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1 partial bibliography
English-Russian big polytechnic dictionary > partial bibliography
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2 partial bibliography
1) Полиграфия: выборочная библиография (напр. отражающая только журналы, или только книги, или только статьи)2) Патенты: выборочная библиография -
3 partial bibliography
выборочная библиография (напр. отражающая только журналы, или только книги, или только статьи)Англо-русский словарь по полиграфии и издательскому делу > partial bibliography
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4 partial bibliography
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5 partial bibliography
English-Russian library and information terminology dictionary > partial bibliography
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6 partial bibliography
Англо-русский словарь по исследованиям и ноу-хау > partial bibliography
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7 bibliography
1. библиография2. библиографический указатель3. библиографоведениеbibliography to order — библиография литературы, рассылаемой по заказу
bibliography of bibliographies — библиография второй степени, библиография библиографических списков
bibliography of persons — персональная библиография, персоналий
author bibliography — персональная библиография, персоналий
chapter bibliography — библиография в конце глав, внутрикнижная библиография
demand bibliography — библиография литературы, рассылаемой по запросу
individual bibliography — персональная библиография, персоналий
local bibliography — местная библиография; краеведческая библиография
national bibliography — национальная библиография; государственная библиография
primary bibliography — библиография первой степени; первоначальная библиография
regional bibliography — местная библиография; краеведческая библиография
4. персональная библиография, персоналий5. специальная библиография6. библиография в конце глав, внутрикнижная библиография7. библиография по узкой теме8. отраслевая книготорговая библиография9. книгоиздательский или книготорговый каталог -
8 bibliography
1) библиография2) библиографический указатель3) библиографоведениеАнгло-русский словарь по полиграфии и издательскому делу > bibliography
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9 bibliography
- advertising bibliography
- annotated patent bibliography
- composite bibliography
- comprehensive bibliography
- current patent bibliography
- partial bibliography
- recommendatory bibliography
- retrospective bibliography
- sectional bibliography
- selected bibliography
- specialized bibliography
- subject bibliography
- suggestive bibliography
- thematic bibliography
- topical bibliography -
10 выборочная библиография
partial bibliography, selected bibliographyРусско-английский словарь по патентам и товарным знакам > выборочная библиография
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11 выборочная библиография
1) Polygraphy: partial bibliography (напр. отражающая только журналы, или только книги, или только статьи), selected bibliography, selective bibliography2) Patents: partial bibliographyУниверсальный русско-английский словарь > выборочная библиография
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12 columna vertebral
f.spinal column, rachis, spine, backbone.* * *(de un cuerpo) vertebral column, spinal column 2 (de un sistema) backbone* * ** * *(Anat) spine, spinal o vertebral column; ( de sistema) backbone* * *(n.) = backbone, spinal cord, vertebral column, spineEx. Since 1950 the backbone of British current bibliographic control has been British national bibliography.Ex. Spinal cord injury (SCI) is a damage done to the spinal cord due to an accident or a fall, which may result in partial or complete paralysis.Ex. Radiography and computer tomography scanning were performed, demonstrating malformation of the vertebral column.Ex. A bullet had passed through her cheek and nose and lodged in the back of her head at the base of her spine.* * *(Anat) spine, spinal o vertebral column; ( de sistema) backbone* * *la columna vertebral(n.) = spinal column, theEx: The five vertebrae in the lumbar region of the back are the largest and strongest in the spinal column.
(n.) = backbone, spinal cord, vertebral column, spineEx: Since 1950 the backbone of British current bibliographic control has been British national bibliography.
Ex: Spinal cord injury (SCI) is a damage done to the spinal cord due to an accident or a fall, which may result in partial or complete paralysis.Ex: Radiography and computer tomography scanning were performed, demonstrating malformation of the vertebral column.Ex: A bullet had passed through her cheek and nose and lodged in the back of her head at the base of her spine.* * *ANAT spinal column -
13 espina dorsal
f.spinal column.* * *spinal column, spine, backbone* * *spine, backbone* * *(n.) = backbone, backbone, spinal cord, spineEx. Since 1950 the backbone of British current bibliographic control has been British national bibliography.Ex. A backbone is a high-speed line or series of connections that forms a major pathway within a network.Ex. Spinal cord injury (SCI) is a damage done to the spinal cord due to an accident or a fall, which may result in partial or complete paralysis.Ex. A bullet had passed through her cheek and nose and lodged in the back of her head at the base of her spine.* * *spine, backbone* * *la espina dorsal(n.) = spinal column, theEx: The five vertebrae in the lumbar region of the back are the largest and strongest in the spinal column.
(n.) = backbone, backbone, spinal cord, spineEx: Since 1950 the backbone of British current bibliographic control has been British national bibliography.
Ex: A backbone is a high-speed line or series of connections that forms a major pathway within a network.Ex: Spinal cord injury (SCI) is a damage done to the spinal cord due to an accident or a fall, which may result in partial or complete paralysis.Ex: A bullet had passed through her cheek and nose and lodged in the back of her head at the base of her spine.* * *spine, backbone -
14 ordinario
adj.1 ordinary, everyday, common, usual.2 ordinary, common, gross, vulgar.3 third-rate, low-quality, average, low-grade.m.1 uncouth person, common person.2 ordinary.* * *► adjetivo1 (corriente) ordinary, common2 (grosero) vulgar, common\de ordinario usually* * *(f. - ordinaria)adj.1) ordinary2) common* * *1. ADJ1) (=normal) ordinary2) (=vulgar) [persona] common; [comportamiento, modales] coarse2. SM1) (Rel) ordinary2) † (=gastos) daily household expenses pl3) † (=recadero) carrier, delivery man* * *I- ria adjetivo1) ( poco refinado) vulgar, common (pej); ( grosero) rude, bad-mannered; ( en el hablar) vulgar, coarse2) ( de mala calidad) poor o bad quality3) ( no especial) ordinarycorreo ordinario — regular (AmE) o (BrE) normal delivery
4)IIde ordinario — usually, normally
- ria masculino, femenino ( persona - poco refinada) vulgar o (pej) common person; (- grosera) rude o bad-mannered person* * *= run-of-the-mill, plebeian [plebian], vulgar, uncouth, tasteless, naff.Ex. Guides are almost always worth thinking of as the first type of bibliography to search when it is a quick check of run-of-the-mill bibliographical facts which is required.Ex. I don't feel partial either way but if I were a public librarian I think I would take exception to the idea that there was some kind of common plebeian form which I could use.Ex. This paper is a somewhat whimsical glance backwards, recalling 6 vulgar American parodies of 7 enduring songs.Ex. All the writers chosen characterized eastern Europe throughout the 18th century as uncouth and backward.Ex. Of the hundreds of figurines currently on the market, here are the most bizarrely tasteless.Ex. Elton then started to metamorphose from 'sensitive guy' singer into someone famous for wearing naff sunglasses and dressing up as a duck.----* acciones ordinarias = common stock.* hacer ordinario = coarsen.* * *I- ria adjetivo1) ( poco refinado) vulgar, common (pej); ( grosero) rude, bad-mannered; ( en el hablar) vulgar, coarse2) ( de mala calidad) poor o bad quality3) ( no especial) ordinarycorreo ordinario — regular (AmE) o (BrE) normal delivery
4)IIde ordinario — usually, normally
- ria masculino, femenino ( persona - poco refinada) vulgar o (pej) common person; (- grosera) rude o bad-mannered person* * *= run-of-the-mill, plebeian [plebian], vulgar, uncouth, tasteless, naff.Ex: Guides are almost always worth thinking of as the first type of bibliography to search when it is a quick check of run-of-the-mill bibliographical facts which is required.
Ex: I don't feel partial either way but if I were a public librarian I think I would take exception to the idea that there was some kind of common plebeian form which I could use.Ex: This paper is a somewhat whimsical glance backwards, recalling 6 vulgar American parodies of 7 enduring songs.Ex: All the writers chosen characterized eastern Europe throughout the 18th century as uncouth and backward.Ex: Of the hundreds of figurines currently on the market, here are the most bizarrely tasteless.Ex: Elton then started to metamorphose from 'sensitive guy' singer into someone famous for wearing naff sunglasses and dressing up as a duck.* acciones ordinarias = common stock.* hacer ordinario = coarsen.* * *A (poco refinado) vulgar, common ( pej); (grosero) rude, bad-mannered, uncouth; (en la manera de hablar) vulgar, coarseB (de mala calidad) poor o bad qualityuna tela ordinaria a poor-quality materialun vino ordinario a very average wineC (no especial) ordinaryserán sometidos a juicio ordinario they will be tried in a civil courtDde ordinario usually, normallyde ordinario está cerrado a estas horas it's usually o normally closed at this timehay menos gente que de ordinario there are fewer people than usual o normalmasculine, feminine* * *
ordinario◊ - ria adjetivo
1 ( poco refinado) vulgar, common (pej);
( grosero) rude, bad-mannered;
( en el hablar) vulgar, coarse
2 ( de mala calidad) poor o bad quality
3 ( no especial) ordinary;◊ correo ordinario regular (AmE) o (BrE) normal delivery
4
hay menos gente que de ordinario there are fewer people than usual o normal
■ sustantivo masculino, femenino ( persona — poco refinada) vulgar o (pej) common person;
(— grosera) rude o bad-mannered person
ordinario,-a
I adjetivo
1 (habitual) ordinary, common, usual
2 (mediocre) (material, tejido) poor quality
(película, café) average
3 (basto, grosero) vulgar, common: contó un chiste bastante ordinario, he told a joke that was quite gross
II sustantivo masculino y femenino common person
' ordinario' also found in these entries:
Spanish:
común
- ordinaria
- chusco
English:
coarse
- common
- crude
- naff
- vulgar
- cheap
- foul
* * *ordinario, -a♦ adj1. [común] ordinary, usual;están más callados que de ordinario they're quieter than usual;de ordinario la veo todos los días I usually o normally see her every day2. [vulgar] coarse, vulgar3. [no selecto] unexceptional;[de poca calidad] poor-quality, cheap4.tribunal ordinario court of first instance♦ nm,fcommon o coarse person;es un ordinario he's terribly coarse o vulgar♦ nmRel Ordinary* * *adj1 ordinary;de ordinario usually, ordinarily2 despvulgar* * *1) : ordinary2) : coarse, common, vulgar3)de ordinario : usually* * *ordinario adj1. (vulgar) vulgar / common2. (corriente) ordinary / normal -
15 cumulative
a накопленный, совокупный; кумулятивныйcumulative preference shares — кумулятивные привилегированные акции, акции с накопляющимся гарантированным дивидендом
cumulative vote — кумулятивный вотум, множественный голос
cumulative error — накопленная ошибка; суммарная ошибка
cumulative data — накопленные данные; суммарные данные
Синонимический ряд:1. accumulative (adj.) accumulative; additory; attained; chain; gathered; increasing; secured; summative2. additive (adj.) additive; aggregate; collective; total3. intensifying (adj.) advancing; heightening; intensifying; snowballingАнтонимический ряд: -
16 Barsanti, Eugenio
SUBJECT AREA: Steam and internal combustion engines[br]b. 1821 Italyd. 1864 Liège, Belgium[br]Italian co-inventor of the internal combustion engine; lecturer in mechanics and hydraulics.[br]A trained scientist and engineer, Barsanti became acquainted with a distinguished engineer, Felice Matteucci, in 1851. Their combined talents enabled them to produce a number of so-called free-piston atmospheric engines from 1854 onwards. Using a principle demonstrated by the Swiss engineer Isaac de Rivaz in 1827, the troublesome explosive shocks encountered by other pioneers were avoided. A piston attached to a long toothed rack was propelled from beneath by the expansion of burning gas and allowed unrestricted movement. A resulting partial vacuum enabled atmospheric pressure to return the piston and produce the working stroke. Electric ignition was a feature of all the Italian engines.With many successful applications, a company was formed in 1860. A 20 hp (15 kW) engine stimulated much interest. Attempts by John Cockerill of Belgium to mass-produce small power units of up to 4 hp (3 kW) came to an abrupt end; during the negotiations Barsanti contracted typhoid fever and later died. The project was abandoned, but the working principle of the Italian engine was used successfully in the Otto-Langen engine of 1867.[br]Bibliography13 May 1854, British Provisional Patent no. 1,072 (the Barsanti and Matteucci engine).12 June 1857, British patent no. 1,655 (contained many notable improvements to the design).Further ReadingThe Engineer (1858) 5:73–4 (for an account of the Italian engine).Vincenzo Vannacci, 1955, L'invenzione del motore a scoppio realizzota dai toscani Barsanti e Matteucci 1854–1954, Florence.KAB -
17 Brown, Samuel
SUBJECT AREA: Steam and internal combustion engines[br]b. unknownd. 1849 England[br]English cooper, inventor of a gas vacuum engine.[br]Between the years 1823 and 1833, Brown achieved a number of a firsts as a pioneer of internal-combustion engines. In 1824 he built a full-scale working model of a pumping engine; in 1826, a vehicle fitted with a gas vacuum engine ascended Shooters Hill in Kent; and in 1827 he conducted trials of a motor-driven boat on the Thames that were witnessed by Lords of the Admiralty. The principle of Brown's engine had been demonstrated by Cecil in 1820. A burning gas flame was extinguished within a closed cylinder, creating a partial vacuum; atmospheric pressure was then utilized to produce the working stroke. By 1832 a number of Brown's engines in use for pumping water were reported, the most notable being at Croydon Canal. However, high fuel consumption and running costs prevented a wide acceptance of Brown's engines, and a company formed in 1825 was dissolved only two years later. Brown continued alone with his work until his death.[br]Bibliography1823, British patent no. 4,874 (gas vacuum engine).1826, British patent no. 5,350 (improved gas vacuum engine).1846, British patent no. 11,076, "Improvements in Gas Engines and in Propelling Carriages and Vessels" (no specification was enrolled).Further ReadingVarious discussions of Brown's engines can be found in Mechanics Magazine (1824) 2:360, 385; (1825) 3:6; (1825) 4:19, 309; (1826) 5:145; (1826) 6:79; (1827) 7:82–134; (1832) 17:273.The Engineer 182:214.A.K.Bruce, Samuel Brown and the Gas Engine.Dugald Clerk, 1895, The Gas and Oil Engine, 6th edn, London, pp. 2–3.KAB -
18 Carnot, Nicolas Léonard Sadi
SUBJECT AREA: Steam and internal combustion engines[br]b. 1 June 1796 Paris, Franced. 24 August 1831 Paris, France[br]French laid the foundations for modern thermodynamics through his book Réflexions sur la puissance motrice du feu when he stated that the efficiency of an engine depended on the working substance and the temperature drop between the incoming and outgoing steam.[br]Sadi was the eldest son of Lazare Carnot, who was prominent as one of Napoleon's military and civil advisers. Sadi was born in the Palais du Petit Luxembourg and grew up during the Napoleonic wars. He was tutored by his father until in 1812, at the minimum age of 16, he entered the Ecole Polytechnique to study stress analysis, mechanics, descriptive geometry and chemistry. He organized the students to fight against the allies at Vincennes in 1814. He left the Polytechnique that October and went to the Ecole du Génie at Metz as a student second lieutenant. While there, he wrote several scientific papers, but on the Restoration in 1815 he was regarded with suspicion because of the support his father had given Napoleon. In 1816, on completion of his studies, Sadi became a second lieutenant in the Metz engineering regiment and spent his time in garrison duty, drawing up plans of fortifications. He seized the chance to escape from this dull routine in 1819 through an appointment to the army general staff corps in Paris, where he took leave of absence on half pay and began further courses of study at the Sorbonne, Collège de France, Ecole des Mines and the Conservatoire des Arts et Métiers. He was inter-ested in industrial development, political economy, tax reform and the fine arts.It was not until 1821 that he began to concentrate on the steam-engine, and he soon proposed his early form of the Carnot cycle. He sought to find a general solution to cover all types of steam-engine, and reduced their operation to three basic stages: an isothermal expansion as the steam entered the cylinder; an adiabatic expansion; and an isothermal compression in the condenser. In 1824 he published his Réflexions sur la puissance motrice du feu, which was well received at the time but quickly forgotten. In it he accepted the caloric theory of heat but pointed out the impossibility of perpetual motion. His main contribution to a correct understanding of a heat engine, however, lay in his suggestion that power can be produced only where there exists a temperature difference due "not to an actual consumption of caloric but to its transportation from a warm body to a cold body". He used the analogy of a water-wheel with the water falling around its circumference. He proposed the true Carnot cycle with the addition of a final adiabatic compression in which motive power was con sumed to heat the gas to its original incoming temperature and so closed the cycle. He realized the importance of beginning with the temperature of the fire and not the steam in the boiler. These ideas were not taken up in the study of thermodynartiics until after Sadi's death when B.P.E.Clapeyron discovered his book in 1834.In 1824 Sadi was recalled to military service as a staff captain, but he resigned in 1828 to devote his time to physics and economics. He continued his work on steam-engines and began to develop a kinetic theory of heat. In 1831 he was investigating the physical properties of gases and vapours, especially the relationship between temperature and pressure. In June 1832 he contracted scarlet fever, which was followed by "brain fever". He made a partial recovery, but that August he fell victim to a cholera epidemic to which he quickly succumbed.[br]Bibliography1824, Réflexions sur la puissance motrice du feu; pub. 1960, trans. R.H.Thurston, New York: Dover Publications; pub. 1978, trans. Robert Fox, Paris (full biographical accounts are provided in the introductions of the translated editions).Further ReadingDictionary of Scientific Biography, 1971, Vol. III, New York: C.Scribner's Sons. T.I.Williams (ed.), 1969, A Biographical Dictionary of Scientists, London: A. \& C.Black.Chambers Concise Dictionary of Scientists, 1989, Cambridge.D.S.L.Cardwell, 1971, from Watt to Clausius. The Rise of Thermodynamics in the Early Industrial Age, London: Heinemann (discusses Carnot's theories of heat).RLHBiographical history of technology > Carnot, Nicolas Léonard Sadi
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19 Graham, George
SUBJECT AREA: Horology[br]b. c.1674 Cumberland, Englandd. 16 November 1751 London, England[br]English watch-and clockmaker who invented the cylinder escapement for watches, the first successful dead-beat escapement for clocks and the mercury compensation pendulum.[br]Graham's father died soon after his birth, so he was raised by his brother. In 1688 he was apprenticed to the London clockmaker Henry Aske, and in 1695 he gained his freedom. He was employed as a journeyman by Tompion in 1696 and later married his niece. In 1711 he formed a partnership with Tompion and effectively ran the business in Tompion's declining years; he took over the business after Tompion died in 1713. In addition to his horological interests he also made scientific instruments, specializing in those for astronomical use. As a person, he was well respected and appears to have lived up to the epithet "Honest George Graham". He befriended John Harrison when he first went to London and lent him money to further his researches at a time when they might have conflicted with his own interests.The two common forms of escapement in use in Graham's time, the anchor escapement for clocks and the verge escapement for watches, shared the same weakness: they interfered severely with the free oscillation of the pendulum and the balance, and thus adversely affected the timekeeping. Tompion's two frictional rest escapements, the dead-beat for clocks and the horizontal for watches, had provided a partial solution by eliminating recoil (the momentary reversal of the motion of the timepiece), but they had not been successful in practice. Around 1720 Graham produced his own much improved version of the dead-beat escapement which became a standard feature of regulator clocks, at least in Britain, until its supremacy was challenged at the end of the nineteenth century by the superior accuracy of the Riefler clock. Another feature of the regulator clock owed to Graham was the mercury compensation pendulum, which he invented in 1722 and published four years later. The bob of this pendulum contained mercury, the surface of which rose or fell with changes in temperature, compensating for the concomitant variation in the length of the pendulum rod. Graham devised his mercury pendulum after he had failed to achieve compensation by means of the difference in expansion between various metals. He then turned his attention to improving Tompion's horizontal escapement, and by 1725 the cylinder escapement existed in what was virtually its final form. From the following year he fitted this escapement to all his watches, and it was also used extensively by London makers for their precision watches. It proved to be somewhat lacking in durability, but this problem was overcome later in the century by using a ruby cylinder, notably by Abraham Louis Breguet. It was revived, in a cheaper form, by the Swiss and the French in the nineteenth century and was produced in vast quantities.[br]Principal Honours and DistinctionsFRS 1720. Master of the Clockmakers' Company 1722.BibliographyGraham contributed many papers to the Philosophical Transactions of the Royal Society, in particular "A contrivance to avoid the irregularities in a clock's motion occasion'd by the action of heat and cold upon the rod of the pendulum" (1726) 34:40–4.Further ReadingBritten's Watch \& Clock Maker's Handbook Dictionary and Guide, 1978, rev. Richard Good, 16th edn, London, pp. 81, 84, 232 (for a technical description of the dead-beat and cylinder escapements and the mercury compensation pendulum).A.J.Turner, 1972, "The introduction of the dead-beat escapement: a new document", Antiquarian Horology 8:71.E.A.Battison, 1972, biography, Biographical Dictionary of Science, ed. C.C.Gillespie, Vol. V, New York, 490–2 (contains a résumé of Graham's non-horological activities).DV -
20 Phillips, Edouard
SUBJECT AREA: Mechanical, pneumatic and hydraulic engineering[br]b. 21 May 1821 Paris, Franced. 14 December 1889 Pouligny-Saint-Martin, France[br]French engineer and mathematician who achieved isochronous oscillations of a balance by deriving the correct shape for the balance spring.[br]Phillips was educated in Paris, at the Ecole Polytechnic and the Ecole des Mines. In 1849 he was awarded a doctorate in mathematical sciences by the University of Paris. He had a varied career in industry, academic and government institutions, rising to be Inspector- General of Mines in 1882.It was well known that the balance of a watch or chronometer fitted with a simple spiral or helical spring was not isochronous, i.e. the period of the oscillation was not entirely independent of the amplitude. Watch-and chronometer-makers, notably Breguet and Arnold, had devised empirical solutions to the problem by altering the curvature of the end of the balance spring. In 1858 Phillips was encouraged to tackle the problem mathematically, and two years later he published a complete solution for the helical balance spring and a partial solution for the more complex spiral spring. Eleven years later he was able to achieve a complete solution for the spiral spring by altering the curvature of both ends of the spring. Phillips published a series of typical curves that the watch-or chronometer-maker could use to shape the ends of the balance spring.[br]Principal Honours and DistinctionsAcadémie des Sciences 1868. Chairman, Jury on Mechanics, Universal Exhibition 1889.Bibliography1861, "Mémoire sur l'application de la Théorie du Spiral Réglant", Annales des Mines 20:1–107.1878, Comptes Rendus 86:26–31.An English translation (by J.D.Weaver) of both the above papers was published by the Antiquarian Horological Society in 1978 (Monograph No. 15).Further ReadingJ.D.Weaver, 1989, "Edouard Phillips: a centenary appreciation", Horological Journal 132: 205–6 (a good short account).F.J.Britten, 1978, Britten's Watch and Clock Maker's Handbook, 16th edn, rev. R Good (a description of the practical applications of the balance spring).DV
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