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1 эксперимент
осуществлять / проводить эксперименты — to conduct / to carry out experiments
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2 совместный
1. conjoint2. consolidated3. mutual4. united5. commonобщий, совместный поверенный — common agent
принцип «совместной службы» — common employment
6. concurrent7. shared8. cooperative9. co-operative10. collateral11. joint-development12. joint; combined; coeducation; educationСинонимический ряд:общий (прил.) коллективный; общийАнтонимический ряд: -
3 Holden, Sir Isaac
SUBJECT AREA: Textiles[br]b. 7 May 1807 Hurlet, between Paisley and Glasgow, Scotlandd. 13 August 1897[br]British developer of the wool-combing machine.[br]Isaac Holden's father, who had the same name, had been a farmer and lead miner at Alston in Cumbria before moving to work in a coal-mine near Glasgow. After a short period at Kilbarchan grammar school, the younger Isaac was engaged first as a drawboy to two weavers and then, after the family had moved to Johnstone, Scotland, worked in a cotton-spinning mill while attending night school to improve his education. He was able to learn Latin and bookkeeping, but when he was about 15 he was apprenticed to an uncle as a shawl-weaver. This proved to be too much for his strength so he returned to scholastic studies and became Assistant to an able teacher, John Kennedy, who lectured on physics, chemistry and history, which he also taught to his colleague. The elder Isaac died in 1826 and the younger had to provide for his mother and younger brother, but in 1828, at the age of 21, he moved to a teaching post in Leeds. He filled similar positions in Huddersfield and Reading, where in October 1829 he invented and demonstrated the lucifer match but did not seek to exploit it. In 1830 he returned because of ill health to his mother in Scotland, where he began to teach again. However, he was recommended as a bookkeeper to William Townend, member of the firm of Townend Brothers, Cullingworth, near Bingley, Yorkshire. Holden moved there in November 1830 and was soon involved in running the mill, eventually becoming a partner.In 1833 Holden urged Messrs Townend to introduce seven wool-combing machines of Collier's designs, but they were found to be very imperfect and brought only trouble and loss. In 1836 Holden began experimenting on the machines until they showed reasonable success. He decided to concentrate entirely on developing the combing machine and in 1846 moved to Bradford to form an alliance with Samuel Lister. A joint patent in 1847 covered improvements to the Collier combing machine. The "square motion" imitated the action of the hand-comber more closely and was patented in 1856. Five more patents followed in 1857 and others from 1858 to 1862. Holden recommended that the machines should be introduced into France, where they would be more valuable for the merino trade. This venture was begun in 1848 in the joint partnership of Lister \& Holden, with equal shares of profits. Holden established a mill at Saint-Denis, first with Donisthorpe machines and then with his own "square motion" type. Other mills were founded at Rheims and at Croix, near Roubaix. In 1858 Lister decided to retire from the French concerns and sold his share to Holden. Soon after this, Holden decided to remodel all their machinery for washing and carding the gill machines as well as perfecting the square comb. Four years of excessive application followed, during which time £20,000 was spent in experiments in a small mill at Bradford. The result fully justified the expenditure and the Alston Works was built in Bradford.Holden was a Liberal and from 1865 to 1868 he represented Knaresborough in Parliament. Later he became the Member of Parliament for the Northern Division of the Riding, Yorkshire, and then for the town of Keighley after the constituencies had been altered. He was liberal in his support of religious, charitable and political objectives. His house at Oakworth, near Keighley, must have been one of the earliest to have been lit by electricity.[br]Principal Honours and DistinctionsBaronet 1893.Bibliography1847, with Samuel Lister, British patent no. 11,896 (improved Collier combing machine). 1856. British patent no. 1,058 ("square motion" combing machine).1857. British patent no. 278 1857, British patent no. 279 1857, British patent no. 280 1857, British patent no. 281 1857, British patent no. 3,177 1858, British patent no. 597 1859, British patent no. 52 1860, British patent no. 810 1862, British patent no. 1,890 1862, British patent no. 3,394Further ReadingJ.Hogg (ed.), c.1888, Fortunes Made in Business, London (provides an account of Holden's life).Obituary, 1897, Engineer 84.Obituary, 1897, Engineering 64.E.M.Sigsworth, 1973, "Sir Isaac Holden, Bt: the first comber in Europe", in N.B.Harte and K.G.Ponting (eds), Textile History and Economic History, Essays in Honour ofMiss Julia de Lacy Mann, Manchester.W.English, 1969, The Textile Industry, London (provides a good explanation of the square motion combing machine).RLH -
4 design
dɪˈzaɪn
1. сущ.
1) замысел, план He has ambitious designs for his son. ≈ Он строит амбициозные планы, касающиеся сына. more by accident than design ≈ скорее случайно, чем по плану Syn: plan
1., project
1.
2) намерение, цель Happiness is the natural design of all the world. ≈ Счастье - естественная цель всех людей. by design Syn: plan
1., intention
3) замысел (тайно вынашиваемый план) ;
мн. умысел, интрига (on, against) sinister design ≈ коварные планы He has designs on the money. ≈ Он вынашивает нехорошие планы относительно денег. Syn: plot II
1.
4) чертеж, эскиз, набросок;
рисунок, узор Syn: delineation
5) модель, шаблон;
лежащая в основе схема;
композиция the general design of the epic ≈ общая композиция эпоса Syn: pattern
6) дизайн school of design ≈ школа дизайна
2. гл.
1) а) задумывать, придумывать, разрабатывать;
замышлять The family designed the house for their own needs. ≈ Семья проектировала дом специально для своих нужд и удобств. The mat has been designed specially for the children's room. ≈ Ковер был придуман специально для детской. He designed the perfect crime. ≈ Он замыслил идеальное преступление. Syn: plan
2., contrive, devise
2. б) намереваться, собираться (сделать что-л.) She designed to excel in her studies. ≈ Она намерена превзойти всех в учебе. Syn: intend, purpose
2. в) намереваться отправиться( for - куда-л.) The new Lord Lieutenant had at first designed for Munster. ≈ Новый лорд-наместник намеревался отправиться сначала в Манстер.
2) предназначать a book designed primarily as a college textbook ≈ книга, предназначенная преимущественно в качестве учебника для колледжей Syn: intend, destine
3) проектировать;
конструировать to design a building ≈ спроектировать здание This man designs dresses for the Queen. ≈ Этот человек придумывает туалеты для Королевы.
4) делать эскизы, наброски, создавать узоры и т. п. Syn: sketch, delineate, draw
2. замысел;
план - far-reaching *s далеко идущие замыслы - to have a * for /of/ an insurrection планировать восстание - to frustrate smb.'s *s сорвать чьи-л. замыслы /планы/ часто pl (злой) умысел - criminal * преступный замысел - to harbour *s вынашивать( коварные) замыслы - to have *s on /against/ smb. вынашивать коварные замыслы против кого-л. - to have *s on smb.'s life покушаться на чью-л. жизнь (религия) божье провидение, божий промыс(е) л цель, намерение - stern * твердое намерение - the *s of France намерения Франции - with this * с этой целью - with (a) * с намерением, с целью - without * без всякого намерения - by * намеренно;
преднамеренно, предумышленно - it was done by * это было сделано намеренно - my * was to go to London я собирался поехать в Лондон (творческий) замысел;
план, проект - the composer's * замысел композитора - conceptual * эскизный проект планирование - * of experiments планирование экспериментов (компьютерное) проектирование;
конструирование - computer * проектирование или конструирование вычислительных машин - * engineer( инженер-) конструктор - on-line * оперативное проектирование( в режиме взаимодействия человека с машиной) чертеж, эскиз;
конструкция;
проект;
расчет - antiseismic * антисейсмическая конструкция - * office конструкторское бюро - * drawing рабочий чертеж - * conditions исходные условия расчета - * load расчетная нагрузка( корабля, самолета) - * for a building чертеж здания рисунок, узор - * of flowers узор из цветов - (of) poor * плохо выполненный, бедный, бедного рисунка - (of) fine * прекрасно выполненный - arts of * изобразительные искусства - school of * школа изобразительных искусств, художественная школа модель - our latest * наша последняя модель - car of the latest * последняя модель автомобиля композиция - the picture lacks * в картине есть композиционные недостатки искусство композиции дизайн;
внешний вид, исполнение - industrial * промышленная эстетика - in marketing an article * is as important as construction для коммерческого успеха товара дизайн имеет такое же значение, как конструкция произведение искусства замышлять;
намереваться;
планировать предназначать - to * the room as /to be/ a study отвести комнату под кабинет - the books are *ed for the German reader книги предназначаются для /рассчитаны на / немецкого читателя составлять план, схему;
планировать, проектировать, конструировать - to * the construction of the docks проектировать строительство доков вынашивать замысел;
задумать - to * a book вынашивать замысел книги чертить;
вычерчивать схему заниматься проектированием, проектировать;
быть проектировщиком, конструктором - to * a building создать архитектурный проект здания создавать узор, рисунок, фасон и т. д. - to * a carpet создать узор для ковра - to * a dress придумать фасон платья исполнять, выполнять - the picture is superbly *ed картина выполнена великолепно - the new model is *ed much better в новом исполнении модель сильно выигрывает (книжное) собираться поехать - to * for France собираться во Францию architectural ~ вчт. проектирование архитектуры augmented ~ вчт. расширенный план block ~ вчт. блочная конструкция bottom-up ~ вчт. восходящее проектирование ~ намерение, цель;
by design намеренно, преднамеренно conceptual ~ вчт. концептуальное проектирование copyright ~ промышленный образец с авторским правом database ~ вчт. проектирование базы данных design дизайн ~ задумывать, замышлять, намереваться, предполагать;
we did not design this result мы не ожидали такого результата;
we designed for his good мы делали все для его блага ~ задумывать ~ замысел, план ~ замысел ~ замышлять ~ исполнять ~ композиция (картины и т. п.) ~ композиция ~ конструировать ~ конструкция ~ модель ~ намереваться ~ намерение, цель;
by design намеренно, преднамеренно ~ намерение ~ образец ~ план ~ планировать ~ предназначать;
this room is designed as a study эта комната предназначается для кабинета ~ проект;
план;
чертеж;
конструкция, расчет;
a design for a building проект здания ~ проект ~ проектирование ~ проектировать ~ вчт. разработка ~ расчет ~ рисовать, изображать;
делать эскизы (костюмов и т. п.) ~ рисунок, эскиз;
узор ~ рисунок ~ составлять план, проектировать;
конструировать ~ составлять план ~ вчт. схема ~ (тж. pl) (злой) умысел;
to have (или to harbour) designs (on (или against) smb.) вынашивать коварные замыслы (против кого-л.) ~ умысел ~ чертеж ~ чертить ~ эскиз ~ проект;
план;
чертеж;
конструкция, расчет;
a design for a building проект здания ~ for reliability надежностное проектирование ~ of typeface вчт. начертание шрифта detailed ~ вчт. рабочий проект dialog ~ вчт. проектирование диалога dialogue ~ вчт. проектирование диалога draft ~ вчт. эскизный проект external ~ вчт. внешний проект faulty ~ несовершенная конструкция flaw ~ вчт. недоработанный проект functional ~ вчт. функциональное проектирование graphic ~ рекл. красочное оформление ~ (тж. pl) (злой) умысел;
to have (или to harbour) designs (on (или against) smb.) вынашивать коварные замыслы (против кого-л.) industrial ~ проектирование промышленного объекта industrial ~ промышленный образец industrial ~ художественное конструирование interactive ~ вчт. интерактивное проектирование internal ~ вчт. внутренний проект job ~ характер работы joint venture ~ структура совместного предприятия layout ~ вчт. проектирование размещения logic ~ вчт. логическое проектирование logical ~ вчт. логическое проектирование modular ~ вчт. блочная конструкция package ~ дизайн упаковки pilot ~ вчт. опытная конструкция poor ~ вчт. некачественная конструкция preliminary ~ вчт. технический проект product ~ проектирование изделия program ~ вчт. проектирование программы proprietary ~ вчт. оригинальная разработка protected ~ охраняемый промышленный образец registered ~ внесенный в реестр промышленный образец registered ~ зарегистрированный промышленный образец repairable ~ вчт. устранимая недоработка sample ~ вчт. составление выборки structured ~ вчт. структурное проектирование systematic ~ вчт. системное проектирование ~ предназначать;
this room is designed as a study эта комната предназначается для кабинета top-down ~ вчт. нисходящее проектирование trial ~ вчт. пробная конструкция type ~ вчт. начертание шрифта uniprocessor ~ вчт. однопроцессорная конструкция view ~ вчт. проектирование представлений visual ~ вчт. визуальное конструирование ~ задумывать, замышлять, намереваться, предполагать;
we did not design this result мы не ожидали такого результата;
we designed for his good мы делали все для его блага ~ задумывать, замышлять, намереваться, предполагать;
we did not design this result мы не ожидали такого результата;
we designed for his good мы делали все для его блага -
5 sequence
1) очерёдность; порядок следования3) геол. стратиграфический разрез4) серия, комплекс•- absolutely divergent sequence - absolutely limited sequence - absolutely summable sequence - absolutely unbiased sequence - adjusted homology sequence - asymptotically convergent sequence - asymptotically isotropic sequence - asymptotically lattice sequence - compactly divergent sequence - completely reversible sequence - conditionally divergent sequence - decimal geometric sequence - delicately divergent sequence - discretely convergent sequence - essentially convergent sequence - essentially finite sequence - essentially periodic sequence - everywhere dense sequence - infinitely large sequence - infinitely proceeding sequence - infinitely small sequence - integral stationary sequence - inverse sequence - inverted sequence - linearly independent sequence - locally convergent sequence - metrically convergent sequence - metrically transitive sequence - monotonically decreasing sequence - monotonically increasing sequence - never increasing sequence - numerical sequence - projectively realizable sequence - properly divergent sequence - rapid acquisition sequence - rapidly decreasing sequence - rapidly increasing sequence - recursively defined sequence - recursively divergent sequence - recursively enumerable sequence - relatively compact sequence - sequence of prime numbers - sequence of principal indices - slowly decreasing sequence - slowly increasing sequence - slowly oscillating sequence - stochastically compact sequence - stochastically stable sequence - strictly increasing sequence - strictly measurable sequence - strictly monotonic sequence - strongly convergent sequence - strongly downward sequence - strongly stationary sequence - strongly summable sequence - totally increasing sequence - totally monotone sequence - two-taile sequence - two-way infinite sequence - unconditionally divergent sequence - uniformly divergent sequence - uniformly integrable sequence - weakly convergent sequence -
6 co-operative
1. n кооперативное общество2. n кооперативный магазин3. n сельскохозяйственный кооператив, коллективное хозяйство4. n член кооперативного общества, кооператор5. n кооперативный дом6. n квартира в кооперативном доме, кооперативная квартира7. a совместный, объединённый8. a сотрудничающий; участвующий в совместной работеthe teacher thanked the pupils for being so co-operative — учитель похвалил школьников за то, что они так хорошо ему помогали
9. a кооперативныйco-operative shop — кооперативный магазин, кооператив
co-operative farm — сельскохозяйственный кооператив; коллективное хозяйство
Синонимический ряд:1. collaborative (adj.) collaborative; synergetic2. shared (adj.) collective; common; communal; community; joint; mutual; public; shared -
7 Donisthorpe, George Edmond
SUBJECT AREA: Textiles[br]fl. c.1842 England[br]English inventor of a wool-combing machine.[br]Edmund Cartwright's combing machine needed a great deal of improvement before it could be used to tackle the finer qualities of wool. Various people carried out experiments over the next thirty years, including G.E.Donisthorpe of Leicester. Together with Henry Rawson, Donisthorpe obtained his first patent for improvements to wool combing in 1835, but his important ones were obtained in 1842 and 1843. These attracted the attention of S.C. Lister, who had become interested in developing a machine to comb wool after seeing the grim working conditions of the hand-combers supplying his mill at Manningham. Lister was quick to perceive that Donisthorpe's invention carried sufficient promise to replace the hand-comber, so in 1842 he made Donisthorpe an offer, which was accepted, of £2,000 for half the patent rights. In the following year Lister purchased the other half of the patent for £10,000, whereby Donisthorpe ceased to have any pecuniary interest in it. Lister took Donisthorpe into partnership and they worked together over the ensuing years with patience and diligence until they eventually succeeded in bringing out a combing machine that was generally acceptable. They were combing fine botany wool for the first time by machine in 1843. Further patents were taken out in their joint names in 1849 and 1850: these included the "nip" mechanism, the priority of which was disputed by Heilmann. Donisthorpe also took out patents for wool combing with John Whitehead in 1849 and John Crofts in 1853.[br]Bibliography1835, British patent no. 6,808 (improvements to wool combing). 1842. British patent no. 9,404.1843. British patent no. 9,966.1843, British patent no. 9,780.1849, with S.C.Lister, British patent no. 12,712.1849, with S.C.Lister, British patent no. 13,009. 1849, with S.C.Lister, British patent no. 13,532. 1849, with John Whitehead, British patent no. 12,603. 1853, with John Crofts, British patent no. 216.Further ReadingJ.Hogg (ed.), c.1888, Fortunes Made in Business, London (provides an account of the association between Donisthorpe and Lister).W.English, 1969, The Textile Industry, London (explains the technical details of combing machines).C.Singer (ed.), 1958, A History of Technology, Vol. IV, Oxford: Clarendon Press (includes a good section on combing machines).RLHBiographical history of technology > Donisthorpe, George Edmond
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8 Hooke, Robert
[br]b. 18 July 1635 Freshwater, Isle of Wight, Englandd. 3 March 1703 London, England[br]English physicist, astronomer and mechanician.[br]Son of Revd John Hooke, minister of the parish, he was a sickly child who was subject to headaches which prevented protracted study. He devoted his time while alone to making mechanical models including a wooden clock. On the death of his father in October 1648 he was left £100 and went to London, where he became a pupil of Sir Peter Lely and then went to Westminster School under Dr Busby. There he learned the classical languages, some Hebrew and oriental languages while mastering six books of Euclid in one week. In 1653 he entered Christ Church College, Oxford, where he graduated MA in 1663, after studying chemistry and astronomy. In 1662 he was appointed Curator of Experiments to the Royal Society and was elected a Fellow in 1663. In 1665 his appointment was made permanent and he was given apartments in Gresham College, where he lived until his death in 1703. He was an indefatigable experimenter, perhaps best known for the invention of the universal joint named after him. The properties of the atmosphere greatly engaged him and he devised many forms of the barometer. He was the first to apply the spiral spring to the regulation of the balance wheel of the watch in an attempt to measure longitude at sea, but he did not publish his results until after Huygens's reinvention of the device in 1675. Several of his "new watches" were made by Thomas Tompion, one of which was presented to King Charles II. He is said to have invented, among other devices, thirty different ways of flying, the first practical system of telegraphy, an odometer, a hearing aid, an arithmetical machine and a marine barometer. Hooke was a small man, somewhat deformed, with long, lank hair, who went about stooped and moved very quickly. He was of a melancholy and mistrustful disposition, ill-tempered and sharp-tongued. He slept little, often working all night and taking a nap during the day. John Aubrey, his near-contemporary, wrote of Hooke, "He is certainly the greatest Mechanick this day in the World." He is said to have been the first to establish the true principle of the arch. His eyesight failed and he was blind for the last year of his life. He is best known for his Micrographia, or some Physiological Descriptions of Minute Bodies, first published in 1665. After the Great Fire of London, he exhibited a model for the rebuilding of the City. This was not accepted, but it did result in Hooke's appointment as one of two City Surveyors. This proved a lucrative post and through it Hooke amassed a fortune of some thousands of pounds, which was found intact after his death some thirty years later. It had never been opened in the interim period. Among the buildings he designed were the new Bethlehem (Bedlam) Hospital, the College of Physicians and Montague House.[br]Principal Honours and DistinctionsFRS 1663; Secretary 1677–82.IMcN -
9 Ingersoll, Simon
SUBJECT AREA: Mining and extraction technology[br]b. 3 March 1818 Stamford, Connecticut, USAd. 24 July 1894 Stamford, Connecticut, USA[br]American mechanic, inventor of a rock drill[br]Ingersoll worked on his father's farm and spent much of his time carrying out all kinds of mechanical experiments until 1839, when he went to Long Island, New York, to work on another farm. Having returned home in 1858, he received several patents for different mechanical devices, but he did not know how to turn his inventive talent into economic profit. His patents were sold to others for money to continue his work and support his family. In 1870, working again on Long Island, he by chance came into contact with New York City's largest contractor, who urged him to design a mechanical rock drill in order to replace hand drills in the rock-excavation business. Within one year Ingersoll built several models and a full-size machine at the machine shop of Henry Clark Sergeant, who contributed several improvements. They secured a joint patent in 1871, which was soon followed by a patent for a rock drill with tappet-valve motion.Although the Ingersoll Drill Company was established, he again sold the patent rights and went back to Stamford, where he continued his inventive work and gained several more patents for improving the rock drill. However, he never understood how to make a fortune from his patents, and he died almost penniless. His former partner, Sergeant, who had formed his own drill company on the basis of an entirely novel valve motion which led to compressed air being used as a power source, in 1888 established the Ingersoll- Sergeant Drill Company, which in 1905 merged with Rand Drill Company, which had been a competitor, to form the Ingersoll-Rand Company. This merger led to many achievements in manufacturing rock drills and air compressors at a time when there was growing demand for such machinery.[br]Further ReadingDictionary of American Biography (articles on both Ingersoll and Sergeant). W.L.Saunders, 1910, "The history of the rock drill and of the Ingersoll-Rand Company", Compressed Air Magazine: 3,679–80 (a lively description of the way in which he was encouraged to design the rock drill).WK -
10 Steinheil, Carl August von
[br]b. 1801 Roppoltsweiler, Alsaced. 1870 Munich, Germany[br]German physicist, founder of electromagnetic telegraphy in Austria, and photographic innovator and lens designer.[br]Steinheil studied under Gauss at Göttingen and Bessel at Königsberg before jointing his parents at Munich. There he concentrated on optics before being appointed Professor of Physics and Mathematics at the University of Munich in 1832. Immediately after the announcement of the first practicable photographic processes in 1839, he began experiments on photography in association with another professor at the University, Franz von Kobell. Steinheil is reputed to have made the first daguerreotypes in Germany; he certainly constructed several cameras of original design and suggested minor improvements to the daguerreotype process. In 1849 he was employed by the Austrian Government as Head of the Department of Telegraphy in the Ministry of Commerce. Electromagnetic telegraphy was an area in which Steinheil had worked for several years previously, and he was now appointed to supervise the installation of a working telegraphic system for the Austrian monarchy. He is considered to be the founder of electromagnetic telegraphy in Austria and went on to perform a similar role in Switzerland.Steinheil's son, Hugo Adolph, was educated in Munich and Augsburg but moved to Austria to be with his parents in 1850. Adolph completed his studies in Vienna and was appointed to the Telegraph Department, headed by his father, in 1851. Adolph returned to Munich in 1852, however, to concentrate on the study of optics. In 1855 the father and son established the optical workshop which was later to become the distinguished lens-manufacturing company C.A. Steinheil Söhne. At first the business confined itself almost entirely to astronomical optics, but in 1865 the two men took out a joint patent for a wide-angle photographic lens claimed to be free of distortion. The lens, called the "periscopic", was not in fact free from flare and not achromatic, although it enjoyed some reputation at the time. Much more important was the achromatic development of this lens that was introduced in 1866 and called the "Aplanet"; almost simultaneously a similar lens, the "Rapid Rentilinear", was introduced by Dallmeyer in England, and for many years lenses of this type were fitted as the standard objective on most photographic cameras. During 1866 the elder Steinheil relinquished his interest in lens manufacturing, and control of the business passed to Adolph, with administrative and financial affairs being looked after by another son, Edward. After Carl Steinheil's death Adolph continued to design and market a series of high-quality photographic lenses until his own death.[br]Further ReadingJ.M.Eder, 1945, History of Photography, trans. E.Epstean, New York (a general account of the Steinheils's work).Most accounts of photographic lens history will give details of the Steinheils's more important work. See, for example, Chapman Jones, 1904, Science and Practice of Photography, 4th edn, London: and Rudolf Kingslake, 1989, A History of the Photographic Lens, Boston.JWBiographical history of technology > Steinheil, Carl August von
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