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1 transient member
Англо-русский словарь промышленной и научной лексики > transient member
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2 временный элемент
Русско-английский словарь по вычислительной технике и программированию > временный элемент
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3 временный элемент набора
временный элемент набора
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[Л.Г.Суменко. Англо-русский словарь по информационным технологиям. М.: ГП ЦНИИС, 2003.]Тематики
EN
Русско-английский словарь нормативно-технической терминологии > временный элемент набора
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4 временный элемент
элемент, работающий на скручивание — member in torsion
элемент, работающий на растяжение — member in tension
Русско-английский большой базовый словарь > временный элемент
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5 временный элемент
transient member вчт.Русско-английский политехнический словарь > временный элемент
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6 временный элемент
1) Construction: jury2) Information technology: transient member (набора) -
7 postulador
m.1 member of a chapter who votes for an unqualified prelate.2 postulator.* * *SM postulator* * *= framer, expositor.Ex. It is the great expense and difficulty involved in changing a record which has proven an anathema to the framers of cataloging codes, and created a schism of interests between technical and public service librarians.Ex. Reference work has been ill-served in the past by its expositors and theoreticians: its extensive literature of several hundred papers and books is swollen by a mass of the transient and the trivial.* * *= framer, expositor.Ex: It is the great expense and difficulty involved in changing a record which has proven an anathema to the framers of cataloging codes, and created a schism of interests between technical and public service librarians.
Ex: Reference work has been ill-served in the past by its expositors and theoreticians: its extensive literature of several hundred papers and books is swollen by a mass of the transient and the trivial. -
8 ἦμαρ
Grammatical information: n.Meaning: `day' (Il.; s. below).Dialectal forms: Myc. amor. amorama \/āmōramar\/ `day after day'? Diwijamero perhaps \/dwi(y)āmeron\/ period of two days', Lamberterie, BSL 94 (1999) 264. Dor. Arc. ἆμαρ, - ατος;Compounds: As 2. member e. g. in ἐνν-, ἑξ-, αὑτ-, παν-, προ-ῆμαρ `nine days long' etc. (Hom.); on the type of comp. Leumann Hom. Wörter 100f. (against Wackernagel Glotta 2, 1ff.). As 1. member e. g. ἡμερό-κοιτος `taking his layer by day, sleaping by day' (Hes.); as 2. member e. g. in ἐφ-ήμερος (Pi., IA; - έριος Od.) `living only a day, transient, dayly' with ἐφημερίς, - ία, - εύω, - ευτήριον.Derivatives: ἠμάτιος `daily, at day' (Hom., Hes.). - Lengthened form ἡμέρα, Ion. - ρη, Dor. etc. ἀμέρα, Locr. ἀμάρα `id.' (Il.); on the meaning v. Windekens Philol. Stud. 11-12, 25ff. On τήμερον, μεσημβρία s. v. Derivv. ἡμέριος ( ἁμ-) `living only one day, dayly' (trag.), ἡμερινός `belonging to the day' (IA.; Chantraine Formation 201), ἡμερήσιος (- ίσιος?; s. Debrunner Glotta 13, 169) `lasting one day, belonging to the day, dayly' (IA.; Chantraine 42), ἡμεραῖος `id.' (pap.), ἡμερούσιος adv. `dayly' (pap. IVp; after ἐπιούσιος; Debrunner l. c.). Denomin. verb ἡμερεύω `spend the day', also with prefix, δι-, παν- (IA.); from there ἡμέρευσις `spending the day' (Aq.).Etymology: A cognate to ἦμαρ, which was Ionisized from Aeol. ἆμαρ and from Homer in Dorianising poetry, also taken over in ceremonial prosaic formulae (Arc. ἄματα πάντα), is Arm. awr `day' (IE * āmōr; cf. τέκμαρ: - μωρ); further not in any language group. Lengthened ἡμέρα (Locr. ἀμάρ-α), on which see Chantraine Formation 228, may have its spiritus from ἑσπέρα (Schwyzer 305, Wackernagel Unt. 45 A. 1). On ἦμαρ and ἡμέρη in Homer Debrunner Mus. Helv. 3, 40ff.; on ἦμαρ used as plural Leumann Hom. Wörter 100, who sees in it against Wackernagel, Benveniste a. o. as an innovation. S. μεσημβρίαPage in Frisk: 1,634-635Greek-English etymological dictionary (Ελληνικά-Αγγλικά ετυμολογική λεξικό) > ἦμαρ
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9 связь
1) association
2) binding
3) bond
4) bonding
5) brace
6) cohesiveness
7) communication
8) connection
9) <engin.> constraint
10) coupling
11) joint
12) link
13) linkage
14) relation
15) restraint
16) tie
17) union
– аварийная связь
– авиационная связь
– адгезионная связь
– анкерная связь
– валентная связь
– ветровая связь
– взаимная связь
– волоконно-оптическая связь
– вхождение в связь
– выходить на связь
– геометрическая связь
– глобальная связь
– дальняя связь
– двусторонняя связь
– дифференциальная связь
– донорная связь
– дроссельная связь
– дуплексная связь
– емкостная связь
– емкостно-резистивная связь
– звукоподводная связь
– иметь связь
– индуктивная связь
– ионная связь
– искусственная связь
– катодная связь
– корреляционная связь
– космическая связь
– кратная связь
– лазерная связь
– междугородняя связь
– международная связь
– метеорная связь
– многоканальная связь
– мобильная связь
– накладывать связь
– обратная связь
– одинарная связь
– односторонняя связь
– оптимальная связь
– паразитная связь
– поперечная связь
– причинная связь
– прямая связь
– радиорелейная связь
– радиотелеграфная связь
– радиотелефонная связь
– разрывать связь
– рашщеплять связь
– реостатная связь
– реостатно-емкостная связь
– связь автотрансформаторная
– связь быстрая
– связь взаимная
– связь взрывная
– связь вредная
– связь временная
– связь гальваническая
– связь геометрическая
– связь жесткости
– связь заказная
– связь зарядовая
– связь импульсная
– связь КБ
– связь клешнеобразная
– связь космическая
– связь междугородная
– связь междупунктовая
– связь немедленная
– связь нестационарная
– связь низовая
– связь прямая
– связь распределенная
– связь с антенной
– связь СВЧ
– связь скорая
– связь слабая
– связь трехрезонансная
– связь УКВ
– связь циркулярная
– связь чрезмерная
– связь эстафетная
– селекторная связь
– сельская связь
– симплексная связь
– слабая связь
– служебная связь
– спин-орбитальная связь
– стационарная связь
– телевизионная связь
– телеграфная связь
– телефонная связь
– трансформаторная связь
– укомплектовывать связь
– устанавливать связь
– фототелеграфная связь
– циркулярная связь
– цифровая связь
– щелевая связь
– электронная связь
внутренняя обратная связь — intrinsic feedback
входить в связь с — establish communication with
входить в связь с другим абонентом — contact wanted party
давать связь по обходу — reroute
емкостная внешняя связь контуров — series capacitive coupling
емкостная обратная связь — capacitive feedback
задержанная обратная связь — delayed feedback
запаздывающая обратная связь — lagging feedback
избирательная обратная связь — selective feedback
квантованная обратная связь — quantized feedback
междугородная телефонная связь — long-distance telephony
многоконтурная обратная связь — multiloop feedback
неполная связь контуров — tapped-down connection
обратная связь по напряжению — voltage feedback
обратная связь по огибающей — envelope feedback
обратная связь по положению — position feedback
обратная связь по производной — rate feedback
обратная связь по скорости — velocity feedback
обратная связь по току — current feedback
обратная связь по ускорению — acceleration feedback
обратная связь по частоте — frequency feedback
обратная связь со сложением токов — current regulation
отрицательная обратная связь — degenerative feedback, <electr.> negative feedback
полная связь контуров — untapped connection
положительная обратная связь — <comput.> positive feedback
порядок вхождения в связь — call-up procedure
связь для специальных служб — emergency-service communication
связь корпуса судна — member of ship's hull
связь космическая дальняя — <cosm.> deep-space communications
связь между А и Б емкостная — is capacitively coupled to B
связь между системами — intersystem communication
связь обратная гибкая — <electr.> sampled-data feedback, transient feedback
связь обратная жесткая — <electr.> continuous feedback
связь обратная многовитковая — <comput.> multiloop feedback
связь обратная отрицательная — <electr.> degeneration, negative feedback
связь обратная по частоте — < radio> frequency compression
связь обратная положительная — <comput.> regeneration
связь обратная распределенная — <opt.> distributed feedback
связь обратная с запаздыванием — <comput.> delayed feedback
связь с высоким уровнем шумов — noisy communication
связь с коммутацией пакетов сообщений — packet communication
связь типа абонент-центр — <commun.> point-to-center communication
связь типа центр-абонент — <commun.> center-to-point communication
связь через коммутатор — <commun.> point-to-point communication
смешанная обратная связь — composite feedback
телефонная связь тональной частоты — voice-frequency telephony
усилитель с непосредственной связь — direct-coupled amplifier
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10 Einzelinhaber
Einzelinhaber
sole proprietor (US);
• Einzelinhaberschaft sole proprietorship (US);
• Einzelinserat aufgeben to run an advertisement only once;
• Einzelinsertionstarif transient rate;
• Einzelinvestor individual investor;
• Einzelkalkulation unit calculation;
• Einzelkalkulationsaufschlag individual markup;
• Einzelkäufer individual purchaser;
• Einzelkaufmann sole (single, Br.) trader, sole proprietor (US);
• selbstständiger Einzelkaufmann independent retailer;
• Einzelkonto individual account;
• Einzelkonzession exclusive licence;
• Einzelkörperschaft corporation sole;
• Einzelkosten individual (itemized, specific, direct, prime, US) costs;
• Einzelkosten einer Abteilung departmental charges;
• Einzelkreditnehmer single borrower;
• Einzelkunde retail customer;
• Einzelleistung individual achievement, one-man show;
• Einzelliquidator special manager;
• Einzelliste (Produktion) sectional price-list;
• Einzellizenzkosten production-oriented licence fees;
• Einzellohn individual wage;
• Einzelmensch individual;
• Einzelmieter sole tenant;
• Einzelmietverhältnis several tenancy;
• Einzelmitglied private (individual) member, (Krankenkasse) individual subscriber;
• Einzelmitgliedschaft individual membership. -
11 непостійний
inconstant, unsteady, changeable; variable; unfixed; volatile -
12 Duddell, William du Bois
SUBJECT AREA: Electricity[br]b. 1872 Kensington, London, Englandd. 4 November 1917 London, England[br]English engineer, inventor of the first practical oscillograph.[br]After an education at the College of Stanislas, Cannes, Duddell served an apprenticeship with Davy Paxman of Colchester. Studying under Ayrton and Mather at the Central Technical College in South Kensington, he found the facilities for experimental work of exceptional value to him and remained there for some years. In 1897 Duddell produced a galvanometer which was sufficiently responsive to display an alternating-current wave-form. This instrument, with a coil carrying a mirror in the air gap of a powerful electromagnet, had a small periodic time. An oscillating mirror driven by a synchronous motor spread out the deflection on a time-scale. This development became the first commercial oscillograph and brought Duddell into prominence as a first-rate designer of special instruments. The Duddell oscillograph remained in use until after the Second World War, examples being used for recording short-circuit tests on high-power switchgear and other rapidly varying or transient phenomena. His next important work was to collaborate with Professor Marchant at Liverpool University to investigate the characteristics of the electric arc. This led to the suggestion that, coupled to a resonant circuit, the electric arc could form a generator of high-frequency currents. This arrangement was later developed by Poulson for wireless telegraphy. Duddell spent the last years of his life on government research as a member of the Admiralty Board of Inventions and Research and also of the Inventions Board of the Ministry of Munitions.[br]Principal Honours and DistinctionsCBE 1916. FRS 1907. Royal Society Hughes Medal 1912. President, Institution of Electrical Engineers 1912 and 1913.Bibliography1897, Electrician, 39:636–8 (describes his oscillograph). 5 March 1898, British patent no. 5,449 (the oscillograph).1899, with E.W.Marchant, "Experiments on alternate current arcs by aid of oscillograph", Journal of the Institution of Electrical Engineers 28: 1–107.Further ReadingV.J.Phillips, 1987, Waveforms, Bristol (a comprehensive account).1945, "50 years of scientific instrument manufacture", Engineering, 159:461.GWBiographical history of technology > Duddell, William du Bois
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13 Heaviside, Oliver
[br]b. 18 May 1850 London, Englandd. 2 February 1925 Torquay, Devon, England[br]English physicist who correctly predicted the existence of the ionosphere and its ability to reflect radio waves.[br]Brought up in poor, almost Dickensian, circumstances, at the age of 13 years Heaviside, a nephew by marriage of Sir Charles Wheatstone, went to Camden House Grammar School. There he won a medal for science, but he was forced to leave because his parents could not afford the fees. After a year of private study, he began his working life in Newcastle in 1870 as a telegraph operator for an Anglo-Dutch cable company, but he had to give up after only four years because of increasing deafness. He therefore proceeded to spend his time studying theoretical aspects of electrical transmission and communication, and moved to Devon with his parents in 1889. Because the operation of many electrical circuits involves transient phenomena, he found it necessary to develop what he called operational calculus (which was essentially a form of the Laplace transform calculus) in order to determine the response to sudden voltage and current changes. In 1893 he suggested that the distortion that occurred on long-distance telephone lines could be reduced by adding loading coils at regular intervals, thus creating a matched-transmission line. Between 1893 and 1912 he produced a series of writings on electromagnetic theory, in one of which, anticipating a conclusion of Einstein's special theory of relativity, he put forward the idea that the mass of an electric charge increases with its velocity. When it was found that despite the curvature of the earth it was possible to communicate over very great distances using radio signals in the so-called "short" wavebands, Heaviside suggested the presence of a conducting layer in the ionosphere that reflected the waves back to earth. Since a similar suggestion had been made almost at the same time by Arthur Kennelly of Harvard, this layer became known as the Kennelly-Heaviside layer.[br]Principal Honours and DistinctionsFRS 1891. Institution of Electrical Engineers Faraday Medal 1924. Honorary PhD Gottingen. Honorary Member of the American Association for the Advancement of Science.Bibliography1872. "A method for comparing electro-motive forces", English Mechanic (July).1873. Philosophical Magazine (February) (a paper on the use of the Wheatstone Bridge). 1889, Electromagnetic Waves.1892, Electrical Papers.1893–1912, Electromagnetic Theory.Further ReadingI.Catt (ed.), 1987, Oliver Heaviside, The Man, St Albans: CAM Publishing.P.J.Nahin, 1988, Oliver Heaviside, Sage in Solitude: The Life and Works of an Electrical Genius of the Victorian Age, Institute of Electrical and Electronics Engineers, New York.J.B.Hunt, The Maxwellians, Ithaca: Cornell University Press.See also: Appleton, Sir Edward VictorKF
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временный элемент набора — — [Л.Г.Суменко. Англо русский словарь по информационным технологиям. М.: ГП ЦНИИС, 2003.] Тематики информационные технологии в целом EN transient member … Справочник технического переводчика
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