and a new works was built at Lambeth Marsh where, eventually, there were up to two hundred workers. The new factory was flanked by two houses, one of which was occupied by Maudslay, the other by Field. The firm became noted for its production of marine steam-engines, notably Maudslay's table engine which was first introduced in 1807.Maudslay was a consummate craftsman who was never happier than when working at his bench or at a machine tool; he was also one of the first engineers to appreciate the virtues of standardization. Evidence of this appreciation is to be found in his work in the development of the Bramah lock and then on the machine tools for the manufacture of ship's blocks to Marc Brunel's designs; possibly his most important contribution was the invention in 1797 of the metal lathe. He made a number of surface plates of the finest quality. The most celebrated of his numerous measuring devices was a micrometer-based machine which he termed his "Lord Chancellor" because, in the machine shop, it represented the "final court of appeal", measuring to one-thousandth of an inch.[br]Further Reading1934–5, "Maudslay, Sons \& Field as general engineers", Transactions of the Newcomen Society 15, London.1963, Engineering Heritage, Vol. 1, London: Institution of Mechanical Engineers. L.T.C.Rolt, 1965, Tools for the Job, London: Batsford.W.Steeds, 1969, A History of Machine Tools 1700–1910, Oxford: Oxford University Press.IMcN -
59 Ramsden, Jesse
SUBJECT AREA: Mechanical, pneumatic and hydraulic engineering[br]b. 6 October 1735 (?) Halifax, Yorkshire, Englandd. 5 November 1800 Brighton, Sussex, England[br]English instrument-maker who developed machines for accurately measuring angular and linear scales.[br]Jesse Ramsden was the son of an innkeeper but received a good general education: after attending the free school at Halifax, he was sent at the age of 12 to his uncle for further study, particularly in mathematics. At the age of 16 he was apprenticed to a cloth-worker in Halifax and on completion of the apprenticeship in 1755 he moved to London to work as a clerk in a cloth warehouse. In 1758 he became an apprentice in the workshop of a London mathematical instrument-maker named Burton. He quickly gained the skill, particularly in engraving, and by 1762 he was able to set up on his own account. He married in 1765 or 1766 the youngest daughter of the optician John Dollond FRS (1706– 61) and received a share of Dollond's patent for making achromatic lenses.Ramsden's experience and reputation increased rapidly and he was generally regarded as the leading instrument-maker of his time. He opened a shop in the Haymarket and transferred to Piccadilly in 1775. His staff increased to about sixty workers and apprentices, and by 1789 he had constructed nearly 1,000 sextants as well as theodolites, micrometers, balances, barometers, quadrants and other instruments.One of Ramsden's most important contributions to precision measurement was his development of machines for obtaining accurate division of angular and linear scales. For this work he received a premium from the Commissioners of the Board of Longitude, who published his descriptions of the machines. For the trigonometrical survey of Great Britain, initiated by General William Roy FRS (1726–90) and continued by the Board of Ordnance, Ramsden supplied a 3 ft (91 cm) theodolite and steel measuring chains, and was also engaged to check the glass tubes used to measure the fundamental base line.[br]Principal Honours and DistinctionsFRS 1786; Royal Society Copley Medal 1795. Member, Imperial Academy of St Petersburg 1794. Member, Smeatonian Society of Civil Engineers 1793.Bibliography1774, Description of a New Universal Equatorial Instrument, London; repub. 1791. 1777, Description of an Engine for Dividing Mathematical Instruments, London. 1779, Description of an Engine for Dividing Straight Lines on MathematicalInstruments, London.1779, "Description of two new micrometers", Philosophical Transactions of the Royal Society 69:419–31.1782, "A new construction of eyeglasses for such telescopes as may be applied to mathematical instruments", Philosophical Transactions of the Royal Society 73:94–99.Further ReadingR.S.Woodbury, 1961, History of the Lathe to 1850, Cleveland, Ohio; W.Steeds, 1969, A History of Machine Tools 1700–1910, Oxford (both provide a brief description of Ramsden's dividing machines).RTS -
60 Watkins, Alfred
SUBJECT AREA: Photography, film and optics[br]b. 1854 Hereford, Englandd. 7 April 1935 Hereford, England[br]English photographer who developed the first practical exposure-measuring system.[br]His first patent was granted on 27 January 1890 and described a method of measuring the "actinic" value of light as a means of determining exposure. A strip of sensitized paper which darkened on exposure to light was used, and the time taken for it to darken to match a standard tint was measured. This time could be used to calculate the necessary exposure time, taking into account the speed of the plate, shutter speed and aperture. Watkins marketed a number of these actinometer designs, of which the most popular was the Watkins Bee Meter, which was in a pocket-watch form, introduced in 1903 and remaining on sale until 1939. Watkins was concerned that photographers recognize that exposure measurement had to take into account the effect of development time and temperature. In 1893 he devised the concept of the "Watkins Factor": he showed that when plates were developed by inspection, as was the practice at the time, a fixed relationship existed between the time of the first appearance of the image and the total time required to give a fully developed negative. The Watkins Factor was the figure that the first time must be multiplied by to give the second time. Watkins published tables of factors for different brands of plates and for different developers, and marketed various aids such as specially calibrated thermometers and clocks, as aids in using "Fac-torial Development" to give consistent negatives. After the early years of the twentieth century Watkins gave up direct participation in photography and devoted his time to a variety of interests, including the plotting of ley lines in England.BC
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