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1 волны Рэлея
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2 Релеевские волны
Русско-английский словарь нормативно-технической терминологии > Релеевские волны
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3 волна
( на сейсмограмме) event, sea, wave* * *волна́ ж.
waveволна́ вычита́ется — the wave interferes destructivelyподня́ть волну́ ( о ветре) мор. — raise a choppy sea (of wind)рабо́тать на (коро́ткой) волне́ — operate at [on] (short) wavelengthволна́ распространя́ется в результа́те многокра́тного отраже́ния — the wave travels by multiple reflectionволна́ распространя́ется по прямолине́йным траекто́риям радио — the wave is propagated in straight linesволна́ скла́дывается — the wave interferes constructivelyальфе́новские во́лны — Alfen wavesатмосфе́рные во́лны — atmospheric wavesбегу́щая волна́ — travelling waveблужда́ющие во́лны — stray wavesбортова́я волна́ мор. — athwart [beam] seaво́лны вероя́тности — waves of probability, probability wavesвертика́льно поляризо́ванная волна́ — vertically polarized waveвзрывна́я волна́ — blast waveвозвра́тная волна́ — back(ward) waveвозду́шная волна́ — air waveволна́ возмуще́ний аргд. — Mach waveволна́ в свобо́дном простра́нстве — free-space waveвстре́чная волна́ мор. — head [meeting] seaгармони́ческая волна́ — harmonic waveгоризонта́льно поляризо́ванная волна́ — horizontally polarized waveгравитацио́нные во́лны — gravitational wavesграни́чная волна́ ( в волноводе) — boundary [critical, limiting, cut-off] waveво́лны де Бро́йля — associated [de Broglie, matter, particle] wavesдетонацио́нная волна́ — detonation waveдефлаграцио́нная волна́ — deflagration waveдециметро́вые во́лны ( диапазон ультравысоких частот) — decimetric waves (ultra-high-frequency [UHF] band, 300 MHz — 3 GHz)дифраги́рованная волна́ — diffracted waveдли́нные во́лны ( диапазон низких частот) — long [kilometric] waves (low-frequency [LF] band, 30—300 kHz)звукова́я волна́ — acoustic [sound] waveземна́я волна́ — ground waveзонди́рующая волна́ — transmitted waveволна́ изги́ба мех. — flexural waveи́мпульсная волна́ — impulse waveинтерференцио́нная волна́ — interferential waveинфракра́сные во́лны — infra-red wavesионосфе́рная волна́ — ionospheric [sky] waveкапилля́рные во́лны — capillary wavesкилометро́вые во́лны — long [kilometric] waves (low-frequency [LF] band, 30—300 kHz)когере́нтная волна́ — coherent waveво́лны конвекцио́нного то́ка — convection current modesкормова́я волна́ — quarter(ing) seaкоро́ткие во́лны ( диапазон высоких частот) — short [decametric] waves (high-frequency [HF] band, 3—30 MHz)крити́ческая волна́ — boundary [critical, limiting, cut-off] waveлевополяризо́ванная волна́ — left-handed polarized [counter-clockwise-polarized] waveлине́йно-поляризо́ванная волна́ — plane-polarized [linearly polarized] waveмагнитогидродинами́ческие во́лны — magnetohydrodynamic wavesмагно́нная волна́ — magnon waveво́лны мате́рии — associated [de Broglie, matter, particle] wavesметро́вые во́лны ( диапазон весьма высоких частот) — metric waves (very-high-frequency [VHF] band, 30 MHz — 300 MHz)миллиметро́вые во́лны ( диапазон чрезвычайно высоких частот) — millimetric waves (extremely-high-frequency [EHF ] band, 30 GHz — 300 GHz)мириаметро́вые во́лны см. сверхдлинные волнымногокра́тно отражё́нная волна́ — multiple reflection waveмонохромати́ческая волна́ — monochromatic waveво́лны на пове́рхности жи́дкости — capillary wavesволна́ напряже́ний ( механических) — stress waveволна́ напряже́ния, прямоуго́льная — rectangular voltage waveнеобыкнове́нная волна́ — extraordinary [E] waveнеодноро́дная волна́ — inhomogeneous waveнеотражё́нная волна́ — direct [non-reflected] waveносова́я волна́ мор. — bow seaобыкнове́нная волна́ — ordinary [O] waveопо́рная волна́ ( в голографии) — reference waveопти́ческая волна́ — optical waveортогона́льная волна́ — orthogonal waveосновна́я волна́ — fundamental [principal] wave, principal modeотражё́нная волна́ — (от земли, предметов и т. п.) reflected wave; ( от ионосферы) ionospheric [sky] waveпа́дающая волна́ — incident waveпараметри́чески свя́занные во́лны — parametrically coupled wavesперви́чная волна́ — primary waveволна́ перенапряже́ния — voltage surgeпла́зменная волна́ — plasma waveпло́ская волна́ — plane waveплоскополяризо́ванная волна́ — plane-polarized [linearly polarized] waveволна́ пло́тности — density waveпове́рхностная волна́1. мех. surface wave2. ( земная) ground waveполяризо́ванная волна́ — polarized waveволна́ поляризо́ванная, циркуля́рно — circularly polarized waveволна́ поляризо́ванная, эллипти́чески — elliptically polarized waveпопере́чная волна́ — transverse waveпопере́чная, магни́тная волна́ — transverse magnetic [TM] wave, transverse magnetic [TM] modeпопере́чная, электри́ческая волна́ — transverse electric [TE] wave, transverse electric [TE] modeпопере́чная, электромагни́тная волна́ — transverse electromagnetic [TEM] waveпопу́тная волна́ — following seaпосторо́нние во́лны — extraneous wavesправополяризо́ванная волна́ — right-handed polarized [clockwise-polarized] waveпреломлё́нная волна́ — refracted waveпреоблада́ющая волна́ — dominant wave, dominant modeпродо́льная волна́ — longitudinal waveпромежу́точные во́лны — medium high-frequency waves (50—200 m)простра́нственная волна́ — ionospheric [sky] waveпроходя́щая волна́ (в волноводах, линиях передачи) — transmitted waveпряма́я волна́1. радио space wave2. эл. forward waveрассе́янная волна́ — scattered waveрасходя́щиеся во́лны — diverging wavesрезульти́рующая волна́ — resultant waveво́лны Рэ́лея — Rayleigh wavesсантиметро́вые во́лны ( диапазон сверхвысоких частот) — centimetric waves (super-high-frequency [SHF] band, 3 GHz — 30 GHz)сверхдли́нные во́лны ( диапазон весьма низких частот) — very long [myriametric] waves (very-low-frequency [VLF] band, 3 KHz — 30 KHz)волна́ с враща́ющейся пло́скостью поляриза́ции — rotated-plane waveволна́ свя́зи — frequency (setting), channelвыбира́ть волну́ свя́зи зара́нее — preset a frequency [a channel]зафикси́ровать волну́ свя́зи зара́нее — detent a frequency [a channel]набра́ть волну́ свя́зи — set up a frequency [a channel]волна́ сдви́га мех. — shear waveсейсми́ческие во́лны — seismic wavesволна́ сжа́тия — compression waveсинусоида́льная волна́ — sine waveсопряжё́нная волна́ — partial [associated] waveспада́ющая волна́ — decaying [collapsing] waveсре́дние во́лны ( диапазон средних частот) — medium [hectometric] waves (medium-frequency [MF] band, 300 kHz—3 MHz)стоя́чая волна́ — standing waveсубмиллиметро́вые во́лны — submillimetric wavesсфери́ческая волна́ — spherical waveсходя́щиеся во́лны — converging [convergent] wavesтемперату́рные во́лны — temperature wavesтепловы́е во́лны — heat wavesволна́ ти́па E — E-wave, TM waveволна́ ти́па EH — EH [TEM] waveволна́ ти́па H — H-wave, TE waveволна́ ти́па TE — TE wave, H-waveволна́ ти́па TM — TM wave, E-waveволна́ то́ка — current waveтропосфе́рная волна́ — tropospheric waveво́лны тяготе́ния — gravitational wavesуда́рная волна́ — shock waveуда́рная, головна́я волна́ — bow shock waveультразвукова́я волна́ — supersonic waveультракоро́ткие во́лны ( все диапазоны короче 10 м) — ultrashort waves (shorter than 10 m)упру́гая волна́ — elastic waveфа́зовые во́лны — associated [de Broglie, matter, particle] wavesфокуси́рованная волна́ — beam (sound) waveфоно́нная волна́ — phonon waveхолоста́я волна́ — idler waveцентри́рованная волна́ — centered [focused] waveциклотро́нная волна́ — cyclotron waveцилиндри́ческая волна́ — cylindrical waveшарова́я волна́ — spherical waveэлектромагни́тные во́лны — electromagnetic waves -
4 волны Рэлея
Engineering: Rayleigh waves -
5 Maxwell, James Clerk
[br]b. 13 June 1831 Edinburgh, Scotlandd. 5 November 1879 Cambridge, England[br]Scottish physicist who formulated the unified theory of electromagnetism, the kinetic theory of gases and a theory of colour.[br]Maxwell attended school at the Edinburgh Academy and at the age of 16 went on to study at Edinburgh University. In 1850 he entered Trinity College, Cambridge, where he graduated four years later as Second Wrangler with the award of the Smith's Prize. Two years later he was appointed Professor at Marischal College, Aberdeen, where he married the Principal's daughter. In 1860 he moved to King's College London, but on the death of his father five years later, Maxwell returned to the family home in Scotland, where he continued his researches as far as the life of a gentleman farmer allowed. This rural existence was interrupted in 1874 when he was persuaded to accept the chair of Cavendish Professor of Experimental Physics at Cambridge. Unfortunately, in 1879 he contracted the cancer that brought his brilliant career to an untimely end. While at Cambridge, Maxwell founded the Cavendish Laboratory for research in physics. A succession of distinguished physicists headed the laboratory, making it one of the world's great centres for notable discoveries in physics.During the mid-1850s, Maxwell worked towards a theory to explain electrical and magnetic phenomena in mathematical terms, culminating in 1864 with the formulation of the fundamental equations of electromagnetism (Maxwell's equations). These equations also described the propagation of light, for he had shown that light consists of transverse electromagnetic waves in a hypothetical medium, the "ether". This great synthesis of theories uniting a wide range of phenomena is worthy to set beside those of Sir Isaac Newton and Einstein. Like all such syntheses, it led on to further discoveries. Maxwell himself had suggested that light represented only a small part of the spectrum of electromagnetic waves, and in 1888 Hertz confirmed the discovery of another small part of the spectrum, radio waves, with momentous implications for the development of telecommunication technology. Maxwell contributed to the kinetic theory of gases, which by then were viewed as consisting of a mass of randomly moving molecules colliding with each other and with the walls of the containing vessel. From 1869 Maxwell applied statistical methods to describe the molecular motion in mathematical terms. This led to a greater understanding of the behaviour of gases, with important consequences for the chemical industry.Of more direct technological application was Maxwell's work on colour vision, begun in 1849, showing that all colours could be derived from the three primary colours, red, yellow and blue. This enabled him in 1861 to produce the first colour photograph, of a tartan. Maxwell's discoveries about colour vision were quickly taken up and led to the development of colour printing and photography.[br]BibliographyMost of his technical papers are reprinted in The Scientific Papers of J.Clerk Maxwell, 1890, ed. W.D.Niven, Cambridge, 2 vols; reprinted 1952, New York.Maxwell published several books, including Theory of Heat, 1870, London (1894, 11th edn, with notes by Lord Rayleigh) and Theory of Electricity and Magnetism, 1873, Oxford (1891, ed. J.J.Thomson, 3rd edn).Further ReadingL.Campbell and W.Garnett, 1882, The Life of James Clerk Maxwell, London (the standard biography).J.J.Thomson (ed.), 1931, James Clerk Maxwell 1831–1931, Cambridge. J.G.Crowther, 1932, British Scientists of the Nineteenth Century, London.LRD
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