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41 Tainter, Charles Sumner
SUBJECT AREA: Recording[br]b. 1854d. 1940[br]American scientific instrument maker, co-developer of practical cylinder recording.[br]He manufactured "philosophical devices" in Cambridge, Massachusetts, and was approached by Alexander Graham Bell in connection with the construction of toys using sound recordings. A more formal co-operation was agreed, and after Bell's receipt of the French Volta prize in 1880 he financed the Volta Laboratory Association in Washington, DC. He founded this in 1881 together with a cousin and Tainter to develop a practical sound-recording and -reproducing system. Another area that was developed was the transmission of sound by means of modulated light and reception via a selenium cell.The advances in sound recording and reproduction were very positive, and T.A. Edison was approached in mid-1885 in order to establish co-operation in the further development of a cylinder instrument. In early 1886 the Volta Graphophone Company was incorporated in Virginia, and an experimental laboratory was established in Washington, DC. The investors were connected with the secretarial services at the House of Representatives and needed the development for increasing efficiency in debate reporting. In mid-1887 Edison, against the advice of his collaborators, declined co-operation and went ahead on his own. There is no doubt that Tainter's skill in developing functional equipment and the speed with which he was able to work in the crucial years provoked other developments in the field, in particular the perfection of the Edison phonograph and the development of the disc record by Berliner.[br]BibliographyTainter's patents were numerous; those on sound recording were the most important, because they incorporated so many fundamental ideas, and included US patent no. 341, 214 (with C.A.Bell), and US patent no. 375, 579 (a complete dictation outfit).Further ReadingV.K.Chew, 1981, Talking Machines, London: Science Museum and HMSO, pp. 9–12 (provides a good overview, not only of Tainter's contribution, but also of early sound recording and reproduction).GB-NBiographical history of technology > Tainter, Charles Sumner
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42 аппаратура оптической звукозаписи
1) Engineering: optical sound-on-film recording equipmentУниверсальный русско-английский словарь > аппаратура оптической звукозаписи
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43 Johnson, Eldridge Reeves
SUBJECT AREA: Recording[br]b. 18 February 1867 Wilmington, Delaware, USAd. 14 November 1945 Moorestown, New Jersey, USA[br]American industrialist, founder and owner of the Victor Talking Machine Company; developer of many basic constructions in mechanical sound recording and the reproduction and manufacture of gramophone records.[br]He graduated from the Dover Academy (Delaware) in 1882 and was apprenticed in a machine-repair firm in Philadelphia and studied in evening classes at the Spring Garden Institute. In 1888 he took employment in a small Philadelphia machine shop owned by Andrew Scull, specializing in repair and bookbinding machinery. After travels in the western part of the US, in 1891 he became a partner in Scull \& Johnson, Manufacturing Machinists, and established a further company, the New Jersey Wire Stitching Machine Company. He bought out Andrew Scull's interest in October 1894 (the last instalment being paid in 1897) and became an independent general machinist. In 1896 he had perfected a spring motor for the Berliner flat-disc gramophone, and he started experimenting with a more direct method of recording in a spiral groove: that of cutting in wax. Co-operation with Berliner eventually led to the incorporation of the Victor Talking Machine Company in 1901. The innumerable court cases stemming from the fact that so many patents for various elements in sound recording and reproduction were in very many hands were brought to an end in 1903 when Johnson was material in establishing cross-licencing agreements between Victor, Columbia Graphophone and Edison to create what is known as a patent pool. Early on, Johnson had a thorough experience in all matters concerning the development and manufacture of both gramophones and records. He made and patented many major contributions in all these fields, and his approach was very business-like in that the contribution to cost of each part or process was always a decisive factor in his designs. This attitude was material in his consulting work for the sister company, the Gramophone Company, in London before it set up its own factories in 1910. He had quickly learned the advantages of advertising and of providing customers with durable equipment and records. This motivation was so strong that Johnson set up a research programme for determining the cause of wear in records. It turned out to depend on groove profile, and from 1911 one particular profile was adhered to and processes for transforming the grooves of valuable earlier records were developed. Without precise measuring instruments, he used the durability as the determining factor. Johnson withdrew more and more to the role of manager, and the Victor Talking Machine Company gained such a position in the market that the US anti-trust legislation was used against it. However, a generation change in the Board of Directors and certain erroneous decisions as to product line started a decline, and in February 1926 Johnson withdrew on extended sick leave: these changes led to the eventual sale of Victor. However, Victor survived due to the advent of radio and the electrification of replay equipment and became a part of Radio Corporation of America. In retirement Johnson took up various activities in the arts and sciences and financially supported several projects; his private yacht was used in 1933 in work with the Smithsonian Institution on a deep-sea hydrographie and fauna-collecting expedition near Puerto Rico.[br]BibliographyJohnson's patents were many, and some were fundamental to the development of the gramophone, such as: US patent no. 650,843 (in particular a recording lathe); US patent nos. 655,556, 655,556 and 679,896 (soundboxes); US patent no. 681,918 (making the original conductive for electroplating); US patent no. 739,318 (shellac record with paper label).Further ReadingMrs E.R.Johnson, 1913, "Eldridge Reeves Johnson (1867–1945): Industrial pioneer", manuscript (an account of his early experience).E.Hutto, Jr, "Emile Berliner, Eldridge Johnson, and the Victor Talking Machine Company", Journal of AES 25(10/11):666–73 (a good but brief account based on company information).E.R.Fenimore Johnson, 1974, His Master's Voice was Eldridge R.Johnson, Milford, Del.(a very personal biography by his only son).GB-NBiographical history of technology > Johnson, Eldridge Reeves
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44 Lioret, Henri Jules
[br]b. 26 July 1848 Moret-sur-Loing, Seine-et-Marne, France d. 1938[br]French clockmaker, developer of sound recording and reproducing equipment, and inventor of a celluloid cylinder.[br]His first connection with the phonograph principle was in the development of a miniature talking doll with a spring motor and interchangeable and indestructible celluloid cylinders in 1893 for the firm Emile Jumeau. He went on to develop commercial recording and reproducing equipment for celluloid cylinders, perfecting the process of embossing a piece of heated celluloid tube and supporting it by shrinking it onto a piece of metal tube. His training as a clockmaker enabled him to construct a functional clockwork phonograph at a time when other companies struggled with the conversion from manual or electrical to clockwork. He was unable to compete with cheap mass production and left the phonograph field in 1911. However, he continued in other acoustic fields, including moving pictures with sound and underwater sound ranging.[br]Bibliography18 May 1893, French patent no. 230,177.Further ReadingO.Read and W.L.Welch, 1959, From Tin Foil to Stereo, Indianapolis: Howard W.Sams, pp. 94–5.GB-N -
45 Phono-Geräte
Phono-Geräte npl GEN, FREI, MEDIA sound recording and reproducing equipment, audio equipment* * *npl <Geschäft, Frei, Medien> sound recording and reproducing equipment, audio equipment -
46 Eisler, Paul
[br]b. 1907 Vienna, Austria[br]Austrian engineer responsible for the invention of the printed circuit.[br]At the age of 23, Eisler obtained a Diploma in Engineering from the Technical University of Vienna. Because of the growing Nazi influence in Austria, he then accepted a post with the His Master's Voice (HMV) agents in Belgrade, where he worked on the problems of radio reception and sound transmission in railway trains. However, he soon returned to Vienna to found a weekly radio journal and file patents on graphical sound recording (for which he received a doctorate) and on a system of stereoscopic television based on lenticular vertical scanning.In 1936 he moved to England and sold the TV patent to Marconi for £250. Unable to find a job, he carried out experiments in his rooms in a Hampstead boarding-house; after making circuits using strip wires mounted on bakelite sheet, he filed his first printed-circuit patent that year. He then tried to find ways of printing the circuits, but without success. Obtaining a post with Odeon Theatres, he invented a sound-level control for films and devised a mirror-drum continuous-film projector, but with the outbreak of war in 1939, when the company was evacuated, he chose to stay in London and was interned for a while. Released in 1941, he began work with Henderson and Spalding, a firm of lithographic printers, to whom he unwittingly assigned all future patents for the paltry sum of £1. In due course he perfected a means of printing conducting circuits and on 3 February 1943 he filed three patents covering the process. The British Ministry of Defence rejected the idea, considering it of no use for military equipment, but after he had demonstrated the technique to American visitors it was enthusiastically taken up in the US for making proximity fuses, of which many millions were produced and used for the war effort. Subsequently the US Government ruled that all air-borne electronic circuits should be printed.In the late 1940s the Instrument Department of Henderson and Spalding was split off as Technograph Printed Circuits Ltd, with Eisler as Technical Director. In 1949 he filed a further patent covering a multilayer system; this was licensed to Pye and the Telegraph Condenser Company. A further refinement, patented in the 1950s, the use of the technique for telephone exchange equipment, but this was subsequently widely infringed and although he negotiated licences in the USA he found it difficult to license his ideas in Europe. In the UK he obtained finance from the National Research and Development Corporation, but they interfered and refused money for further development, and he eventually resigned from Technograph. Faced with litigation in the USA and open infringement in the UK, he found it difficult to establish his claims, but their validity was finally agreed by the Court of Appeal (1969) and the House of Lords (1971).As a freelance inventor he filed many other printed-circuit patents, including foil heating films and batteries. When his Patent Agents proved unwilling to fund the cost of filing and prosecuting Complete Specifications he set up his own company, Eisler Consultants Ltd, to promote food and space heating, including the use of heated cans and wallpaper! As Foil Heating Ltd he went into the production of heating films, the process subsequently being licensed to Thermal Technology Inc. in California.[br]Bibliography1953, "Printed circuits: some general principles and applications of the foil technique", Journal of the British Institution of Radio Engineers 13: 523.1959, The Technology of Printed Circuits: The Foil Technique in Electronic Production.1984–5, "Reflections of my life as an inventor", Circuit World 11:1–3 (a personal account of the development of the printed circuit).1989, My Life with the Printed Circuit, Bethlehem, Pennsylvania: Lehigh University Press.KF -
47 запись
1. ж. recording; recordвести запись — keep a record of …
2. ж. вчт. writing, write-in, recording3. ж. record4. ж. entry5. ж. notation, representation6. ж. logging, plotting7. ж. logзапись с возвращением к нулю — return-to-zero recording; return-to-zero representation
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48 Berliner, Emile
SUBJECT AREA: Recording[br]b. 20 May 1851 Hannover, Germanyd. 3 August 1929 Montreal, Canada[br]German (naturalized American) inventor, developer of the disc record and lateral mechanical replay.[br]After arriving in the USA in 1870 and becoming an American citizen, Berliner worked as a dry-goods clerk in Washington, DC, and for a period studied electricity at Cooper Union for the Advancement of Science and Art, New York. He invented an improved microphone and set up his own experimental laboratory in Washington, DC. He developed a microphone for telephone use and sold the rights to the Bell Telephone Company. Subsequently he was put in charge of their laboratory, remaining in that position for eight years. In 1881 Berliner, with his brothers Joseph and Jacob, founded the J.Berliner Telephonfabrik in Hanover, the first factory in Europe specializing in telephone equipment.Inspired by the development work performed by T.A. Edison and in the Volta Laboratory (see C.S. Tainter), he analysed the existing processes for recording and reproducing sound and in 1887 developed a process for transferring lateral undulations scratched in soot into an etched groove that would make a needle and diaphragm vibrate. Using what may be regarded as a combination of the Phonautograph of Léon Scott de Martinville and the photo-engraving suggested by Charles Cros, in May 1887 he thus demonstrated the practicability of the laterally recorded groove. He termed the apparatus "Gramophone". In November 1887 he applied the principle to a glass disc and obtained an inwardly spiralling, modulated groove in copper and zinc. In March 1888 he took the radical step of scratching the lateral vibrations directly onto a rotating zinc disc, the surface of which was protected, and the subsequent etching created the groove. Using well-known principles of printing-plate manufacture, he developed processes for duplication by making a negative mould from which positive copies could be pressed in a thermoplastic compound. Toy gramophones were manufactured in Germany from 1889 and from 1892–3 Berliner manufactured both records and gramophones in the USA. The gramophones were hand-cranked at first, but from 1896 were based on a new design by E.R. Johnson. In 1897–8 Berliner spread his activities to England and Germany, setting up a European pressing plant in the telephone factory in Hanover, and in 1899 a Canadian company was formed. Various court cases over patents removed Berliner from direct running of the reconstructed companies, but he retained a major economic interest in E.R. Johnson's Victor Talking Machine Company. In later years Berliner became interested in aeronautics, in particular the autogiro principle. Applied acoustics was a continued interest, and a tile for controlling the acoustics of large halls was successfully developed in the 1920s.[br]Bibliography16 May 1888, Journal of the Franklin Institute 125 (6) (Lecture of 16 May 1888) (Berliner's early appreciation of his own work).1914, Three Addresses, privately printed (a history of sound recording). US patent no. 372,786 (basic photo-engraving principle).US patent no. 382,790 (scratching and etching).US patent no. 534,543 (hand-cranked gramophone).Further ReadingR.Gelatt, 1977, The Fabulous Phonograph, London: Cassell (a well-researched history of reproducible sound which places Berliner's contribution in its correct perspective). J.R.Smart, 1985, "Emile Berliner and nineteenth-century disc recordings", in WonderfulInventions, ed. Iris Newson, Washington, DC: Library of Congress, pp. 346–59 (provides a reliable account).O.Read and W.L.Welch, 1959, From Tin Foil to Stereo, Indianapolis: Howard W.Sams, pp. 119–35 (provides a vivid account, albeit with less precision).GB-N -
49 Dolby, Ray M.
[br]b. 1933 Portland, Oregon, USA[br]American electronics engineer who developed professional systems for noise reduction.[br]He was employed by Ampex Corporation from 1949 to 1957 and received a BSc in electrical engineering from Stanford University in 1957. He studied in England and received a PhD in physics from Cambridge University in 1961. He was a United Nations adviser in India 1963–5 and established the Dolby Laboratories in London in 1965. The Dolby Laboratories continuously developed systems for background-noise reduction, and in 1966 introduced Dolby A for professional tape and film formats. In 1968 Dolby B was developed and quickly found its use in the Philips Compact Cassette, which had become the new consumer medium for music. In 1981 Dolby C was an improvement designed for the consumer market, but it also was used in professional video equipment. In 1986 Dolby SR was introduced for professional sound recording. It is a common feature that the equipment has to be in a good state of calibration in order to obtain the advantages of these compander systems.[br]Principal Honours and DistinctionsOBE 1986.GB-N -
50 студия
ж. studioтелевизионная студия, телестудия — telecasting studio
Синонимический ряд:мастерской (сущ.) ателье; мастерской -
51 оборудование для воспроизведения и записи звука
Engineering: sound reproducing and recording equipmentУниверсальный русско-английский словарь > оборудование для воспроизведения и записи звука
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52 аппаратура оптической звукозаписи
Русско-английский политехнический словарь > аппаратура оптической звукозаписи
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53 Voigt, Paul Gustavus Adolphus Helmuth
[br]b. 9 December 1901 Forest Hill, London, Englandd. 9 February 1981 Brighton, Ontario, Canada[br]English/Canadian electronics engineer, developer of electromechanical recording and reproductions systems, amplifiers and loudspeakers.[br]He received his education at Dulwich College and in 1922 graduated with a BSc from University College, London. He had an early interest in the application of valve amplifiers, and after graduating he was employed by J.E.Hough, Edison Bell Works, to develop a line of radio-receiving equipment. However, he became interested in the mechanical (and later electrical) side of recording and from 1925 developed principles and equipment. In particular he developed capacitor microphones, not only for in-house work but also commercially, until the mid-1930s. The Edison Bell company did not survive the Depression and closed in 1933. Voigt founded his own company, Voigt Patents Ltd, concentrating on loudspeakers for cinemas and developing horn loudspeakers for domestic use. During the Second World War he continued to develop loudspeaker units and gramophone pick-ups, and in 1950 he emigrated to Toronto, Canada, but his company closed. Voigt taught electronics, and from 1960 to 1969 he was employed by the Radio Regulations Laboratory in Ottawa. After retirement he worked with theoretical cosmology and fundamental interactions.[br]BibliographyMost of Voigt's patents are concerned with improvements in the magnetic circuit in dynamic loudspeakers and centring devices for diaphragms. However, UK patent nos. 278,098, 404,037 and 447,749 may be regarded as particularly relevant. In 1940 Voigt contributed a remarkable paper on the principles of equalization in mechanical recording: "Getting the best from records, part 1—the recording characteristic", Wireless World (February): 141–4.Further ReadingPersonal accounts of experiences with Voigt may be found in "Paul Voigt's contribution to Audio", British Kinematography Sound and Television (October 1970): 316–27, which also includes a list of his patents.GB-NBiographical history of technology > Voigt, Paul Gustavus Adolphus Helmuth
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54 cabina
f.1 booth, cabin.cabina electoral polling o voting boothcabina espacial space cabin2 cockpit, flight deck.3 cab.* * *1 (gen) cabin, booth2 (de barco, avión) cabin\cabina de proyección projection roomcabina telefónica telephone box, US telephone booth* * *noun f.1) booth2) cab3) cabin4) cockpit* * *SF1) [de discjockey, intérprete] booth; (tb: cabina telefónica, cabina de teléfono(s)) telephone booth, telephone boxno te pude llamar porque no había ninguna cabina — I couldn't call you because there was no phone box
2) [de tren, camión] cab3) (Aer) [de pasajeros] cabin; [de pilotos] cockpitcabina de mando — (Aer) flight deck, cockpit
4) (Náut) bridge* * *1)a) ( vestuario) cubicle, stall (AmE)b) (de laboratorio de idiomas, estudio de radio) booth2)a) (de camión, grúa) cabb) (Aviac) ( para pilotos) cabina de mando; ( para pasajeros) cabin•* * *= booth, carrel, cockpit, cabin.Ex. Equipment used may be complex and headphones or sound proof booths are necessary = El equipo usado puede ser complejo y se necesitan auriculares o cabinas insonorizadas.Ex. Many libraries provide carrels equipped with power points so that audio-visual equipment can be used.Ex. All technical processes that take place before, during and directly after the flight are taken down automatically by the flight recorder in the cockpit.Ex. Cabins on the upper decks usually cost more than those on the lower decks.----* cabina del piloto = aircraft cockpit.* cabina de peaje = tollbooth [toll booth].* cabina de teléfonos = public call box, telephone booth, telephone box, call-box [callbox].* cabina telefónica = telephone booth, telephone box, public call box, call-box [callbox].* personal de cabina = cabin crew.* tripulación de cabina = cabin crew.* videocabina = video booth.* * *1)a) ( vestuario) cubicle, stall (AmE)b) (de laboratorio de idiomas, estudio de radio) booth2)a) (de camión, grúa) cabb) (Aviac) ( para pilotos) cabina de mando; ( para pasajeros) cabin•* * *= booth, carrel, cockpit, cabin.Ex: Equipment used may be complex and headphones or sound proof booths are necessary = El equipo usado puede ser complejo y se necesitan auriculares o cabinas insonorizadas.
Ex: Many libraries provide carrels equipped with power points so that audio-visual equipment can be used.Ex: All technical processes that take place before, during and directly after the flight are taken down automatically by the flight recorder in the cockpit.Ex: Cabins on the upper decks usually cost more than those on the lower decks.* cabina del piloto = aircraft cockpit.* cabina de peaje = tollbooth [toll booth].* cabina de teléfonos = public call box, telephone booth, telephone box, call-box [callbox].* cabina telefónica = telephone booth, telephone box, public call box, call-box [callbox].* personal de cabina = cabin crew.* tripulación de cabina = cabin crew.* videocabina = video booth.* * *A1 (de ducha) cubicle, stall ( AmE)2 (de un laboratorio de idiomas) boothCompuestos:control roompress boxprojection roomvoting boothvoting booth● cabina telefónica or de teléfonostelephone booth o ( BrE) boxB1 (de un camión, una grúa) cabCompuesto:flight deck* * *
cabina sustantivo femenino
1
◊ cabina telefónica telephone booth o (BrE) box
2
(— en avión pequeño) cockpit;
( para pasajeros) cabin
cabina sustantivo femenino cabin
(de un conductor) cab
(de teléfono) telephone box, US telephone booth
' cabina' also found in these entries:
English:
booth
- cab
- cabin
- cockpit
- telephone box
- voting booth
- box
- call
- cock
- cubicle
- flight
- phone
- telephone
- toll
* * *cabina nf1. [cuartito] booth;[de ascensor] Br lift, US car; [de teleférico] car; [en laboratorio de idiomas] booth; [de peaje] tollbooth cabina de comentaristas [en estadio] commentary box o US booth;cabina electoral polling booth, voting booth;cabina de interpretación interpreters' booth;cabina de traducción interpreters' booth2. [vestuario] [en playa] bathing hut;[en piscina] changing cubicle3. [de avión] [de piloto de avioneta] cockpit;[de piloto de aeronave, bombardero] flight deck, cockpit; [de los pasajeros] (passenger) cabin cabina de mandos flight deck;cabina presurizada pressurized cabin4. [de camión, grúa] cab;[de coche de carreras] cockpit cabina espacial space capsule* * *f cabin* * *cabina nf1) : cabin2) : booth3) : cab (of a truck), cockpit (of an airplane)* * *cabina n (de barco) cabin -
55 аппарат
apparatus, device, set, process vessel хим.* * *аппара́т м.
apparatusабсорбцио́нный аппара́т — absorberаэрацио́нный аппара́т — aeratorаэрозо́льный аппара́т — aerosol generatorаппара́т Бе́кка — paper smoothness and air flow measuring apparatusботвоотводя́щий аппара́т — vine dividing unitботвосреза́ющий аппара́т — vine cutterброди́льный аппара́т — fermenterбры́згальный аппара́т текст. — sprinkling apparatusбуквопеча́тающий аппара́т — printerбуквопеча́тающий, ле́нточный аппара́т — tape printerбуквопеча́тающий, руло́нный аппара́т — page printerбуквопеча́тающий, синхро́нный аппара́т — synchronous printerбуквопеча́тающий, стартсто́пный аппара́т — start-stop printerаппара́т Ва́рбурга — Warburg vesselва́рочно-промывно́й аппара́т — boiling and washing apparatusва́рочный аппара́т — boiling apparatus; cookerвоздухораздели́тельный аппара́т — air-fractionating apparatusвы́бойный аппара́т пищ. — flour packing machine, flour packer, flour sackerвы́бойный, весово́й автомати́ческий аппара́т — auto-weigher flour packerвыпарно́й аппара́т1. evaporator2. хим. concentrator (e. g., phosphoric acid concentrator)выпарно́й, ва́куумный аппара́т с тру́бчатым калориза́тором — calandria-type vacuum panвыпарно́й, вертика́льный аппара́т — vertical-tube evaporatorвыпарно́й, горизонта́льный аппара́т — horizontal-tube evaporatorвыпарно́й аппара́т Ке́стнера — Kestner evaporatorвыпарно́й, многоко́рпусный аппара́т — multiple-effect evaporatorвыпарно́й, одноко́рпусный аппара́т — single-effect evaporatorвыпарно́й, плё́ночный аппара́т — climbing-film evaporatorвыпарно́й аппара́т с гре́ющей ка́мерой — calandria evaporatorвыпарно́й аппара́т с есте́ственной циркуля́цией — natural circulation evaporatorвыпарно́й аппара́т с змеевико́вой пове́рхностью нагре́ва — coil evaporatorвыпарно́й аппара́т с интенси́вной циркуля́цией — flash boiler, high-speed evaporatorвыпарно́й аппара́т с иску́сственной циркуля́цией — forced-circulation evaporatorвыпарно́й аппара́т с калориза́тором — calandria evaporatorвыпарно́й аппара́т с парово́й руба́шкой — steam-jacketed evaporatorвыпарно́й аппара́т с принуди́тельной циркуля́цией — forced-circulation evaporatorвыпарно́й аппара́т с распыле́нием жи́дкости — spray evaporatorвыпарно́й, сунду́чный аппара́т — steam-chest evaporatorвыра́внивающий аппара́т с.-х. — levelling device, levellerвыра́внивающий, ди́сковый аппара́т с.-х. — disk-type levelling deviceвыра́внивающий, па́льчатый аппара́т с.-х. — finger-type levelling deviceвыра́внивающий, ремё́нный аппара́т с.-х. — belt-type levelling deviceвыра́внивающий, цепно́й аппара́т с.-х. — chain-type levelling deviceвыра́внивающий, шне́ковый аппара́т с.-х. — worm-type levelling deviceвыса́живающий аппара́т — planting attachment, planting mechanismвыса́ливающий аппара́т — desalting apparatusвысева́ющий аппара́т — (seed) distributor, seeding apparatus, seed-feeding [seeding, seed-sowing] mechanism, feed runвысева́ющий, ба́ночный аппара́т — seed hopperвысева́ющий, ди́сковый аппара́т — disk seeding mechanismвысева́ющий, кату́шечный аппара́т — roller seeding mechanismвысева́ющий, мотылько́вый аппара́т — agitator [rotary-winged] feedвысева́ющий, яче́исто-ди́сковый аппара́т — disk-cell seeding mechanismаппара́т высо́кой вы́тяжки текст. — high-draft mechanismвыщела́чивающий аппара́т — leaching vatгазоопа́ливающий аппара́т текст. — gassing frame, gas singeing machine, gas singerаппара́т гальваниза́ции — galvanization apparatusаппара́т гаше́ния и́звести — lime slaking apparatusгвоздеподаю́щий аппара́т — nail delivery apparatusгра́бельный аппара́т с.-х. — rake apparatusграмза́писи аппара́т — phonograph recorderдвукра́тный аппара́т свз. — double multiplex apparatusдвухпрочё́сный аппара́т текст. — double cardдвухпрочё́сный, камво́льный аппара́т текст. — double-worsted cardдекатиро́вочный аппара́т текст. — steaming apparatusдели́тельный аппара́т — indexing headдиатерми́ческий аппара́т мед. — diathermic apparatusдиффузио́нный аппара́т — diffuserаппара́т для автомати́ческого подъё́ма воды́ — water ramаппара́т для доза́ривания плодо́в — after-ripening apparatusаппара́т для извлече́ния семя́н из плодо́в — seed extractorаппара́т для ка́рдной ле́нты, обтяжно́й — card-mounting machineаппара́т для краше́ния пря́жи в мотка́х — hank dyeing machineаппара́т для мо́крого обогаще́ния ру́дной ме́лочи — fine-ore wet concentratorаппара́т для обогаще́ния шла́мов — sludge millаппара́т для оглуше́ния скота́ пе́ред убо́ем — stunnerаппара́т для омыле́ния жиро́в — saponifier, fat splitting tankаппара́т для определе́ния молекуля́рного ве́са — molecular-weight apparatusаппара́т для определе́ния то́чки кипе́ния — boiling-point apparatusаппара́т для предотвраще́ния на́кипи, ультразвуково́й — ultrasonic descalerаппара́т для приготовле́ния сы́воротки мед. — inspissatorаппара́т для приё́ма ко́да — code detecting apparatusаппара́т для прожига́ния лё́тки — tapping apparatus, electrical tapperаппара́т для ре́зки кирпи́чного бру́са — brick cutterаппара́т для чте́ния микрофи́льмов — microfilm reader, microfilm viewerаппара́т для шли́хты, заме́шивающий текст. — sizing mixing apparatusдождева́льный аппара́т — sprinklerдождева́льный, дальнестру́йный аппара́т — long-range sprinklerдождева́льный, короткостру́йный аппара́т — short-range sprinklerдождева́льный, среднестру́йный аппара́т — medium-range sprinklerдои́льный аппара́т — milking unit, milkerдои́льный, двухта́ктный аппара́т — two-phase milking unitдои́льный, трёхта́ктный аппара́т — three-phase milking unitаппара́т до́менной пе́чи, засыпно́й — double bell-and-hopper, cup-and-coneдробестру́йный аппара́т — shot-blasterдрожжерасти́льный аппара́т — yeast-growing apparatus, yeast machineдыха́тельный аппара́т (напр. горноспасательный) — breathing apparatus, respiratorжезлово́й аппара́т — token instrumentзакру́чивающий аппара́т ( турбины) — swirling device, swirling vanesзапа́рочный аппара́т текст. — steam chamber, steam chestзапа́рочный аппара́т для кро́мок текст. — selvedge steaming apparatusзаряжа́ющий аппара́т горн. — blast loading apparatusзвукозапи́сывающий аппара́т — sound recorderзвукомонта́жный аппара́т — (film) editing machine, (picture and sound) editorзолосмывно́й аппара́т — ash-sluicing deviceзолоула́вливающий аппара́т — ash collectorизвестегаси́льный аппара́т — slaker, lime slaking apparatusаппара́т измере́ния вя́зкости смол — tar testerаппара́т иску́сственного дыха́ния мед. — reviving [resuscitation] apparatusаппара́т иску́сственного кровообраще́ния — heart-lung machine, artificial blood-circulation apparatusаппара́т испыта́ния труб — pipe proverкантова́льный аппара́т — tilter, turn-over device, manipulator, positionerкарамелева́рочный аппара́т — sugar cookerкарамелева́рочный аппара́т плё́ночного ти́па — microfilm sugar cookerкарбонизацио́нный аппара́т — carbonizing apparatusка́ссовый аппара́т — cash registerка́ссовый, электри́ческий аппара́т — electric cash registerкинокопирова́льный аппара́т — (motion-picture) film printerкинопроекцио́нный аппара́т — motion-picture [cine] projectorкиносъё́мочный аппара́т — cine [motion-picture] cameraкиносъё́мочный, подво́дный аппара́т — underwater cine cameraкиносъё́мочный, скоростно́й аппара́т — high-speed cine cameraкиносъё́мочный, узкоплё́ночный аппара́т — substandard cine cameraаппара́т Ки́ппа хим. — Kipp generatorклеево́й аппара́т ( в сигаретной машине) — glu(e)ing apparatusкоммутацио́нный аппара́т — switching deviceконденсацио́нный аппара́т — condenserкондицио́нный аппара́т текст. — conditioning ovenконта́ктный аппара́т хим. — catalytic reactorконта́ктный аппара́т окисле́ния хлори́стого водоро́да — decomposing furnaceкопирова́льный аппара́т1. ( в фотографии) printer; ( в кинематографии) film printer2. метал. tracer3. ( множительный) duplicatorкопирова́льный, электрофотографи́ческий аппара́т — electrophotographic copying machineкопти́льный аппара́т — smoking apparatusкопти́льный, конве́йерный аппара́т — conveyer smoking apparatusкопти́льный, стациона́рный аппара́т — stationary smoking apparatusкосми́ческий лета́тельный аппара́т [КЛА] — spacecraft, space [interplanetary, interstellar, space-borne] vehicleвозвраща́ть косми́ческий лета́тельный аппара́т — recover a spacecraftвыводи́ть косми́ческий лета́тельный аппара́т на орби́ту — orbit a spacecraft, place [put, inject] a spacecraft in orbitзапуска́ть косми́ческий лета́тельный аппара́т — launch a spacecraftкосми́ческий лета́тельный аппара́т сближа́ется с, напр. други́м КЛА — the spacecraft closes with, e. g., another space vehicleразвё́ртывать косми́ческий лета́тельный аппара́т на 180° пе́ред стыко́вкой — transpose a space vehicle before dockingследи́ть за косми́ческим лета́тельным аппара́том — track a space vehicleсостыко́вывать косми́ческий лета́тельный аппара́т — dock a spacecraftспуска́ть косми́ческий лета́тельный аппара́т с орби́ты — de-orbit a space vehicleкосми́ческий лета́тельный, авари́йно-спаса́тельный аппара́т — rescue space vehicleкосми́ческий лета́тельный, автомати́ческий аппара́т — automatic [automatically controlled, unmanned] space vehicleкосми́ческий лета́тельный, возвраща́емый аппара́т — recoverable space vehicleкосми́ческий лета́тельный аппара́т для иссле́дований — space probeкосми́ческий лета́тельный аппара́т для полё́та на Луну́ — Moon-mission spacecraftкосми́ческий лета́тельный аппара́т для поса́дки на Луну́ — lunar-landing vehicleкосми́ческий лета́тельный, маневри́рующий аппара́т — manoeuvrable space vehicleкосми́ческий лета́тельный, межплане́тный аппара́т — interplanetary space vehicleкосми́ческий лета́тельный аппара́т многора́зового примене́ния — reusable space vehicleкосми́ческий лета́тельный, многоступе́нчатый аппара́т — multistage space vehicleкосми́ческий лета́тельный, одноступе́нчатый аппара́т — one-stage space vehicleкосми́ческий лета́тельный, орбита́льный аппара́т — orbital space vehicle, orbiting spacecraft, orbiterкосми́ческий лета́тельный, орбита́льный тра́нспортный аппара́т — earth-orbital transportкосми́ческий лета́тельный аппара́т, рассчи́танный на вход в атмосфе́ру — re-entry space vehicleкосми́ческий лета́тельный аппара́т с аэродинами́ческим вхо́дом в атмосфе́ру — aerodynamic-re-entry space vehicleкосми́ческий лета́тельный аппара́т с баллисти́ческим вхо́дом в атмосфе́ру — ballistic-re-entry space vehicleкосми́ческий лета́тельный аппара́т с жё́сткой поса́дкой — rough-landing spacecraftкосми́ческий лета́тельный аппара́т с мя́гкой поса́дкой — soft-landing spacecraftкосми́ческий лета́тельный аппара́т со сме́нным экипа́жем — crew-exchange space vehicleкосми́ческий лета́тельный, спуска́емый аппара́т — descent stage, descent module, descent space vehicle, descent capsule, landing moduleкосми́ческий лета́тельный, стабилизи́рованный аппара́т — non-tumbling [stabilized] space vehicleкосми́ческий лета́тельный аппара́т с экипа́жем на борту́ — manned spacecraftкосми́ческий лета́тельный, управля́емый аппара́т — piloted space vehicleкосми́ческий лета́тельный, челно́чный аппара́т — space ferryкраси́льный аппара́т — dyeing machineкраси́льный аппара́т для пря́жи на пако́вках — package dyeing machineкраси́льный аппара́т для шерстяно́го волокна́ — loose wool dyeing machineкраси́льный, проходно́й аппара́т — continuous dyeing machineкра́сочный, каска́дный аппара́т полигр. — continuous ink feed systemкуфтова́льный аппара́т текст. — knotting machineлета́тельный аппара́т [ЛА] — flying vehicleлета́тельный, атмосфе́рный аппара́т — atmospheric vehicleлета́тельный, аэродинами́ческий аппара́т — aerodynamic vehicleлета́тельный аппара́т без ускори́теля — unboosted vehicleлета́тельный, беспило́тный аппара́т — pilotless [unmanned] vehicle, pilotless [unmanned] aircraft, droneлета́тельный, винтокры́лый аппара́т — rotorcraftлета́тельный, возду́шно-косми́ческий аппара́т — aerospace [space-air] vehicle, aerospacecraftлета́тельный, возду́шный аппара́т — aircraftлета́тельный, гиперзвуково́й аппара́т — hypersonic aircraftлета́тельный аппара́т да́льнего де́йствия — long-range aircraftлета́тельный аппара́т для испыта́ния систе́м управле́ния — control-test vehicleлета́тельный, дозвуково́й аппара́т — subsonic aircraft, subsonic vehicleлета́тельный аппара́т жё́сткой поса́дки — impactorлета́тельный, крыла́тый аппара́т — lifting [winged, aerodynamic] vehicleлета́тельный аппара́т ле́гче во́здуха — lighter-than-air aircraftлета́тельный аппара́т многокра́тного примене́ния — reusable vehicleлета́тельный, невозвраща́емый аппара́т — nonrecoverable vehicleлета́тельный, неуправля́емый аппара́т — unguided [free-flight, ballistic] vehicleлета́тельный аппара́т однора́зового примене́ния — expendable aircraftлета́тельный, околозвуково́й аппара́т — transonic aircraft, transonic vehicleлета́тельный, пилоти́руемый аппара́т — piloted [manned] aircraftлета́тельный, плани́рующий крыла́тый аппара́т — winged gliderлета́тельный аппара́т радиолокацио́нного дозо́ра — radar picket aircraftлета́тельный, раке́тный аппара́т — rocket-propelled vehicleлета́тельный, рикошети́рующий аппара́т — skip vehicleлета́тельный аппара́т с большо́й да́льностью полё́та — long-range aircraftлета́тельный аппара́т с вертика́льными взлё́том и поса́дкой — vertical take-off and landing [VTOL] aircraftлета́тельный, с вертика́льными взлё́том и поса́дкой, винтокры́лый аппара́т — VTOL rotorcraftлета́тельный аппара́т с вертика́льными и укоро́ченными взлё́том и поса́дкой — vertical/ short take-off and landing [V/ STOL] aircraftлета́тельный, сверхзвуково́й аппара́т — supersonic aircraftлета́тельный аппара́т с высо́ким аэродинами́ческим ка́чеством — high lift-to-drag [high-L/ D] vehicleлета́тельный аппара́т с двухто́пливным дви́гателем — dual-fuel vehicleлета́тельный аппара́т с ма́лым аэродинами́ческим ка́чеством — low lift-to-drag [low-L/ D] aircraftлета́тельный аппара́т с несу́щим ко́рпусом — lifting(-body) aircraftлета́тельный аппара́т с ни́зким аэродинами́ческим ка́чеством — low lift-to-drag [low-L/ D] vehicleлета́тельный аппара́т, создаю́щий подъё́мную си́лу — lifting aircraftлета́тельный аппара́т с прямото́чным возду́шно-реакти́вным дви́гателем — ram-jet aircraftлета́тельный аппара́т с ускори́телем — boosted vehicleлета́тельный аппара́т тяжеле́е во́здуха — heavier-than-air aircraftлета́тельный, управля́емый аппара́т — controlled [guided] vehicleлета́тельный, эксперимента́льный аппара́т — experimental aircraftлопа́точный аппара́т ( турбины) — blading, blade systemлуди́льный аппара́т — tinning stackлущи́льный аппара́т — hulling unitлюминесце́нтный диагности́ческий аппара́т — fluorescent diagnostic apparatusаппара́т магни́тной звукоза́писи — magnetic tape recorderмаркиро́вочный аппара́т — branderмассообме́нный аппара́т — mass-transfer apparatusматемати́ческий аппара́т (совокупность математических зависимостей и отношений, используемых в данной науке) — a body of mathematicsма́трично-суши́льный аппара́т — matrix dryerаппара́т микши́рования зву́ка кфт. — re-recorderмногокра́тный аппара́т свз. — multiplex apparatusмо́ечный аппара́т — washing unit, washerмо́ечный аппара́т для пипе́ток — pipette rinsing machineмолоти́льный аппара́т — threshing mechanismмолоти́льный, би́льный аппара́т — rasp-bar threshing mechanismмолоти́льный, зубово́й аппара́т — peg-type threshing mechanismмолоти́льный, штифтово́й аппара́т — peg-type threshing mechanismморози́льный аппара́т — freezing apparatusмя́льный аппара́т — breaking unitнабо́рный аппара́т — composing apparatus, composing machineаппара́т на возду́шной поду́шке — hovercraft, cushioncraft, ground-effect machine, air-cushion vehicle, ACVаппара́т на возду́шной поду́шке с боковы́ми сте́нками — sidewaller, sidewall hovercraftаппара́т на возду́шной поду́шке с колё́сным шасси́ — wheeled ACV, wheeled air-cushion vehicleаппара́т на возду́шной поду́шке с кольцево́й струё́й — annular jet ACV, annular jet air-cushion vehicleнамагни́чивающий аппара́т — magnetizing deviceнамо́точный аппара́т — coiling [winding] apparatusнаправля́ющий аппара́т акти́вной турби́ны — nozzleнаправля́ющий аппара́т вентиля́тора — guide vanesнаправля́ющий, входно́й аппара́т вентиля́тора — inlet vanes, inlet vane deviceнаправля́ющий, прямо́й аппара́т центробе́жного компре́ссора — forward channelнаправля́ющий аппара́т реакти́вной турби́ны — guide caseнаправля́ющий, ули́точный аппара́т — scrollнаправля́ющий, упрощё́нный аппара́т — louver-damper deviceнаправля́ющий аппара́т центробе́жного компре́ссора — return channelнумерова́льный аппара́т полигр. — paging machineобводно́й аппара́т прок. — repeaterобду́вочный аппара́т тепл. — sootblower, blowerобду́вочный, выдвижно́й аппара́т тепл. — retractable sootblowerобду́вочный, глубоковыдвижно́й аппара́т тепл. — long-retracting sootblowerобду́вочный, кача́ющийся аппара́т тепл. — oscillating sootblowerобду́вочный, маловыдвижно́й аппара́т тепл. — short-retracting sootblowerобду́вочный, невыдвижно́й аппара́т тепл. — non-retractable [non-retracting] sootblowerобду́вочный, неподви́жный аппара́т тепл. — stationary sootblowerобду́вочный, парово́й аппара́т тепл. — steam sootblowerобду́вочный, поворо́тный аппара́т тепл. — rotating sootblowerобезжи́ривающий аппара́т — fat extraction apparatusобжа́рочный аппара́т — roasting machine, roasterобжа́рочный, парово́й аппара́т — steam heated roasting machineобжа́рочный, сфери́ческий аппара́т — globe [spherical] roasterобжа́рочный, цилиндри́ческий аппара́т — cylinder roasterобжи́мный аппара́т ( в укупорочной машине) — squeezerобогати́тельный аппара́т — ore-dressing apparatusоднопрочё́сный аппара́т — single-cylinder cardопа́лочный аппара́т — singerаппара́т определе́ния то́чки плавле́ния — fusing-point testerотбе́ливающий аппара́т — bleacherотбе́льный аппара́т пищ. — bleaching vessel, bleaching tank, bleacherотбе́льный аппара́т для ма́сла — oil-bleaching apparatusотде́лочный стереоти́пный аппара́т — stereo-type shaver-millerотжи́мный аппара́т — squeezing arrangementотливно́й аппара́т полигр. — casting mechanism, casting machine, casterотливно́й, стереоти́пный аппара́т — stereotype caster, stereotype casting machineотсто́йный аппара́т — settlerочё́сывающий аппара́т с.-х. — combing unitаппара́т очи́стки шля́пок текст. — flat stripping apparatusочистно́й аппара́т с.-х. — cleaning unitпая́льный аппара́т ( для твёрдых припоев) — brazing apparatusпая́льный аппара́т для пил — saw-brazing clampперего́нный аппара́т — distiller, distillatory kettle, stillперего́нный, ва́куумный аппара́т — vacuum stillперего́нный аппара́т для отго́на лё́гких фра́кций — stripping stillперего́нный аппара́т с па́дающей плё́нкой — falling-film stillперего́нный, тру́бчатый аппара́т — pipe stillаппара́т переза́писи зву́ка — re-recorderпескостру́йный аппара́т — sand blasterпита́ющий аппара́т — feed unitплатиро́вочный аппара́т — plating attachmentполимеризацио́нный аппара́т — polymerizerполирова́льный аппара́т — polishing apparatusаппара́т порцио́нного сбро́са с.-х. — batch dropperпосудомо́ечный электри́ческий аппара́т — electric dish washerпочаткоотделя́ющий аппара́т — snapping unitпроекцио́нный аппара́т — ( в фотографии) projector; ( в кинематографии) motion-picture projectorаппара́т промы́вки, охлажде́ния и осуше́ния во́здуха — cooling and dehumidifying air washerпромывно́й аппара́т1. текст. rinser2. бум., рез. washerпромывно́й аппара́т для пивно́й дроби́ны — spargerпромывно́й аппара́т под давле́нием — pressure washing kettleпропи́точный аппара́т — impregnatorпротивоотма́рочный аппара́т полигр. — anti-set-off equipmentразбры́згивающий аппара́т — sprayerразли́вочный аппара́т — racker, racking machineраспыли́тельный аппара́т — atomizer, sprayerреакцио́нный аппара́т хим. — reactor, reaction vesselреакцио́нный аппара́т непреры́вного де́йствия хим. — continuous (chemical) reactorреакцио́нный аппара́т периоди́ческого де́йствия хим. — bath (chemical) reactorреакцио́нный аппара́т с меша́лкой хим. — stirred-tank reactorре́жущий аппара́т с.-х. — cutterbarре́жущий, ди́сковый аппара́т с.-х. — disk cutterbar, disk cutterheadректификацио́нный аппара́т — rectifying still, rectifying apparatus, rectifierрентге́новский аппара́т — X-ray unitрентге́новский, передвижно́й аппара́т — mobile X-ray unitрентге́новский, переносно́й аппара́т — portable X-ray unitсамопи́шущий аппара́т — (automatic) recorderсва́рочный аппара́т — welding apparatus, welding unit, welding set, welderсва́рочный, а́томно-водоро́дный аппара́т — atomic-hydrogen welding apparatusсва́рочный, двухдугово́й аппара́т — twin-arc welding setсва́рочный, дугово́й аппара́т — arc welder, arc welding set, arc welding unitсва́рочный, многопостово́й аппара́т — multi-operator welding setсва́рочный, однопостово́й аппара́т — single-operator welding setсветокопирова́льный аппара́т — blue-printing machineскороморози́льный аппара́т — quick-freezing machine, quick-freezing plantскороморози́льный, конве́йерный аппара́т — conveyer quick-freezer, quick-freezing tunnelскороморози́льный, мембра́нный аппара́т — diaphragm quick-freezerскороморози́льный, пли́точный аппара́т — plate quick-freezer, platen-type quick-freezing machine, platen-type quick-freezing plantскороморози́льный, тунне́льный аппара́т — tunnel quick-freezerслухово́й аппара́т — hearing aidслухово́й аппара́т в опра́ве очко́в — eyeglass hearing aidслухово́й, зау́шный аппара́т — behind-the-ear hearing aidсмеси́тельный аппара́т — mixerаппара́т Со́кслета хим. — Soxhlet apparatusсоплово́й аппара́т — nozzle block, nozzle setсоплово́й аппара́т турби́ны — nozzle diaphragmсортиро́вочный аппара́т — sorter, separator, grader, classifierаппара́т с панто́графом, газоре́зательный — pantograph cutterспаса́тельный аппара́т горн. — rescue apparatusспрямля́ющий аппара́т вентиля́тора — directing vanes, flow straightenerспрямля́ющий, лопа́точный аппара́т вентиля́тора — straightening vanesстрига́льный аппара́т текст. — shearing deviceстру́йный аппара́т — jet deviceсуши́льный аппара́т — drying apparatus, dryer, desiccator, drying cabinetсуши́льный аппара́т в кипя́щем сло́е — fluidized-bed dryerтелегра́фный аппара́т — telegraph apparatus, telegraph (set)телегра́фный аппара́т рабо́тает двухполя́рными [двухто́ковыми] посы́лками — the telegraph apparatus uses polar [double-current] pulse signalsтелегра́фный аппара́т рабо́тает ду́плексом — the telegraph set operates on a duplex basisтелегра́фный аппара́т рабо́тает однополя́рными [одното́ковыми] посы́лками — the telegraph apparatus uses neutral [single-current] pulse signalsтелегра́фный аппара́т рабо́тает си́мплексом — the telegraph set operates on a simplex basisтелегра́фный, буквопеча́тающий аппара́т — type-printing apparatus, type printer, (tele)printerбуквопеча́тающий телегра́фный аппара́т печа́тает на, напр. ле́нте — the (tele)printer imprints on, e. g., tapeрабо́тать на буквопеча́тающем телегра́фном аппара́те — operate a (tele)printerтелегра́фный, буквопеча́тающий аппара́т Бодо́ — Boudot type printerтелегра́фный, буквопеча́тающий ле́нточный аппара́т — tape (tele)printerтелегра́фный, буквопеча́тающий руло́нный аппара́т — page printing apparatus, page (tele)printerбуквопеча́тающий телегра́фный руло́нный аппара́т печа́тает на руло́не бума́ге — the page (tele)printer uses a paper rollтелегра́фный, буквопеча́тающий аппара́т Ю́за — Hughes type printerтелегра́фный аппара́т Мо́рзе — Morse apparatusтелегра́фный, передаю́щий аппара́т — sender, sending setтелегра́фный, приё́мный аппара́т — telegraph receiverтелегра́фный, синхро́нный аппара́т — synchronous apparatusтелегра́фный, стартсто́пный аппара́т — start-stop apparatusтелегра́фный, трёхкра́тный аппара́т — triple-multiplex apparatusтелегра́фный, цифрово́й аппара́т — digital telegraph apparatusтелегра́фный, четырёхкра́тный аппара́т — quadruple multiplex apparatusтелегра́фный аппара́т Ю́за — Hughes telegraphтелефо́нный аппара́т — telephone (instrument), telephone (set)включа́ть телефо́нный аппара́т в ли́нию — connect [switch] a telephone set to [into] the lineвключа́ть телефо́нный аппара́т паралле́льно — bridge a telephone to (e. g., a main telephone)подавля́ть щелчки́ в телефо́нном аппара́те — mute clicks in a telephoneтелефо́нный аппара́т включё́н — the telephone is off-hook [in use]телефо́нный аппара́т вы́ключен — the telephone is on-hook [out of use]телефо́нный, абоне́нтский аппара́т ( установленный у абонента) — station set, subset, subscriber's setтелефо́нный, абоне́нтский основно́й аппара́т — main telephone (set)телефо́нный, автомати́ческий аппара́т — брит. automatic telephone (set); амер. dial telephone (set)телефо́нный аппара́т АТС — dial(-operated) telephone (set)телефо́нный, безбатаре́йный аппара́т — sound-powered [voice-operated] telephone (set)телефо́нный, бескоммута́торный аппара́т — intercommunication telephone (set)телефо́нный аппара́т вну́тренней свя́зи — intercommunication telephone (set)телефо́нный, горноспаса́тельный аппара́т — mine rescue telephone (set)телефо́нный, громкоговоря́щий аппара́т — (loud)speaker phone, loudspeaking telephone (set)телефо́нный, диспе́тчерский аппара́т — dispatching [dispatcher's] telephone (set)телефо́нный, доба́вочный аппара́т — extension telephone (set)телефо́нный, моне́тный аппара́т — coin(-operated) telephone (set)телефо́нный, насте́нный аппара́т — wall telephone, wall setтелефо́нный, насто́льный аппара́т — брит. table telephone (instrument); амер. desk telephone, desk setтелефо́нный, паралле́льный аппара́т — extension telephone (set)телефо́нный, полево́й аппара́т — field telephone (set)телефо́нный, противоме́стный аппара́т — anti-sidetone telephone (set)телефо́нный аппара́т ручно́й ста́нции — manual [manually operated] telephone (set)телефо́нный аппара́т с автомати́ческим отбо́ем — automatic clearing telephone (set)телефо́нный аппара́т систе́мы ме́стной батаре́и [МБ] — local-battery [magneto] telephone (set)телефо́нный аппара́т систе́мы центра́льной батаре́и [ЦБ] — common-battery telephone (set)телефо́нный аппара́т с кно́почным набо́ром — key telephone (set)телефо́нный аппара́т с ме́стным эффе́ктом — sidetone telephone (set)телефо́нный аппара́т с микротелефо́нной тру́бкой — handset [hand] telephoneтелефо́нный аппара́т ЦБ — АТС — central-battery dial telephone (set)телефо́нный, ша́хтный аппара́т — mine telephone (set)теплообме́нный аппара́т — heat-exchange apparatusаппара́т терапи́и УВЧ — microwave therapy apparatusтитрова́льный аппара́т — titrating [volumetric] apparatusаппара́т трево́жной сигнализа́ции — alarmтрубоиспыта́тельный аппара́т — pipe testing apparatus, pipe proverтуковысева́ющий аппара́т с.-х. — fertilizer distributor, fertilizer feedтя́говый фрикцио́нный аппара́т — friction draft gearуку́порочный аппара́т ( для бутылок) — capping apparatusфальцева́льно-ре́зальный аппара́т полигр. — folding-and-cutting mechanismфальцева́льный аппара́т полигр. — folderфальцева́льный, четырёхтетра́дный аппара́т полигр. — four-up folderфильтрова́льный аппара́т — filtering apparatusфотографи́ческий аппара́т — photographic camera (см. тж. фотоаппарат)фототелегра́фный аппара́т — facsimile apparatusфототелегра́фный, передаю́щий аппара́т с бараба́нной развё́рткой — drum transmitterфототелегра́фный, приё́мный аппара́т — facsimile receiverфототелегра́фный, приё́мный аппара́т с бараба́нной развё́рткой — drum recorderфототелегра́фный аппара́т с закры́той за́писью — photofacsimile apparatusфототелегра́фный аппара́т с откры́той за́писью — direct-recording facsimile apparatusфототелегра́фный аппара́т с плоскостно́й развё́рткой — flat-bed facsimile apparatusхмелево́й аппара́т — hop apparatusхроматографи́ческий аппара́т — chromatography apparatusцентрализацио́нный аппара́т ж.-д. — interlocker, interlocking device, interlocking gearцентрализацио́нный, пневмати́ческий аппара́т — pneumatic interlocking machineцентрализацио́нный, электри́ческий аппара́т — electric interlocking machineцентрализацио́нный, электромехани́ческий аппара́т — electromechanical interlocking machineцентрализацио́нный, электропневмати́ческий аппара́т — electropneumatic interlocking machineчаесбо́рочный аппара́т — tea-leaf harvesting (picking) deviceчеса́льный аппара́т текст. — cardаппара́т чи́стых культу́р ( дрожжей или бактерий) — pure culture machineшве́йный аппара́т полигр. — sewing bench, sewing press, sewing frameшлакосмывно́й аппара́т — slag-sluicing nozzleшприцева́льный аппара́т — sprayer, sprinklerэкстракцио́нный аппара́т пищ. — extraction vessel, extraction unitэлектрографи́ческий аппара́т полигр. — electrographic machineэлектрожезлово́й аппара́т ж.-д. — token [electrotoken] instrumentаппара́т электронарко́за — electronarcosis apparatusаппара́т электрофоре́за — electrophoresis apparatus* * * -
56 stereophonic
[sterɪəˈfɔnɪk] adjective1) (of recorded or broadcast sound) giving the effect of coming from different directions, and usually requiring two loudspeakers placed apart from each other.إستيريوفوني: مُجَسَّم الصَّوْت2) (of equipment, apparatus etc) intended for recording or playing such sound.مُسْتَعْمَل لِتَسْجيل أو تَشْغيل صوت إستيريوفوني -
57 stereoton-...
((of equipment, apparatus etc) intended for recording or playing such sound.) stereophonic -
58 stereo
[ˈsterɪəu]1. adjectivea stereo recording.
2. noun1) stereophonic equipment, especially a record-player:جِهاز راديو وأسْطُواناتHave you got (a) stereo?
2) stereophonic sound or stereoscopic vision:إستيريوفوني: صوْت مُجَسَّمrecorded/filmed in stereo.
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59 Edison, Thomas Alva
SUBJECT AREA: Architecture and building, Automotive engineering, Electricity, Electronics and information technology, Metallurgy, Photography, film and optics, Public utilities, Recording, Telecommunications[br]b. 11 February 1847 Milan, Ohio, USAd. 18 October 1931 Glenmont[br]American inventor and pioneer electrical developer.[br]He was the son of Samuel Edison, who was in the timber business. His schooling was delayed due to scarlet fever until 1855, when he was 8½ years old, but he was an avid reader. By the age of 14 he had a job as a newsboy on the railway from Port Huron to Detroit, a distance of sixty-three miles (101 km). He worked a fourteen-hour day with a stopover of five hours, which he spent in the Detroit Free Library. He also sold sweets on the train and, later, fruit and vegetables, and was soon making a profit of $20 a week. He then started two stores in Port Huron and used a spare freight car as a laboratory. He added a hand-printing press to produce 400 copies weekly of The Grand Trunk Herald, most of which he compiled and edited himself. He set himself to learn telegraphy from the station agent at Mount Clements, whose son he had saved from being run over by a freight car.At the age of 16 he became a telegraphist at Port Huron. In 1863 he became railway telegraphist at the busy Stratford Junction of the Grand Trunk Railroad, arranging a clock with a notched wheel to give the hourly signal which was to prove that he was awake and at his post! He left hurriedly after failing to hold a train which was nearly involved in a head-on collision. He usually worked the night shift, allowing himself time for experiments during the day. His first invention was an arrangement of two Morse registers so that a high-speed input could be decoded at a slower speed. Moving from place to place he held many positions as a telegraphist. In Boston he invented an automatic vote recorder for Congress and patented it, but the idea was rejected. This was the first of a total of 1180 patents that he was to take out during his lifetime. After six years he resigned from the Western Union Company to devote all his time to invention, his next idea being an improved ticker-tape machine for stockbrokers. He developed a duplex telegraphy system, but this was turned down by the Western Union Company. He then moved to New York.Edison found accommodation in the battery room of Law's Gold Reporting Company, sleeping in the cellar, and there his repair of a broken transmitter marked him as someone of special talents. His superior soon resigned, and he was promoted with a salary of $300 a month. Western Union paid him $40,000 for the sole rights on future improvements on the duplex telegraph, and he moved to Ward Street, Newark, New Jersey, where he employed a gathering of specialist engineers. Within a year, he married one of his employees, Mary Stilwell, when she was only 16: a daughter, Marion, was born in 1872, and two sons, Thomas and William, in 1876 and 1879, respectively.He continued to work on the automatic telegraph, a device to send out messages faster than they could be tapped out by hand: that is, over fifty words per minute or so. An earlier machine by Alexander Bain worked at up to 400 words per minute, but was not good over long distances. Edison agreed to work on improving this feature of Bain's machine for the Automatic Telegraph Company (ATC) for $40,000. He improved it to a working speed of 500 words per minute and ran a test between Washington and New York. Hoping to sell their equipment to the Post Office in Britain, ATC sent Edison to England in 1873 to negotiate. A 500-word message was to be sent from Liverpool to London every half-hour for six hours, followed by tests on 2,200 miles (3,540 km) of cable at Greenwich. Only confused results were obtained due to induction in the cable, which lay coiled in a water tank. Edison returned to New York, where he worked on his quadruplex telegraph system, tests of which proved a success between New York and Albany in December 1874. Unfortunately, simultaneous negotiation with Western Union and ATC resulted in a lawsuit.Alexander Graham Bell was granted a patent for a telephone in March 1876 while Edison was still working on the same idea. His improvements allowed the device to operate over a distance of hundreds of miles instead of only a few miles. Tests were carried out over the 106 miles (170 km) between New York and Philadelphia. Edison applied for a patent on the carbon-button transmitter in April 1877, Western Union agreeing to pay him $6,000 a year for the seventeen-year duration of the patent. In these years he was also working on the development of the electric lamp and on a duplicating machine which would make up to 3,000 copies from a stencil. In 1876–7 he moved from Newark to Menlo Park, twenty-four miles (39 km) from New York on the Pennsylvania Railway, near Elizabeth. He had bought a house there around which he built the premises that would become his "inventions factory". It was there that he began the use of his 200- page pocket notebooks, each of which lasted him about two weeks, so prolific were his ideas. When he died he left 3,400 of them filled with notes and sketches.Late in 1877 he applied for a patent for a phonograph which was granted on 19 February 1878, and by the end of the year he had formed a company to manufacture this totally new product. At the time, Edison saw the device primarily as a business aid rather than for entertainment, rather as a dictating machine. In August 1878 he was granted a British patent. In July 1878 he tried to measure the heat from the solar corona at a solar eclipse viewed from Rawlins, Wyoming, but his "tasimeter" was too sensitive.Probably his greatest achievement was "The Subdivision of the Electric Light" or the "glow bulb". He tried many materials for the filament before settling on carbon. He gave a demonstration of electric light by lighting up Menlo Park and inviting the public. Edison was, of course, faced with the problem of inventing and producing all the ancillaries which go to make up the electrical system of generation and distribution-meters, fuses, insulation, switches, cabling—even generators had to be designed and built; everything was new. He started a number of manufacturing companies to produce the various components needed.In 1881 he built the world's largest generator, which weighed 27 tons, to light 1,200 lamps at the Paris Exhibition. It was later moved to England to be used in the world's first central power station with steam engine drive at Holborn Viaduct, London. In September 1882 he started up his Pearl Street Generating Station in New York, which led to a worldwide increase in the application of electric power, particularly for lighting. At the same time as these developments, he built a 1,300yd (1,190m) electric railway at Menlo Park.On 9 August 1884 his wife died of typhoid. Using his telegraphic skills, he proposed to 19-year-old Mina Miller in Morse code while in the company of others on a train. He married her in February 1885 before buying a new house and estate at West Orange, New Jersey, building a new laboratory not far away in the Orange Valley.Edison used direct current which was limited to around 250 volts. Alternating current was largely developed by George Westinghouse and Nicola Tesla, using transformers to step up the current to a higher voltage for long-distance transmission. The use of AC gradually overtook the Edison DC system.In autumn 1888 he patented a form of cinephotography, the kinetoscope, obtaining film-stock from George Eastman. In 1893 he set up the first film studio, which was pivoted so as to catch the sun, with a hinged roof which could be raised. In 1894 kinetoscope parlours with "peep shows" were starting up in cities all over America. Competition came from the Latham Brothers with a screen-projection machine, which Edison answered with his "Vitascope", shown in New York in 1896. This showed pictures with accompanying sound, but there was some difficulty with synchronization. Edison also experimented with captions at this early date.In 1880 he filed a patent for a magnetic ore separator, the first of nearly sixty. He bought up deposits of low-grade iron ore which had been developed in the north of New Jersey. The process was a commercial success until the discovery of iron-rich ore in Minnesota rendered it uneconomic and uncompetitive. In 1898 cement rock was discovered in New Village, west of West Orange. Edison bought the land and started cement manufacture, using kilns twice the normal length and using half as much fuel to heat them as the normal type of kiln. In 1893 he met Henry Ford, who was building his second car, at an Edison convention. This started him on the development of a battery for an electric car on which he made over 9,000 experiments. In 1903 he sold his patent for wireless telegraphy "for a song" to Guglielmo Marconi.In 1910 Edison designed a prefabricated concrete house. In December 1914 fire destroyed three-quarters of the West Orange plant, but it was at once rebuilt, and with the threat of war Edison started to set up his own plants for making all the chemicals that he had previously been buying from Europe, such as carbolic acid, phenol, benzol, aniline dyes, etc. He was appointed President of the Navy Consulting Board, for whom, he said, he made some forty-five inventions, "but they were pigeonholed, every one of them". Thus did Edison find that the Navy did not take kindly to civilian interference.In 1927 he started the Edison Botanic Research Company, founded with similar investment from Ford and Firestone with the object of finding a substitute for overseas-produced rubber. In the first year he tested no fewer than 3,327 possible plants, in the second year, over 1,400, eventually developing a variety of Golden Rod which grew to 14 ft (4.3 m) in height. However, all this effort and money was wasted, due to the discovery of synthetic rubber.In October 1929 he was present at Henry Ford's opening of his Dearborn Museum to celebrate the fiftieth anniversary of the incandescent lamp, including a replica of the Menlo Park laboratory. He was awarded the Congressional Gold Medal and was elected to the American Academy of Sciences. He died in 1931 at his home, Glenmont; throughout the USA, lights were dimmed temporarily on the day of his funeral.[br]Principal Honours and DistinctionsMember of the American Academy of Sciences. Congressional Gold Medal.Further ReadingM.Josephson, 1951, Edison, Eyre \& Spottiswode.R.W.Clark, 1977, Edison, the Man who Made the Future, Macdonald \& Jane.IMcN
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