-
121 see
1. n церк. епархия2. n церк. престолHoly See — святейший престол; папский престол, Ватикан
3. n церк. чин епископа4. n церк. папство5. v видеть6. v смотреть, видетьlet me see that letter — покажите мне это письмо, разрешите взглянуть на это письмо
all this took place in the street, where all could see — всё это произошло на улице на глазах у всех
he is not fit to be seen — он в таком виде, что не может показаться на людях
to see pass — видеть, как кто-то проходит
7. v справляться, смотретьto look but see nothing — смотреть, но ничего не видеть
8. v представлять себе9. v находить, обнаруживать10. v понимать, сознаватьI see what you mean — я понимаю, что ты имеешь в виду
I see what you are driving at — я понимаю, к чему вы клоните
I see! — понимаю!, ясно!
I see that you have changed your mind — я вижу, что вы передумали
11. v испытывать, переживать; сталкиватьсяI have seen war at close quarters — я на себе испытал, что такое война
12. v видеться, встречаться13. v узнавать; выяснятьsee who it is — посмотри, кто это
see if the postman has come — посмотрите, не пришёл ли почтальон
14. v обдумыватьsee what you can do — подумайте, что можно сделать
that remains to be seen, we shall see — ещё неизвестно, время покажет
let me see — постойте, подождите, дайте подумать
let me see, what was I saying? — подождите, о чём это я осматривать, освидетельствовать
to see a flat before taking it — осмотреть квартиру прежде, чем переехать в неё
15. v редк. допускать, разрешатьyou cannot see your sister starve without trying to help her — вы ведь не допустите, чтобы ваша сестра голодала, и попытаетесь помочь ей
16. v карт. принимать вызовСинонимический ряд:1. diocese (noun) bishopric; diocese; parish2. accompany (verb) accompany; attend; date; escort; take out3. behold (verb) behold; descry; espy; look; mark; mind; note; notice; observe; perceive; remark; spy; twig; watch; witness4. call on (verb) call on; meet5. consider (verb) consider; deliberate6. discover (verb) ascertain; catch on; determine; discover; find out; hear; learn; tumble; unearth7. examine (verb) examine; inspect; regard; view8. foresee (verb) anticipate; divine; envision; forefeel; foreknow; foresee; preknow; previse; prevision9. guide (verb) conduct; direct; guide; lead; pilot; route; shepherd; show; steer10. have (verb) experience; feel; go through; have; know; meet with; suffer; sustain; taste; undergo11. read (verb) accept; apprehend; catch; compass; cotton on to; cotton to; fathom; follow; grasp; make out; read; take; take in; tumble to12. receive (verb) consult; discuss; encounter; entertain; receive13. think (verb) conceive; envisage; envision; fancy; fantasise; feature; image; imagine; picture; project; realize; think; vision; visualise; visualize14. understand (verb) comprehend; detect; discern; distinguish; penetrate; recognise; recognize; understand15. visit (verb) call; come by; come over; drop by; drop in; look in; look up; pop in; run in; step in; stop; stop by; stop in; visit -
122 Caro, Heinrich
[br]b. 13 February 1834 Poznan, Polandd. 11 October 1911 Dresden, Germany[br]German dyestuffi chemist.[br]Caro received vocational training as a dyer at the Gewerbeinstitut in Berlin from 1852, at the same time attending chemistry lectures at the university there. In 1855 he was hired as a colourist by a firm of calico printers in Mulheim an der Ruhr, where he was able to demonstrate the value of scientific training in solving practical problems. Two years later, the year after Perkin's discovery of aniline dyes, he was sent to England in order to learn the latest dyeing techniques. He took up a post an analytical chemist with the chemical firm Roberts, Dale \& Co. in Manchester; after finding a better way of synthesizing Perkin's mauve, he became a partner in the business. Caro was able to enlarge both his engineering experience and his chemical knowledge there, particularly by studying Hofmann's researches on the aniline dyes. He made several discoveries, including induline, Bismark brown and Martius yellow.Like other German chemists, however, he found greater opportunities opening up in Germany, and in 1866 he returned to take up a post in Bunsen's laboratory in Heidelberg. In 1868 Caro obtained the important directorship of Badische Anilin-Soda- Fabrik (BASF), the first true industrial research organization and leading centre of dyestuffs research. A steady stream of commercial successes followed. In 1869, after Graebe and Liebermann had showed him their laboratory synthesis of the red dye alizarin, Caro went on to develop a cheaper and commercially viable method. During the 1870s he collaborated with Adolf von Baeyer to make methylene blue and related dyes, and then went on to the azo dyes. His work on indigo was important, but was not crowned with commercial success; that came in 1897 when his successor at BASF discovered a suitable process for producing indigo on a commercial scale. Caro had resigned his post in 1889, by which time he had made notable contributions to German supremacy in the fast-developing dyestuffs industry.[br]Further ReadingA.Bernthsen, 1912, obituary, Berichte derDeutschen Chemischen Gesellschaft, 45; 1,987–2,042 (a substantial obituary).LRD -
123 Goldmark, Peter Carl
[br]b. 2 December 1906 Budapest, Hungaryd. 7 December 1977 Westchester Co., New York, USA[br]Austro-Hungarian engineer who developed the first commercial colour television system and the long-playing record.[br]After education in Hungary and a period as an assistant at the Technische Hochschule, Berlin, Goldmark moved to England, where he joined Pye of Cambridge and worked on an experimental thirty-line television system using a cathode ray tube (CRT) for the display. In 1936 he moved to the USA to work at Columbia Broadcasting Laboratories. There, with monochrome television based on the CRT virtually a practical proposition, he devoted his efforts to finding a way of producing colour TV images: in 1940 he gave his first demonstration of a working system. There then followed a series of experimental field-sequential colour TV systems based on segmented red, green and blue colour wheels and drums, where the problem was to find an acceptable compromise between bandwidth, resolution, colour flicker and colour-image breakup. Eventually he arrived at a system using a colour wheel in combination with a CRT containing a panchromatic phosphor screen, with a scanned raster of 405 lines and a primary colour rate of 144 fields per second. Despite the fact that the receivers were bulky, gave relatively poor, dim pictures and used standards totally incompatible with the existing 525-line, sixty fields per second interlaced monochrome (black and white) system, in 1950 the Federal Communications Commission (FCC), anxious to encourage postwar revival of the industry, authorized the system for public broadcasting. Within eighteen months, however, bowing to pressure from the remainder of the industry, which had formed its own National Television Systems Committee (NTSC) to develop a much more satisfactory, fully compatible system based on the RCA three-gun shadowmask CRT, the FCC withdrew its approval.While all this was going on, Goldmark had also been working on ideas for overcoming the poor reproduction, noise quality, short playing-time (about four minutes) and limited robustness and life of the long-established 78 rpm 12 in. (30 cm) diameter shellac gramophone record. The recent availability of a new, more robust, plastic material, vinyl, which had a lower surface noise, enabled him in 1948 to reduce the groove width some three times to 0.003 in. (0.0762 mm), use a more lightly loaded synthetic sapphire stylus and crystal transducer with improved performance, and reduce the turntable speed to 33 1/3 rpm, to give thirty minutes of high-quality music per side. This successful development soon led to the availability of stereophonic recordings, based on the ideas of Alan Blumlein at EMI in the 1930s.In 1950 Goldmark became a vice-president of CBS, but he still found time to develop a scan conversion system for relaying television pictures to Earth from the Lunar Orbiter spacecraft. He also almost brought to the market a domestic electronic video recorder (EVR) system based on the thermal distortion of plastic film by separate luminance and coded colour signals, but this was overtaken by the video cassette recorder (VCR) system, which uses magnetic tape.[br]Principal Honours and DistinctionsInstitute of Electrical and Electronics Engineers Morris N.Liebmann Award 1945. Institute of Electrical and Electronics Engineers Vladimir K. Zworykin Award 1961.Bibliography1951, with J.W.Christensen and J.J.Reeves, "Colour television. USA Standard", Proceedings of the Institute of Radio Engineers 39: 1,288 (describes the development and standards for the short-lived field-sequential colour TV standard).1949, with R.Snepvangers and W.S.Bachman, "The Columbia long-playing microgroove recording system", Proceedings of the Institute of Radio Engineers 37:923 (outlines the invention of the long-playing record).Further ReadingE.W.Herold, 1976, "A history of colour television displays", Proceedings of the Institute of Electrical and Electronics Engineers 64:1,331.See also: Baird, John LogieKF
См. также в других словарях:
Berlin blue — Berlin Ber lin, n. [The capital of Prussia] 1. A four wheeled carriage, having a sheltered seat behind the body and separate from it, invented in the 17th century, at Berlin. [1913 Webster] 2. Fine worsted for fancy work; zephyr worsted; called… … The Collaborative International Dictionary of English
Berlin blue — Blue Blue (bl[=u]), n. 1. One of the seven colors into which the rays of light divide themselves, when refracted through a glass prism; the color of the clear sky, or a color resembling that, whether lighter or darker; a pigment having such color … The Collaborative International Dictionary of English
Berlin blue — Prussian Prus sian, a. [From Prussia, the country: cf. F. prussien.] Of or pertaining to Prussia. n. A native or inhabitant of Prussia. [1913 Webster] {Prussian blue} (Chem.), any one of several complex double cyanides of ferrous and ferric iron; … The Collaborative International Dictionary of English
berlin blue — noun Usage: often capitalized 1st B 1. : any of various iron blue pigments 2. : prussian blue 2 * * * Berlin blue noun Prussian blue • • • Main Entry: ↑berlin … Useful english dictionary
Berlin blue — noun see prussian blue * * * Berlin blue noun Prussian blue • • • Main Entry: ↑berlin … Useful english dictionary
Berlin blue — Berlyno mėlynasis statusas T sritis chemija apibrėžtis Mėlynos spalvos pigmentas, gaminamas iš kompleksinių geležies(II) cianidų. atitikmenys: angl. Berlin blue; ferroferrocyanide; iron blue; Paris blue; Prussian blue rus. берлинская лазурь;… … Chemijos terminų aiškinamasis žodynas
Berlin blue — Ferric ferrocyanide; a dye used for injection studies of blood vessel s and lymphatics, and in staining of siderocytes. SYN: Prussian blue. * * * Prussian b … Medical dictionary
Berlin blue — Берлинская лазурь … Краткий толковый словарь по полиграфии
Berlin — Ber lin, n. [The capital of Prussia] 1. A four wheeled carriage, having a sheltered seat behind the body and separate from it, invented in the 17th century, at Berlin. [1913 Webster] 2. Fine worsted for fancy work; zephyr worsted; called also… … The Collaborative International Dictionary of English
Berlin black — Berlin Ber lin, n. [The capital of Prussia] 1. A four wheeled carriage, having a sheltered seat behind the body and separate from it, invented in the 17th century, at Berlin. [1913 Webster] 2. Fine worsted for fancy work; zephyr worsted; called… … The Collaborative International Dictionary of English
Berlin green — Berlin Ber lin, n. [The capital of Prussia] 1. A four wheeled carriage, having a sheltered seat behind the body and separate from it, invented in the 17th century, at Berlin. [1913 Webster] 2. Fine worsted for fancy work; zephyr worsted; called… … The Collaborative International Dictionary of English