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1 extend
1. transitive verb1) (stretch out) ausstrecken [Arm, Bein, Hand]; ausziehen [Leiter, Teleskop]; ausbreiten [Flügel]extend one's hand to somebody — jemandem die Hand reichen
2) (make longer) (in space) verlängern; ausdehnen [Grenze]; ausbauen [Bahnlinie, Straße]; (in time) verlängern; verlängern lassen [Leihbuch, Visum]extend the time limit — den Termin hinausschieben
3) (enlarge) ausdehnen [Einfluss, Macht]; erweitern [Wissen, Wortschatz, Bedeutung, Freundeskreis, Besitz, Geschäft]; ausbauen, vergrößern [Haus, Geschäft]4) (offer) gewähren, zuteil werden lassen [[Gast]freundschaft, Schutz, Hilfe, Kredit] (to Dat.); (accord) aussprechen [Dank, Einladung, Glückwunsch] (to Dat.); ausrichten [Gruß] (to Dat.)2. intransitive verb* * *[ik'stend]1) (to make longer or larger: He extended his vegetable garden.) ausdehnen2) (to reach or stretch: The school grounds extend as far as this fence.) sich erstrecken4) (to offer: May I extend a welcome to you all?) anbieten•- academic.ru/25901/extension">extension- extensive* * *ex·tend[ɪkˈstend, ekˈ-]I. vt1. (stretch out)▪ to \extend sth etw ausstreckento \extend one's fingers seine Finger ausstreckento \extend one's hand to sb jdm die Hand entgegenstrecken [o geh reichen]to \extend a line/rope eine Leine/ein Seil spannen2. (prolong)▪ to \extend sth credit, visa etw verlängern3. (pull out)▪ to \extend sth etw verlängern; ladder, table etw ausziehen; landing gear etw ausfahren; sofa etw ausklappen4. (expand)▪ to \extend sth etw erweitern [o vergrößern]; influence, business etw ausdehnen [o ausbauen5. (increase)▪ to \extend sth etw vergrößern [o verstärken]to \extend one's commitment seine Bemühungen verstärken, sich akk stärker engagieren6. (build)to \extend one's house sein Haus ausbauento \extend a road/track eine Straße/Fahrspur ausbauen7. (offer)▪ to \extend sth to sb jdm etw erweisen [o zuteilwerden lassen]; credit, protection jdm etw gewähren [o SCHWEIZ a. zusprechen]to \extend one's thanks to sb jdm seinen Dank aussprechento \extend a welcome to sb jdn willkommen heißen8. (strain)▪ to \extend sb jdn [bis an seine Leistungsgrenze] fordernII. vi1. (stretch) sich akk erstrecken, sich akk ausdehnen; over period of time sich akk hinziehen pej, dauernthe fields \extend into the distance die Felder dehnen sich bis in die Ferne ausrain is expected to \extend to all parts of the country by this evening bis heute Abend soll der Regen alle Landesteile erreicht habenthe last party \extended throughout the night die letzte Party dauerte die ganze Nacht2. (include) sich erstreckenhis concern doesn't \extend as far as actually doing something seine Besorgnis geht nicht so weit, dass er tatsächlich etwas unternimmt* * *[ɪk'stend]1. vt1) (= stretch out) arms ausstrecken2) (= prolong) street, line, visit, passport, holidays, deadline, lease verlängernher tender care doubtless extended his life — ihre liebevolle Pflege hat sein Leben zweifellos verlängert
3) (= enlarge) research, powers, franchise ausdehnen, erweitern; knowledge erweitern, vergrößern; influence ausbauen; scheme ausweiten; house anbauen an (+acc); property vergrößern, erweitern; limits erweitern; frontiers of a country ausdehnenin an extended sense of the term — im weiteren Sinne des Wortes
4) (= offer) (to sb jdm) help gewähren; hospitality, friendship erweisen; invitation, thanks, condolences, congratulations aussprechen5) (usu pass = make demands on) person, pupil, athlete fordern2. vi1) (wall, estate, garden) sich erstrecken, sich ausdehnen (to, as far as bis); (ladder, table) sich ausziehen lassen; (meetings etc over period of time) sich ausdehnen or hinziehena career that extended from 1974 to 1990 — eine Laufbahn, die sich von 1974 bis 1990 erstreckte
2)(= reach to)
enthusiasm which extends even to the children — Begeisterung, die sich sogar auf die Kinder überträgt* * *extend [ıkˈstend]A v/t1. (aus)dehnen, (-)weiten2. a) verlängernb) eine Leiter etc ausziehen3. eine Produktionsanlage etc vergrößern, erweitern, ausbauen:extend one’s horizons seinen Horizont erweitern;extend one’s lead SPORT seinen Vorsprung ausbauenround um)5. ausstrecken (one’s hand die Hand)7. fig fort-, weiterführen, einen Besuch, seine Macht ausdehnen (to auf akk), eine Frist, einen Pass, einen Vertrag etc verlängern, WIRTSCH auch prolongieren, ein Angebot etc aufrechterhalten:8. (to, toward[s] dat)b) seinen Dank, Glückwunsch etc aussprechen:extend an invitation to(wards) sb jemandem eine Einladung schicken, jemanden einladenc) einen Gruß entbietena) gerichtlich abschätzenb) pfändenextend o.s. sich völlig ausgeben oder verausgaben13. MIL ausschwärmen lassen14. Buchhaltung: übertragenB v/i1. sich ausdehnen, sich erstrecken, reichen ( alle:over über akk;to bis zu)b) (heraus)ragen4. MIL ausschwärmen* * *1. transitive verb1) (stretch out) ausstrecken [Arm, Bein, Hand]; ausziehen [Leiter, Teleskop]; ausbreiten [Flügel]2) (make longer) (in space) verlängern; ausdehnen [Grenze]; ausbauen [Bahnlinie, Straße]; (in time) verlängern; verlängern lassen [Leihbuch, Visum]3) (enlarge) ausdehnen [Einfluss, Macht]; erweitern [Wissen, Wortschatz, Bedeutung, Freundeskreis, Besitz, Geschäft]; ausbauen, vergrößern [Haus, Geschäft]4) (offer) gewähren, zuteil werden lassen [[Gast]freundschaft, Schutz, Hilfe, Kredit] (to Dat.); (accord) aussprechen [Dank, Einladung, Glückwunsch] (to Dat.); ausrichten [Gruß] (to Dat.)2. intransitive verb* * *v.ausdehnen v.ausfahren (Leiter, Antenne) v.ausweiten v.erweitern v.vergrößern v.verlängern v. -
2 Self
There are some philosophers who imagine we are every moment intimately conscious of what we call our SELF; that we feel its existence and its continuance in existence; and are certain, beyond the evidence of a demonstration, both of its perfect identity and simplicity....For my part, when I enter most intimately into what I call myself, I always stumble on some particular perception or other, of heat or cold, light or shade, love or hatred, pain or pleasure. I never can catch myself at any time without a perception, and never can observe anything but the perception....[S]etting aside some metaphysicians... I may venture to affirm, of the rest of mankind, that they are nothing but a bundle or collection of different perceptions, which succeed each other with an inconceivable rapidity, and are in a perpetual flux and movement. Our eyes cannot turn in their sockets without varying our perceptions. Our thought is still more variable than our sight; and all our other senses and faculties contribute to this change; nor is there any single power of the soul, which remains unalterably the same, perhaps for one moment. The mind is a kind of theatre, where several perceptions successively make their appearance, pass, re-pass, glide away, and mingle in an infinite variety of postures and situations. There is properly no simplicity in it at any one time, nor identity in different, whatever natural propensity we may have to imagine that simplicity and identity. The comparison of the theatre must not mislead us. [It is merely] the successive perceptions... that constitute the mind; nor have we the most distant notion of the place where the scenes are represented, or of the materials of which it is composed. (Hume, 1978, pp. 251-256)To find wherein personal identity consists, we must consider what person stands for; which, I think, is a thinking intelligent being that has reason and reflection and can consider itself as itself, the same thinking thing in different times and places; which it does only by that consciousness which is inseparable from thinking and, as it seems to me, essential for it-it being impossible for anyone to perceive without perceiving that he does perceive.When we see, hear, smell, taste, feel, meditate, or will anything, we know that we do so. Thus it is always as to our present sensations and perceptions; and by this everyone is to himself that which he calls self, not being considered in this case whether the same self be continued in the same or different substances. For since consciousness always accompanies thinking, and it is that which makes everyone to be what he calls self, and thereby distinguishes himself from all other thinking things, in this alone consists personal identity, i.e., the sameness of a rational being. And as far as this consciousness can be extended backwards to any past action or thought, so far reaches the identity of that person. It is the same self now it was then, and it is by the same self as this present one that now reflects on it, that action was done. (Locke, 1975, Bk. II, Chap. 27, Sec. 9-10)Historical dictionary of quotations in cognitive science > Self
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3 temperature-rise inside assembly
увеличение температуры внутри НКУ
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[Интент]Параллельные тексты EN-RU
Temperature-rise inside assemblies
An excessive temperature-rise inside assemblies represents one of the main problems which are often subject for discussion and to which users pay the most attention.
It is evident that an anomalous heating inside switchgear can jeopardize the safety of people (possible fires) and plants (malfunctioning of the apparatus).
For this reason, the Standard IEC 60439-1 gives a lot of space to the permissible temperature-rise limits in an assembly and to the methods to determine such limits either directly as type test or by analytic extrapolation.
The term type test defines the tests intended to assess the validity of a project according to the expected performances.
Such tests are usually carried out on one or more prototypes and the results of these type tests are assumed to obey to deterministic laws.
Therefore these results can be extended to all the production, provided that it complies with the design of the tested samples.
The type tests prescribed by the Standard IEC 60439-1 include:
• verification of temperature-rise limits
• verification of the dielectric properties
• verification of the short-circuit withstand strength of the main circuits
• verification of the short-circuit withstand strength of the protective circuit
• verification of the effective connection between the exposed conductive parts and the protective circuit
• verification of clearances and creepage distances
• verification of mechanical operation
• verification of the degree of protection
As said above the verification of temperature-rise limits is one of the most critical aspect for an assembly;
the Standard states the temperature-rise limits referred to an average ambient air temperature of ≤35°C which the switchgear complying with the Standard must not exceed (Table 1).
[ABB]Увеличение температуры внутри НКУ
Чрезмерное увеличение температуры внутри НКУ свидетельствует о наличии одной из основных проблем, часто являющихся предметом рассмотрения, и на которые потребители обращают наибольшее влияние.
Совершенно очевидно, что аномальный нагрев элементов внутри НКУ может создать опасность для людей (например, возникновение пожара) и для электроустановки (неправильная работа аппаратуры).
Поэтому стандарт МЭК 60439-1 уделяет большое внимание рассмотрению предельных значений температуры в НКУ и методам их определения, как путем проведения прямых испытаний, так и с помощью экстраполяции значений, полученных в результате испытаний.
Термин типовые испытания определяет испытания, целью которых является доказательство, что испытываемое устройство отвечает определенным техническим условиям.
Такие испытания обычно проводят на одном или нескольких типопредставителях, и считают, что полученные результаты являются детерминированными.
Поэтому их можно применить ко всем изделиям, конструкция которых соответствует испытанным образцам.
В перечень проверок и испытаний, проводимых на НКУ в соответствии со стандартом МЭК 60439-1, входят:
• проверка предельных значений превышения температуры;
• проверка диэлектрических свойств;
• проверка прочности при коротких замыканиях
• проверка прочности при коротких замыканиях цепи защитного заземления
• проверка прочности соединения открытых проводящих частей и цепи защитного заземления
• проверка воздушных зазоров и длин путей утечки;
• проверка механической работоспособности
• проверка степени защиты
Как сказано выше проверка предельных значений превышения температуры является одним из наиболее важных параметров НКУ.
Согласно стандарту превышение предельного значения температуры относительно средней температуры окружающего воздуха, равной 35° C, не должно превышать значений, указанных в таблице 1.
[Перевод Интент]Тематики
- НКУ (шкафы, пульты,...)
EN
Англо-русский словарь нормативно-технической терминологии > temperature-rise inside assembly
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4 brand protection communications & education plan
- план ФНД «Защита интеллектуальной собственности» по коммуникациям и образованию
план ФНД «Защита интеллектуальной собственности» по коммуникациям и образованию
План включает в себя Концепцию рекламной кампании функции, в которой указано художественное направление, идейное содержание и целевая аудитория пиар-кампании «Противодействие теневому маркетингу». План также включает в себя инструментарий, необходимый ФНД «Защита интеллектуальной собственности» в работе с общественностью (например, рекламные проспекты, тезисы выступлений, пресс-релизы и т. д.) для пресс-конференций и интервью о фактах нарушения прав интеллектуальной собственности и освещения судебных процессов, по которым решение вынесено в пользу ОКОИ. В случае необходимости, в образовательный проект могут быть включены работодатели ОКОИ.
[Департамент лингвистических услуг Оргкомитета «Сочи 2014». Глоссарий терминов]EN
brand protection communications & education plan
Plan includes a Function Creative Brief, which outlines the creative direction, message and target audience for the "Anti-Ambush" communication and public relations campaign. Plan also includes a public relations kit for Brand Protection (e.g., fact sheets, talking points, press releases, etc.) for press conferences and interviews to spotlight infringement cases and publicize those resolved in the OCOG’s favor. In case of need, the education project can be extended to OCOG employers.
[Департамент лингвистических услуг Оргкомитета «Сочи 2014». Глоссарий терминов]Тематики
EN
- brand protection communications & education plan
Англо-русский словарь нормативно-технической терминологии > brand protection communications & education plan
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5 Leonardo da Vinci
[br]b. 15 April 1452 Vinci, near Florence, Italy,d. 2 May 1519 St Cloux, near Amboise, France.[br]Italian scientist, engineer, inventor and artist.[br]Leonardo was the illegitimate son of a Florentine lawyer. His first sixteen years were spent with the lawyer's family in the rural surroundings of Vinci, which aroused in him a lifelong love of nature and an insatiable curiosity in it. He received little formal education but extended his knowledge through private reading. That gave him only a smattering of Latin, a deficiency that was to be a hindrance throughout his active life. At sixteen he was apprenticed in the studio of Andrea del Verrochio in Florence, where he received a training not only in art but in a wide variety of crafts and technical arts.In 1482 Leonardo went to Milan, where he sought and obtained employment with Ludovico Sforza, later Duke of Milan, partly to sculpt a massive equestrian statue of Ludovico but the work never progressed beyond the full-scale model stage. He did, however, complete the painting which became known as the Virgin of the Rocks and in 1497 his greatest artistic achievement, The Last Supper, commissioned jointly by Ludovico and the friars of Santa Maria della Grazie and painted on the wall of the monastery's refectory. Leonardo was responsible for the court pageants and also devised a system of irrigation to supply water to the plains of Lombardy. In 1499 the French army entered Milan and deposed Leonardo's employer. Leonardo departed and, after a brief visit to Mantua, returned to Florence, where for a time he was employed as architect and engineer to Cesare Borgia, Duke of Romagna. Around 1504 he completed another celebrated work, the Mona Lisa.In 1506 Leonardo began his second sojourn in Milan, this time in the service of King Louis XII of France, who appointed him "painter and engineer". In 1513 Leonardo left for Rome in the company of his pupil Francesco Melzi, but his time there was unproductive and he found himself out of touch with the younger artists active there, Michelangelo above all. In 1516 he accepted with relief an invitation from King François I of France to reside at the small château of St Cloux in the royal domain of Amboise. With the pension granted by François, Leonardo lived out his remaining years in tranquility at St Cloux.Leonardo's career can hardly be regarded as a success or worthy of such a towering genius. For centuries he was known only for the handful of artistic works that he managed to complete and have survived more or less intact. His main activity remained hidden until the nineteenth and twentieth centuries, during which the contents of his notebooks were gradually revealed. It became evident that Leonardo was one of the greatest scientific investigators and inventors in the history of civilization. Throughout his working life he extended a searching curiosity over an extraordinarily wide range of subjects. The notes show careful investigation of questions of mechanical and civil engineering, such as power transmission by means of pulleys and also a form of chain belting. The notebooks record many devices, such as machines for grinding and polishing lenses, a lathe operated by treadle-crank, a rolling mill with conical rollers and a spinning machine with pinion and yard divider. Leonardo made an exhaustive study of the flight of birds, with a view to designing a flying machine, which obsessed him for many years.Leonardo recorded his observations and conclusions, together with many ingenious inventions, on thousands of pages of manuscript notes, sketches and drawings. There are occasional indications that he had in mind the publication of portions of the notes in a coherent form, but he never diverted his energy into putting them in order; instead, he went on making notes. As a result, Leonardo's impact on the development of science and technology was virtually nil. Even if his notebooks had been copied and circulated, there were daunting impediments to their understanding. Leonardo was left-handed and wrote in mirror-writing: that is, in reverse from right to left. He also used his own abbreviations and no punctuation.At his death Leonardo bequeathed his entire output of notes to his friend and companion Francesco Melzi, who kept them safe until his own death in 1570. Melzi left the collection in turn to his son Orazio, whose lack of interest in the arts and sciences resulted in a sad period of dispersal which endangered their survival, but in 1636 the bulk of them, in thirteen volumes, were assembled and donated to the Ambrosian Library in Milan. These include a large volume of notes and drawings compiled from the various portions of the notebooks and is now known as the Codex Atlanticus. There they stayed, forgotten and ignored, until 1796, when Napoleon's marauding army overran Italy and art and literary works, including the thirteen volumes of Leonardo's notebooks, were pillaged and taken to Paris. After the war in 1815, the French government agreed to return them but only the Codex Atlanticus found its way back to Milan; the rest remained in Paris. The appendix to one notebook, dealing with the flight of birds, was later regarded as of sufficient importance to stand on its own. Four small collections reached Britain at various times during the seventeenth and eighteenth centuries; of these, the volume in the Royal Collection at Windsor Castle is notable for its magnificent series of anatomical drawings. Other collections include the Codex Leicester and Codex Arundel in the British Museum in London, and the Madrid Codices in Spain.Towards the end of the nineteenth century, Leonardo's true stature as scientist, engineer and inventor began to emerge, particularly with the publication of transcriptions and translations of his notebooks. The volumes in Paris appeared in 1881–97 and the Codex Atlanticus was published in Milan between 1894 and 1904.[br]Principal Honours and Distinctions"Premier peintre, architecte et mécanicien du Roi" to King François I of France, 1516.Further ReadingE.MacCurdy, 1939, The Notebooks of Leonardo da Vinci, 2 vols, London; 2nd edn, 1956, London (the most extensive selection of the notes, with an English translation).G.Vasari (trans. G.Bull), 1965, Lives of the Artists, London: Penguin, pp. 255–271.C.Gibbs-Smith, 1978, The Inventions of Leonardo da Vinci, Oxford: Phaidon. L.H.Heydenreich, Dibner and L. Reti, 1981, Leonardo the Inventor, London: Hutchinson.I.B.Hart, 1961, The World of Leonardo da Vinci, London: Macdonald.LRD / IMcN -
6 more
1. a от, и Ito have more patience than … — иметь больше терпения, чем …
2. a большийten is two more than eight — десять на два больше, чем восемь
3. a добавочный, дополнительный; ещёa very little more — ещё; совсем немного; чуть-чуть
more importantly — что ещё более важно, более того
4. adv от I5. adv больше, болееhe was more frightened than hurt — он больше испугался, чем ушибся
you thanked her, which is more than I did — вы поблагодарили её, чего я не сделал
he got no more than his due — он получил столько, сколько ему положено
he is no more a professor than I am — он такой же профессор, как я
more cannot be said — больше нечего сказать ; что ещё можно сказать
6. adv ещё; опять, снова; в добавокwhat is more — вдобавок; более того
7. adv сравнит. ст. служит для образования многосложных прилагательных и наречий болееneither more nor less than … — ни больше ни меньше, как …; не что иное, как …
the more … the more — чем больше …, тем больше
the more he has the more he wants — чем больше он имеет, тем большего он хочет
the more the better — чем больше, тем лучше
the more the merrier — чем больше, тем веселее;
she is beautiful but her sister is more so — она красива, но её сестра ещё красивее
the more so, as … — тем более, что; тем паче, что …
there was more like a hundred than fifty — там было скорее сто, чем пятьдесят
what is more, and more — и вдобавок; больше того; что ещё важно ; а кроме того
more is meant than meets the eye — это не так просто; имеется в виду больше, чем кажется на первый взгляд
Синонимический ряд:1. additional (adj.) added; additional; another; else; extra; farther; fresh; further; new; other2. increased (adj.) aggrandized; enhanced; expanded; extended; increased3. more (adj.) more; more legion; more multitudinous; more myriad; more numerous; more voluminous4. also (other) additionally; along; also; as well; besides; beyond; futhermore; in addition; item; likewise; moreover; still; too; withal; yea; yet5. better (other) better6. often (other) again and again; many a time; many times; more; more frequently; often; oftentimes (literary) -
7 bad debt expense
фин., учет = uncollectible accounts expense* * *. Generally, the cost of uncollectible accounts receivable which occurs when customers to whom a business has extended credit fail to pay. It can also refer to any debt owed you which is uncollectible. . Small Business Taxes & Management 2 . -
8 Hawthorne experiments
Gen Mgta series of studies undertaken at the Hawthorne plant of Western Electric in the United States from which Elton Mayo concluded that an approach emphasizing employee participation can improve productivity. The Hawthorne experiments began in 1924 as a study conducted by the National Research Council into the relationship between workplace lighting and employee efficiency, and was then extended to include wage incentives and rest periods. It was found that whatever variations were applied upward or downward, output rose, and this was termed the Hawthorne effect. The increased productivity was attributed to several causes, including small group size, earnings, the novelty of being part of an experiment, and the increased attention given to the employees being studied. The style of the supervisor, which was relaxed and friendly, in contrast to the then standard practice, was found to be particularly important. In a second group of employees, however, it was observed that, as the experiments progressed, output was restricted, and that whatever the incentive, the group showed a resistance to it. In 1929, and 1930, Elton Mayo visited Hawthorne. He linked supervisory style and levels of morale with productivity. High productivity resulted from an engaged supervisory style that encouraged participation. Low productivity resulted when a supervisor remained remote and retained a traditional supervisory role. The Hawthorne experiments established the importance of management style and interpersonal skills to organizational success. -
9 Cotton, William
SUBJECT AREA: Textiles[br]b. 1819 Seagrave, Leicestershire, Englandd. after 1878[br]English inventor of a power-driven flat-bed knitting machine.[br]Cotton was originally employed in Loughborough and became one of the first specialized hosiery-machine builders. After the introduction of the latch needle by Matthew Townsend in 1856, knitting frames developed rapidly. The circular frame was easier to work automatically, but attempts to apply power to the flat frame, which could produce fully fashioned work, culminated in 1863 with William Cotton's machine. In that year he invented a machine that could make a dozen or more stockings or hose simultaneously and knit fashioned garments of all kinds. The difficulty was to reduce automatically the number of stitches in the courses where the hose or garment narrowed to give it shape. Cotton had early opportunities to apply himself to the improvement of hosiery machines while employed in the patent shop of Cartwright \& Warner of Loughborough, where some of the first rotaries were made. He remained with the firm for twenty years, during which time sixty or seventy of these machines were turned out. Cotton then established a factory for the manufacture of warp fabrics, and it was here that he began to work on his ideas. He had no knowledge of the principles of engineering or drawing, so his method of making sketches and then getting his ideas roughed out involved much useless labour. After twelve years, in 1863, a patent was issued for the machine that became the basis of the Cotton's Patent type. This was a flat frame driven by rotary mechanism and remarkable for its adaptability. At first he built his machine upright, like a cottage piano, but after much thought and experimentation he conceived the idea of turning the upper part down flat so that the needles were in a vertical position instead of being horizontal, and the work was carried off horizontally instead of vertically. His first machine produced four identical pieces simultaneously, but this number was soon increased. Cotton was induced by the success of his invention to begin machine building as a separate business and thus established one of the first of a class of engineering firms that sprung up as an adjunct to the new hosiery manufacture. He employed only a dozen men and turned out six machines in the first year, entering into an agreement with Hine \& Mundella for their exclusive use. This was later extended to the firm of I. \& R.Morley. In 1878, Cotton began to build on his own account, and the business steadily increased until it employed some 200 workers and had an output of 100 machines a year.[br]Bibliography1863, British patent no. 1,901 (flat-frame knitting machine).Further ReadingF.A.Wells, 1935, The British Hosiery and Knitwear Industry: Its History and Organisation, London (based on an article in the Knitters' Circular (Feb. 1898).A brief account of the background to Cotton's invention can be found in T.K.Derry and T.I. Williams, 1960, A Short History of Technology from the Earliest Times to AD 1900, Oxford; C. Singer (ed.), 1958, A History of Technology, Vol. V, Oxford: Clarendon Press.F.Moy Thomas, 1900, I. \& R.Morley. A Record of a Hundred Years, London (mentions cotton's first machines).RLH -
10 Spätschaden
■ Körperliche Beeinträchtigung, die sich erst nach der Verletzungsbehandlung und der Wiederaufnahme der sportlichen Tätigkeit einstellt.■ Consequences of an injury which do not materialise until a certain time after the index injury and/or can be felt over an extended time span.Syn. late effect -
11 Kegel, Karl
SUBJECT AREA: Mining and extraction technology[br]b. 19 May 1876 Magdeburg, Germanyd. 5 March 1959 Freiberg, Saxony, Germany[br]German professor of mining who established the mining of lignite as a discipline in the science of mining.[br]Within the long tradition of celebrated teachers at the Mining Academy in Freiberg, Kegel can be considered as probably the last professor teaching the science of mining who was able to cover all the different disciplines. As was the case with a number of his predecessors, he was able to combine theoretical research work with the teaching of students and to support his theories with the practical experience of industry. He has apprenticed at the Mansfeld copper mines, went to the School of Mines at Eisleben (1896–8), worked as an engineer with various mining companies and thereafter became a scholar of the Berlin Mining Academy (1901–4). For twelve years he taught at the Bochum School of Mining until, in 1918, he was appointed Professor of Mining at Freiberg. There, one year later, as a new approach, he introduced lectures on brown-coal mining and mineral economics. He remained Professor at Freiberg until his first retirement in 1941, although he was active again between 1945 and 1951.In 1924 Kegel took over a department at the State Research Institute for Brown Coal in Freiberg which he extended into the Institute for Briquetting. In this field his main achievement lies in the initially questioned theory that producing briquettes from lignite is a molecular process rather than the result of bituminous factors. This perception, among others, led Rammler to produce coke from lignite in 1951. Kegel's merits result from having established all the aspects of mining and using lignite as an independent subdiscipline of mining science, based on substantial theories and an innovative understanding of applied technologies.[br]Bibliography1912, Bergmännische Wasserwirtschaft, Halle (Saale). 1931, Lehrbuch der Bergwirtschaft, Berlin.1941, Bergmännische Gebirgsmechanik, Halle (Saale). 1948, Brikettierung der Braunkohle, Halle (Saale).1953, Lehrbuch des Braunkohlentagebaus, Halle (Saale).Further ReadingE.Kroker, "Karl Kegel", Neue deutsche Biographie, Vol. XI, p. 394 (a reliable short account).Bergakademie Freiberg (ed.), 1976, Karl Kegel 1876–1959. Festschrift aus Anlaß seines100. Geburtstages, Leipzig (contains substantial biographical information).WK -
12 free space
"The space available on a hard disk for creating primary partitions and extended partions, on which logical drives can be created, formatted, and assigned drive letters." -
13 hybrid hard disk
"A hard disk that contains a small amount of solid-state nonvolatile memory which, when used as a cache, can realize significant benefits such as faster booting, extended battery life, and a more rugged PC." -
14 hybrid drive
"A hard disk that contains a small amount of solid-state nonvolatile memory which, when used as a cache, can realize significant benefits such as faster booting, extended battery life, and a more rugged PC." -
15 BAR
- электрическая шина
- штрих (символа штрихового кода)
- цилиндр высокого давления паровой турбины, выполненный без горизонтального разъёма
- топливный блок
- сборная шина
- мелководье
- кассета пресс-формы
- импульс строчной развертки
- засов
- запрещать
- долговременная маркировка
- втулка насоса
- брус (металлургия)
- барометрический
- барабан лебёдки
- бар (в геологии, геофизике)
- аллювиальное месторождение (геол.)
аллювиальное месторождение (геол.)
—
[ http://slovarionline.ru/anglo_russkiy_slovar_neftegazovoy_promyishlennosti/]Тематики
EN
бар
1. Песчаные валы вдоль берегов морей, среди них различают: подводный Б.; островной Б.; береговой Б.
2. Мощные толщи сортированных слоистых отложений, сформированных в зонах эрозионной тени или в расширениях речных долин на путях катастрофических гляциальных паводков (см. формы рельефа дилювиально-аккумулятивные).
[ Словарь геологических терминов и понятий. Томский Государственный Университет]Тематики
- геология, геофизика
Обобщающие термины
EN
брус
Физ. тело, поперечное сечение к-рого мало по сравнению с длиной. Б., работающий гл. обр. на изгиб, наз. балкой. Б. обычно являются составными элементами конструкций машин и сооружений.
[ http://metaltrade.ru/abc/a.htm]Тематики
EN
засов
Ндп. ригель
Деталь, служащая для обеспечения запирания конструкции посредством ввода в запорную планку.
[РД 25.03.001-2002]Недопустимые, нерекомендуемые
Тематики
EN
импульс строчной развертки
—
[Л.Г.Суменко. Англо-русский словарь по информационным технологиям. М.: ГП ЦНИИС, 2003.]Тематики
EN
кассета пресс-формы
кассета
Ндп. монтажная плита
Плита с отверстиями для установки в них формообразующих, направляющих и фиксирующих деталей.
[ ГОСТ 23165-78]Недопустимые, нерекомендуемые
Тематики
- пресс-формы для резинотехн. изделий
Обобщающие термины
Синонимы
EN
DE
FR
мелководье
россыпь в реке
—
[ http://slovarionline.ru/anglo_russkiy_slovar_neftegazovoy_promyishlennosti/]Тематики
Синонимы
EN
сборная шина
Шина, к которой могут быть присоединены одна или несколько распределительных шин и/или блоков ввода или вывода.
[ ГОСТ Р 51321. 1-2000 ( МЭК 60439-1-92)]
[ ГОСТ Р МЭК 61439.1-2013]
сборные шины
Система проводников, соединяемых с блоком ввода и предназначенных для присоединения к ним фазных, нулевых защитных РЕ и нулевых рабочих N проводников нескольких распределительных и групповых электрических цепей.
Примечание — Термин «шина» не определяет ее конструкцию
[ ГОСТ Р 51732-2001]
главная шина
—
[Я.Н.Лугинский, М.С.Фези-Жилинская, Ю.С.Кабиров. Англо-русский словарь по электротехнике и электроэнергетике, Москва, 1999 г.]EN
main busbar
busbar to which one or several distribution busbars and/or incoming and outgoing units can be connected
[IEC 61439-1, ed. 2.0 (2011-08)]FR
jeu de barres principal
jeu de barres auquel un ou plusieurs jeux de barres de distribution et/ou des unités d'arrivée et de départ peuvent être raccordés
[IEC 61439-1, ed. 2.0 (2011-08)]
Рис. Legrand1 - Сборная шина
2 - Распределительные шины
Рис. Schneider Electric:Main busbar - Сборная шина
Distribution busbars - Распределительные шины
A: Incoming device - А: Аппарат ввода
D: Outgoing device - D: Аппарат выводаТематики
- НКУ (шкафы, пульты,...)
EN
FR
цилиндр высокого давления паровой турбины, выполненный без горизонтального разъёма
—
[А.С.Гольдберг. Англо-русский энергетический словарь. 2006 г.]Тематики
EN
штрих (символа штрихового кода)
Темная линия в напечатанном символе штрихового кода.
[ ГОСТ 30721-2000]
[ ГОСТ Р 51294.3-99]Тематики
EN
DE
FR
04.02.27 долговременная маркировка [ permanent marking]: Изображение, полученное с помощью интрузивного или неинтрузивного маркирования, которое должно оставаться различимым, как минимум, в течение установленного срока службы изделия.
Сравнить с терминологической статьей «соединение» по ИСО/МЭК19762-11).
______________
1)Терминологическая статья 04.02.27 не связана с указанной терминологической статьей.
<2>4 Сокращения
ECI интерпретация в расширенном канале [extended channel interpretation]
DPM прямое маркирование изделий [direct part marking]
BWA коррекция ширины штриха [bar width adjustment]
BWC компенсация ширины штриха [barwidth compensation]
CPI число знаков на дюйм [characters per inch]
PCS сигнал контраста печати [print contrast signal]
ORM оптический носитель данных [optically readable medium]
FoV поле обзора [field of view]
Алфавитный указатель терминов на английском языке
(n, k)symbology
04.02.13
add-on symbol
03.02.29
alignment pattern
04.02.07
aperture
02.04.09
auto discrimination
02.04.33
auxiliary character/pattern
03.01.04
background
02.02.05
bar
02.01.05
bar code character
02.01.09
bar code density
03.02.14
barcode master
03.02.19
barcode reader
02.04.05
barcode symbol
02.01.03
bar height
02.01.16
bar-space sequence
02.01.20
barwidth
02.01.17
barwidth adjustment
03.02.21
barwidth compensation
03.02.22
barwidth gain/loss
03.02.23
barwidth increase
03.02.24
barwidth reduction
03.02.25
bearer bar
03.02.11
binary symbology
03.01.10
characters per inch
03.02.15
charge-coupled device
02.04.13
coded character set
02.01.08
column
04.02.11
compaction mode
04.02.15
composite symbol
04.02.14
contact scanner
02.04.07
continuous code
03.01.12
corner marks
03.02.20
data codeword
04.02.18
data region
04.02.17
decodability
02.02.28
decode algorithm
02.02.01
defect
02.02.22
delineator
03.02.30
densitometer
02.02.18
depth of field (1)
02.04.30
depth of field (2)
02.04.31
diffuse reflection
02.02.09
direct part marking
04.02.24
discrete code
03.01.13
dot code
04.02.05
effective aperture
02.04.10
element
02.01.14
erasure
04.02.21
error correction codeword
04.02.19
error correction level
04.02.20
even parity
03.02.08
field of view
02.04.32
film master
03.02.18
finder pattern
04.02.08
fixed beam scanner
02.04.16
fixed parity
03.02.10
fixed pattern
04.02.03
flat-bed scanner
02.04.21
gloss
02.02.13
guard pattern
03.02.04
helium neon laser
02.04.14
integrated artwork
03.02.28
intercharacter gap
03.01.08
intrusive marking
04.02.25
label printing machine
02.04.34
ladder orientation
03.02.05
laser engraver
02.04.35
latch character
02.01.24
linear bar code symbol
03.01.01
magnification factor
03.02.27
matrix symbology
04.02.04
modular symbology
03.01.11
module (1)
02.01.13
module (2)
04.02.06
modulo
03.02.03
moving beam scanner
02.04.15
multi-row symbology
04.02.09
non-intrusive marking
04.02.26
odd parity
03.02.07
omnidirectional
03.01.14
omnidirectional scanner
02.04.20
opacity
02.02.16
optically readable medium
02.01.01
optical throw
02.04.27
orientation
02.04.23
orientation pattern
02.01.22
oscillating mirror scanner
02.04.19
overhead
03.01.03
overprinting
02.04.36
pad character
04.02.22
pad codeword
04.02.23
permanent marking
04.02.27
photometer
02.02.19
picket fence orientation
03.02.06
pitch
02.04.26
pixel
02.04.37
print contrast signal
02.02.20
printability gauge
03.02.26
printability test
02.02.21
print quality
02.02.02
quiet zone
02.01.06
raster
02.04.18
raster scanner
02.04.17
reading angle
02.04.22
reading distance
02.04.29
read rate
02.04.06
redundancy
03.01.05
reference decode algorithm
02.02.26
reference threshold
02.02.27
reflectance
02.02.07
reflectance difference
02.02.11
regular reflection
02.02.08
resolution
02.01.15
row
04.02.10
scanner
02.04.04
scanning window
02.04.28
scan, noun (1)
02.04.01
scan, noun (2)
02.04.03
scan reflectance profile
02.02.17
scan, verb
02.04.02
self-checking
02.01.21
shift character
02.01.23
short read
03.02.12
show through
02.02.12
single line (beam) scanner
02.04.11
skew
02.04.25
slot reader
02.04.12
speck
02.02.24
spectral response
02.02.10
spot
02.02.25
stacked symbology
04.02.12
stop character/pattern
03.01.02
structured append
04.02.16
substitution error
03.02.01
substrate
02.02.06
symbol architecture
02.01.04
symbol aspect ratio
02.01.19
symbol character
02.01.07
symbol check character
03.02.02
symbol density
03.02.16
symbology
02.01.02
symbol width
02.01.18
tilt
02.04.24
transmittance (l)
02.02.14
transmittance (2)
02.02.15
truncation
03.02.13
two-dimensional symbol (1)
04.02.01
two-dimensional symbol (2)
04.02.02
two-width symbology
03.01.09
variable parity encodation
03.02.09
verification
02.02.03
verifier
02.02.04
vertical redundancy
03.01.06
void
02.02.23
wand
02.04.08
wide: narrow ratio
03.01.07
X dimension
02.01.10
Y dimension
02.01.11
Z dimension
02.01.12
zero-suppression
03.02.17
<2>Приложение ДА1)
______________
1)
Источник: ГОСТ Р ИСО/МЭК 19762-2-2011: Информационные технологии. Технологии автоматической идентификации и сбора данных (АИСД). Гармонизированный словарь. Часть 2. Оптические носители данных (ОНД) оригинал документа
Англо-русский словарь нормативно-технической терминологии > BAR
-
16 non-renewable resource
невозобновляемый ресурс
—
[ http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]EN
non-renewable resource
A natural resource which, in terms of human time scales, is contained within the Earth in a fixed quantity and therefore can be used once only in the foreseeable future (although it may be recycled after its first use). This includes the fossil fuels and is extended to include mineral resources and sometimes ground water, although water and many minerals are renewed eventually. (Source: ALL)
[http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]Тематики
EN
DE
FR
Англо-русский словарь нормативно-технической терминологии > non-renewable resource
См. также в других словарях:
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