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1 scientific contacts
Политика: научные контакты -
2 scientific contacts
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3 contact
1. n1) контакт, связь2) лицо, с которым поддерживается негласный контакт; посредник, осведомитель (обыкн. полицейский)•to break off contacts — прекращать / разрывать контакты / связи
to broaden contacts — расширять контакты / связи
to come into contact with smb — устанавливать контакт с кем-л.; входить в контакт с кем-л.; связываться с кем-л.
to cut contacts — прекращать / разрывать контакты / связи
to develop contacts — развивать контакты / связи
to end all contacts with a country — прекращать все контакты с какой-л. страной
to establish contacts — налаживать / устанавливать контакты / связи
to expand / to extend contacts — расширять контакты / связи
to get into contact with smb — устанавливать контакт с кем-л.; входить в контакт с кем-л.; связываться с кем-л.
to hold contacts — осуществлять контакты / связи
to keep in / to maintain contact — поддерживать контакт / связь
to make contacts — налаживать / устанавливать контакты / связи
to promote contacts — развивать контакты / связи; способствовать расширению контактов / связей
to re-establish contacts — восстанавливать контакты / связи
to resume contacts — возобновлять контакты / связи
to step up / to strengthen contacts — укреплять контакты / связи
- business contactsto suspend contacts — временно приостанавливать контакты / связи
- close contact
- contacts between the two countries have been picking up again
- cultural contacts
- diplomatic contacts
- direct contacts
- economic contacts
- expansion of contacts
- extension of contacts
- face-to-face contacts
- foreign contacts
- formal contacts
- fruitful contacts
- government-to-government contacts
- high-level contacts
- informal contacts
- intergovernmental contacts
- meaningful contacts
- multilateral contacts
- official contacts
- parliamentary contacts
- people-to-people contacts
- personal contacts
- political contacts
- private contacts
- regular contacts
- revival of contacts
- scientific contacts
- trade contacts
- unofficial contacts 2. vвходить в контакт (с кем-л.); устанавливать контакт (с кем-л.), устанавливать связь (с кем-л.); связываться (с кем-л.) -
4 SCD
1) Общая лексика: Special Circumstances Debt3) Военный термин: Scientific Computer Division, System Confidence Demonstration, security coding device, service computation date, software conceptual design, speed computing display, state civil defense, surveillance criticality designator, system coordination document4) Техника: satellite control department, severe core damage, ship center display, significant construction deficiency, stealth characters discrimination, subcarrier discriminator5) Фармакология: Казеин-соевая питательная среда (Soybean Casein Digest)6) Телекоммуникации: Strong Commit Dependency7) Сокращение: Saving Certificate Division, Semi-Conductor Devices (Israel), Signal Command Decoder, Spectral Correlation Density, System Capabilities Document (US DoD), schedule, scheduled, screen door, specification control drawing8) Физиология: Service connected disability, Sudden Cardiac Death9) Электроника: Sister Component Damage10) Вычислительная техника: SPARC Compliance Definition (SI, SPARC)11) Кардиология: (внезапная сердечная смерть)(sudden cardiac death) ВСС12) Пищевая промышленность: Specific Carbohydrate Diet13) Фирменный знак: Sun Coast Designs14) СМИ: Sports Collectors Digest15) Деловая лексика: Scientific Computing Division16) Расширение файла: Microsoft Schedule+ 7.x Contacts, SCODL Scan Conversion Object Description Language, Standard Color Display17) Электротехника: security constrained dispatch -
5 ScD
1) Общая лексика: Special Circumstances Debt3) Военный термин: Scientific Computer Division, System Confidence Demonstration, security coding device, service computation date, software conceptual design, speed computing display, state civil defense, surveillance criticality designator, system coordination document4) Техника: satellite control department, severe core damage, ship center display, significant construction deficiency, stealth characters discrimination, subcarrier discriminator5) Фармакология: Казеин-соевая питательная среда (Soybean Casein Digest)6) Телекоммуникации: Strong Commit Dependency7) Сокращение: Saving Certificate Division, Semi-Conductor Devices (Israel), Signal Command Decoder, Spectral Correlation Density, System Capabilities Document (US DoD), schedule, scheduled, screen door, specification control drawing8) Физиология: Service connected disability, Sudden Cardiac Death9) Электроника: Sister Component Damage10) Вычислительная техника: SPARC Compliance Definition (SI, SPARC)11) Кардиология: (внезапная сердечная смерть)(sudden cardiac death) ВСС12) Пищевая промышленность: Specific Carbohydrate Diet13) Фирменный знак: Sun Coast Designs14) СМИ: Sports Collectors Digest15) Деловая лексика: Scientific Computing Division16) Расширение файла: Microsoft Schedule+ 7.x Contacts, SCODL Scan Conversion Object Description Language, Standard Color Display17) Электротехника: security constrained dispatch -
6 scd
1) Общая лексика: Special Circumstances Debt3) Военный термин: Scientific Computer Division, System Confidence Demonstration, security coding device, service computation date, software conceptual design, speed computing display, state civil defense, surveillance criticality designator, system coordination document4) Техника: satellite control department, severe core damage, ship center display, significant construction deficiency, stealth characters discrimination, subcarrier discriminator5) Фармакология: Казеин-соевая питательная среда (Soybean Casein Digest)6) Телекоммуникации: Strong Commit Dependency7) Сокращение: Saving Certificate Division, Semi-Conductor Devices (Israel), Signal Command Decoder, Spectral Correlation Density, System Capabilities Document (US DoD), schedule, scheduled, screen door, specification control drawing8) Физиология: Service connected disability, Sudden Cardiac Death9) Электроника: Sister Component Damage10) Вычислительная техника: SPARC Compliance Definition (SI, SPARC)11) Кардиология: (внезапная сердечная смерть)(sudden cardiac death) ВСС12) Пищевая промышленность: Specific Carbohydrate Diet13) Фирменный знак: Sun Coast Designs14) СМИ: Sports Collectors Digest15) Деловая лексика: Scientific Computing Division16) Расширение файла: Microsoft Schedule+ 7.x Contacts, SCODL Scan Conversion Object Description Language, Standard Color Display17) Электротехника: security constrained dispatch -
7 Peter the Great (Pyotr Alekseyevich Romanov)
SUBJECT AREA: Ports and shipping[br]b. 10 June 1672 (30 May 1672 Old Style) Moscow, Russiad. 8 February 1725 (28 January 1725 Old Style) St Petersburg, Russia[br]Russian Tsar (1682–1725), Emperor of all the Russias (1722–5), founder of the Russian Navy, shipbuilder and scientist; as a shipbuilder he was known by the pseudonym Petr Mikhailov.[br]Peter the Great was a man with a single-minded approach to problems and with passionate and lifelong interests in matters scientific, military and above all maritime. The unusual and dominating rule of his vast lands brought about the age of Russian enlightenment, and ensured that his country became one of the most powerful states in Europe.Peter's interest in ships and shipbuilding started in his childhood; c. 1687 he had an old English-built day sailing boat repaired and launched, and on it he learned the rudiments of sailing and navigation. This craft (still preserved in St Petersburg) became known as the "Grandfather of the Russian Navy". In the years 1688 to 1693 he established a shipyard on Lake Plestsheev and then began his lifelong study of shipbuilding by visiting and giving encouragement to the industry at Archangelsk on the White Sea and Voronezh in the Sea of Azov. In October 1696, Peter took Azov from the Turks, and the Russian Fleet ever since has regarded that date as their birthday. Setting an example to the young aristocracy, Peter travelled to Western Europe to widen his experience and contacts and also to learn the trade of shipbuilding. He worked in the shipyards of Amsterdam and then at the Naval Base of Deptford on the Thames.The war with Sweden concentrated his attention on the Baltic and, to establish a base for trading and for the Navy, the City of St Petersburg was constructed on marshland. The Admiralty was built in the city and many new shipyards in the surrounding countryside, one being the Olonez yard which in 1703 built the frigate Standart, the first for the Baltic Fleet, which Peter himself commanded on its first voyage. The military defence of St Petersburg was effected by the construction of Kronstadt, seawards of the city.Throughout his life Peter was involved in ship design and it is estimated that one thousand ships were built during his reign. He introduced the building of standard ship types and also, centuries ahead of its time, the concept of prefabrication, unit assembly and the building of part hulls in different places. Officially he was the designer of the ninety-gun ship Lesnoe of 1718, and this may have influenced him in instituting Rules for Shipbuilders and for Seamen. In 1716 he commanded the joint fleets of the four naval powers: Denmark, Britain, Holland and Russia.He established the Marine Academy, organized and encouraged exploration and scientific research, and on his edict the St Petersburg Academy of Science was opened. He was not averse to the recruitment of foreigners to key posts in the nation's service. Peter the Great was a remarkable man, with the unusual quality of being a theorist and an innovator, in addition to the endowments of practicality and common sense.[br]Further ReadingRobert K.Massie, 1981, Peter the Great: His Life and Work, London: Gollancz.Henri Troyat, 1979, Pierre le Grand; pub. in English 1988 as Peter the Great, London: Hamish Hamilton (a good all-round biography).AK / FMWBiographical history of technology > Peter the Great (Pyotr Alekseyevich Romanov)
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8 Anschütz, Ottomar
SUBJECT AREA: Photography, film and optics[br]b. 1846 Lissa, Prussia (now Leszno, Poland) d. 1907[br]German photographer, chronophotographer ana inventor.[br]The son of a commercial photographer, Anschütz entered the business in 1868 and developed an interest in the process of instantaneous photography. The process was very difficult with the contemporary wet-plate process, but with the introduction of the much faster dry plates in the late 1870s he was able to make progress. Anschütz designed a focal plane shutter capable of operating at speeds up to 1/1000 of a second in 1883, and patented his design in 1888. it involved a vertically moving fabric roller-blind that worked at a fixed tension but had a slit the width of which could be adjusted to alter the exposure time. This design was adopted by C.P.Goerz, who from 1890 manufactures a number of cameras that incorporated it.Anschütz's action pictures of flying birds and animals attracted the attention of the Prussian authorities, and in 1886 the Chamber of Deputies authorized financial support for him to continue his work, which had started at the Hanover Military Institute in October 1885. Inspired by the work of Eadweard Muybridge in America, Anschütz had set up rows of cameras whose focal-plane shutters were released in sequence by electromagnets, taking twenty-four pictures in about three-quarters of a second. He made a large number of studies of the actions of people, animals and birds, and at the Krupp artillery range at Meppen, near Essen, he recorded shells in flight. His pictures were reproduced, and favourably commented upon, in scientific and photographic journals.To bring the pictures to the public, in 1887 he created the Electro-Tachyscope. The sequence negatives were printed as 90 x 120 mm transparencies and fixed around the circumference of a large steel disc. This was rotated in front of a spirally wound Geissler tube, which produced a momentary brilliant flash of light when a high voltage from an induction coil was applied to it, triggered by contacts on the steel disc. The flash duration, about 1/1000 of a second, was so short that it "froze" each picture as it passed the tube. The pictures succeeded each other at intervals of about 1/30 of a second, and the observer saw an apparently continuously lit moving picture. The Electro-Tachyscope was shown publicly in Berlin at the Kulturministerium from 19 to 21 March 1887; subsequently Siemens \& Halske manufactured 100 machines, which were shown throughout Europe and America in the early 1890s. From 1891 his pictures were available for the home in the form of the Tachyscope viewer, which used the principle of the zoetrope: sequence photographs were printed on long strips of thin card, perforated with narrow slots between the pictures. Placed around the circumference of a shallow cylinder and rotated, the pictures could be seen in life-like movement when viewed through the slots.In November 1894 Anschütz displayed a projector using two picture discs with twelve images each, which through a form of Maltese cross movement were rotated intermittently and alternately while a rotating shutter allowed each picture to blend with the next so that no flicker occurred. The first public shows, given in Berlin, were on a screen 6×8 m (20×26 ft) in size. From 22 February 1895 they were shown regularly to audiences of 300 in a building on the Leipzigstrasse; they were the first projected motion pictures seen in Germany.[br]Further ReadingJ.Deslandes, 1966, Histoire comparée du cinéma, Vol. I, Paris. B.Coe, 1992, Muybridge and the Chronophotographers, London.BC -
9 Muybridge, Eadweard
SUBJECT AREA: Photography, film and optics[br]b. 9 April 1830 Kingston upon Thames, Englandd. 8 May 1904 Kingston upon Thames, England[br]English photographer and pioneer of sequence photography of movement.[br]He was born Edward Muggeridge, but later changed his name, taking the Saxon spelling of his first name and altering his surname, first to Muygridge and then to Muybridge. He emigrated to America in 1851, working in New York in bookbinding and selling as a commission agent for the London Printing and Publishing Company. Through contact with a New York daguerreotypist, Silas T.Selleck, he acquired an interest in photography that developed after his move to California in 1855. On a visit to England in 1860 he learned the wet-collodion process from a friend, Arthur Brown, and acquired the best photographic equipment available in London before returning to America. In 1867, under his trade pseudonym "Helios", he set out to record the scenery of the Far West with his mobile dark-room, christened "The Flying Studio".His reputation as a photographer of the first rank spread, and he was commissioned to record the survey visit of Major-General Henry W.Halleck to Alaska and also to record the territory through which the Central Pacific Railroad was being constructed. Perhaps because of this latter project, he was approached by the President of the Central Pacific, Leland Stanford, to attempt to photograph a horse trotting at speed. There was a long-standing controversy among racing men as to whether a trotting horse had all four hooves off the ground at any point; Stanford felt that it did, and hoped than an "instantaneous" photograph would settle the matter once and for all. In May 1872 Muybridge photographed the horse "Occident", but without any great success because the current wet-collodion process normally required many seconds, even in a good light, for a good result. In April 1873 he managed to produce some better negatives, in which a recognizable silhouette of the horse showed all four feet above the ground at the same time.Soon after, Muybridge left his young wife, Flora, in San Francisco to go with the army sent to put down the revolt of the Modoc Indians. While he was busy photographing the scenery and the combatants, his wife had an affair with a Major Harry Larkyns. On his return, finding his wife pregnant, he had several confrontations with Larkyns, which culminated in his shooting him dead. At his trial for murder, in February 1875, Muybridge was acquitted by the jury on the grounds of justifiable homicide; he left soon after on a long trip to South America.He again took up his photographic work when he returned to North America and Stanford asked him to take up the action-photography project once more. Using a new shutter design he had developed while on his trip south, and which would operate in as little as 1/1,000 of a second, he obtained more detailed pictures of "Occident" in July 1877. He then devised a new scheme, which Stanford sponsored at his farm at Palo Alto. A 50 ft (15 m) long shed was constructed, containing twelve cameras side by side, and a white background marked off with vertical, numbered lines was set up. Each camera was fitted with Muybridge's highspeed shutter, which was released by an electromagnetic catch. Thin threads stretched across the track were broken by the horse as it moved along, closing spring electrical contacts which released each shutter in turn. Thus, in about half a second, twelve photographs were obtained that showed all the phases of the movement.Although the pictures were still little more than silhouettes, they were very sharp, and sequences published in scientific and photographic journals throughout the world excited considerable attention. By replacing the threads with an electrical commutator device, which allowed the release of the shutters at precise intervals, Muybridge was able to take series of actions by other animals and humans. From 1880 he lectured in America and Europe, projecting his results in motion on the screen with his Zoopraxiscope projector. In August 1883 he received a grant of $40,000 from the University of Pennsylvania to carry on his work there. Using the vastly improved gelatine dry-plate process and new, improved multiple-camera apparatus, during 1884 and 1885 he produced over 100,000 photographs, of which 20,000 were reproduced in Animal Locomotion in 1887. The subjects were animals of all kinds, and human figures, mostly nude, in a wide range of activities. The quality of the photographs was extremely good, and the publication attracted considerable attention and praise.Muybridge returned to England in 1894; his last publications were Animals in Motion (1899) and The Human Figure in Motion (1901). His influence on the world of art was enormous, over-turning the conventional representations of action hitherto used by artists. His work in pioneering the use of sequence photography led to the science of chronophotography developed by Marey and others, and stimulated many inventors, notably Thomas Edison to work which led to the introduction of cinematography in the 1890s.[br]Bibliography1887, Animal Locomotion, Philadelphia.1893, Descriptive Zoopraxography, Pennsylvania. 1899, Animals in Motion, London.1901, The Human Figure in Motion, London.Further Reading1973, Eadweard Muybridge: The Stanford Years, Stanford.G.Hendricks, 1975, Muybridge: The Father of the Motion Picture, New York. R.Haas, 1976, Muybridge: Man in Motion, California.B.Coe, 1992, Muybridge and the Chromophoto-graphers, London.BC
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