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21 Chain, Ernst Boris
SUBJECT AREA: Medical technology[br]b. 19 June 1906 Berlin, Germanyd. 12 August 1979 Ireland[br]Anglo-German biochemist and physiologist, co-worker with Florey in the isolation of sufficient supplies of the antibiotic penicillin for clinical use during wartime.[br]Chain graduated in Berlin at the Charite Hospital in 1930. A refugee from political persecution, in 1933 he went to the School of Biochemistry in Cambridge, and in 1935 moved to the School of Pathology at Oxford. He became a British subject in 1939. His interests had involved the study of enzymes and the isolation of physiologically active substances from natural sources. In 1938 he drew Florey's attention to Fleming's note of 1929 reporting the bacterial growth inhibiting qualities of Penicillium mould. Using makeshift equipment and with little initial support, they isolated small quantities of penicillin, which they were then able to use clinically with dramatic effect.Chain had always hoped for adequate resources to develop penicillin and other antibiotics in Britain. This was not forthcoming, however, and in 1948 a research chair and institute was created for him in Rome, at the International Research Centre for Chemical Microbiology. In 1961 he returned to London to the Chair of Biochemistry at Imperial College. There, with the help of a large donation from the Wolfson Foundation, an appropriate building with facilities for the large-scale development and production of biochemical substances was finally made available. His co-equal part in the development of penicillin was recognized by the sharing of the Nobel Prize for Medicine between Florey, Fleming and himself, and he received numerous honours and honorary degrees from a large number of governments and international institutions.[br]Principal Honours and DistinctionsKnighted 1944. Nobel Prize for Medicine (jointly with H.W.Florey and A.Fleming) 1945. Fellow of the Royal Society 1949. Ehrlich Prize 1954.Bibliography1941, "Penicillin as a chemotherapeutic agent", Lancet (with Florey). 1941, "Further observations on penicillin", Lancet.1949, Antibiotics, Oxford, (with Florey et al.) MG -
22 Davy, Sir Humphry
[br]b. 17 December 1778 Penzance, Cornwall, Englandd. 29 May 1829 Geneva, Switzerland[br]English chemist, discoverer of the alkali and alkaline earth metals and the halogens, inventor of the miner's safety lamp.[br]Educated at the Latin School at Penzance and from 1792 at Truro Grammar School, Davy was apprenticed to a surgeon in Penzance. In 1797 he began to teach himself chemistry by reading, among other works, Lavoisier's elementary treatise on chemistry. In 1798 Dr Thomas Beddoes of Bristol engaged him as assistant in setting up his Pneumatic Institution to pioneer the medical application of the newly discovered gases, especially oxygen.In 1799 he discovered the anaesthetic properties of nitrous oxide, discovered not long before by the chemist Joseph Priestley. He also noted its intoxicating qualities, on account of which it was dubbed "laughing-gas". Two years later Count Rumford, founder of the Royal Institution in 1800, appointed Davy Assistant Lecturer, and the following year Professor. His lecturing ability soon began to attract large audiences, making science both popular and fashionable.Davy was stimulated by Volta's invention of the voltaic pile, or electric battery, to construct one for himself in 1800. That enabled him to embark on the researches into electrochemistry by which is chiefly known. In 1807 he tried decomposing caustic soda and caustic potash, hitherto regarded as elements, by electrolysis and obtained the metals sodium and potassium. He went on to discover the metals barium, strontium, calcium and magnesium by the same means. Next, he turned his attention to chlorine, which was then regarded as an oxide in accordance with Lavoisier's theory that oxygen was the essential component of acids; Davy failed to decompose it, however, even with the aid of electricity and concluded that it was an element, thus disproving Lavoisier's view of the nature of acids. In 1812 Davy published his Elements of Chemical Philosophy, in which he presented his chemical ideas without, however, committing himself to the atomic theory, recently advanced by John Dalton.In 1813 Davy engaged Faraday as Assistant, perhaps his greatest service to science. In April 1815 Davy was asked to assist in the development of a miner's lamp which could be safely used in a firedamp (methane) laden atmosphere. The "Davy lamp", which emerged in January 1816, had its flame completely surrounded by a fine wire mesh; George Stephenson's lamp, based on a similar principle, had been introduced into the Northumberland pits several months earlier, and a bitter controversy as to priority of invention ensued, but it was Davy who was awarded the prize for inventing a successful safety lamp.In 1824 Davy was the first to suggest the possibility of conferring cathodic protection to the copper bottoms of naval vessels by the use of sacrificial electrodes. Zinc and iron were found to be equally effective in inhibiting corrosion, although the scheme was later abandoned when it was found that ships protected in this way were rapidly fouled by weeds and barnacles.[br]Principal Honours and DistinctionsKnighted 1812. FRS 1803; President, Royal Society 1820. Royal Society Copley Medal 1805.Bibliography1812, Elements of Chemical Philosophy.1839–40, The Collected Works of Sir Humphry Davy, 9 vols, ed. John Davy, London.Further ReadingJ.Davy, 1836, Memoirs of the Life of Sir Humphry Davy, London (a classic biography). J.A.Paris, 1831, The Life of Sir Humphry Davy, London (a classic biography). H.Hartley, 1967, Humphry Davy, London (a more recent biography).J.Z.Fullmer, 1969, Cambridge, Mass, (a bibliography of Davy's works).ASD -
23 Florey, Howard Walter
SUBJECT AREA: Medical technology[br]b. 24 September 1898 Adelaide, Australiad. 21 February 1968 Oxford, England[br]Australian pathologist who contributed to the research and technology resulting in the practical clinical availability of penicillin.[br]After graduating MB and BS from Adelaide University in 1921, he went to Oxford University, England, as a Rhodes Scholar in 1922. Following a period at Cambridge and as a Rockefeller Fellow in the USA, he returned to Cambridge as Lecturer in Pathology. He was appointed to the Chair of Pathology at Sheffield at the age of 33, and to the Sir William Dunne Chair of Pathology at Oxford in 1935.Although historically his name is inseparable from that of penicillin, his experimental interests and achievements covered practically the whole range of general pathology. He was a determined advocate of the benefits to research of maintaining close contact between different disciplines. He was an early believer in the need to study functional changes in cells as much as the morphological changes that these brought about.With E. Chain, Florey perceived the potential of Fleming's 1929 note on the bacteria-inhibiting qualities of Penicillium mould. His forthright and dynamic character played a vital part in developing what was perceived to be not just a scientific and medical discovery of unparalleled importance, but a matter of the greatest significance in a war of survival. Between them, Florey and Chain were able to establish the technique of antibiotic isolation and made their findings available to those implementing large-scale fermentation production processes in the USA.Despite being domiciled in England, he played an active role in Australian medical and educational affairs and was installed as Chancellor of the Australian National University in 1966.[br]Principal Honours and DistinctionsLife peer 1965. Order of Merit 1965. Knighted 1944. FRS 1941. President, Royal Society 1960–5. Nobel Prize for Medicine or Physiology (jointly with E.B.Chain and A.Fleming) 1945. Copley Medal 1957. Commander, Légion d'honneur 1946. British Medical Association Gold Medal 1964.Bibliography1940, "Penicillin as a chemotherapeutic agent", Lancet (with Chain). 1949, Antibiotics, Oxford (with Chain et al.).1962, General Pathology, Oxford.MG -
24 Gurney, Sir Goldsworthy
SUBJECT AREA: Automotive engineering, Land transport, Mining and extraction technology, Steam and internal combustion engines[br]b. 14 February 1793 Treator, near Padstow, Cornwall, Englandd. 28 February 1875 Reeds, near Bude, Cornwall, England[br]English pioneer of steam road transport.[br]Educated at Truro Grammar School, he then studied under Dr Avery at Wadebridge to become a doctor of medicine. He settled as a surgeon in Wadebridge, spending his leisure time in building an organ and in the study of chemistry and mechanical science. He married Elizabeth Symons in 1814, and in 1820 moved with his wife to London. He delivered a course of lectures at the Surrey Institution on the elements of chemical science, attended by, amongst others, the young Michael Faraday. While there, Gurney made his first invention, the oxyhydrogen blowpipe. For this he received the Gold Medal of the Society of Arts. He experimented with lime and magnesia for the production of an illuminant for lighthouses with some success. He invented a musical instrument of glasses played like a piano.In 1823 he started experiments related to steam and locomotion which necessitated taking a partner in to his medical practice, from which he resigned shortly after. His objective was to produce a steam-driven vehicle to run on common roads. His invention of the steam-jet of blast greatly improved the performance of the steam engine. In 1827 he took his steam carriage to Cyfarthfa at the request of Mr Crawshaw, and while there applied his steam-jet to the blast furnaces, greatly improving their performance in the manufacture of iron. Much of the success of George Stephenson's steam engine, the Rocket was due to Gurney's steam blast.In July 1829 Gurney made a historic trip with his road locomotive. This was from London to Bath and back, which was accomplished at a speed of 18 mph (29 km/h) and was made at the instigation of the Quartermaster-General of the Army. So successful was the carriage that Sir Charles Dance started to run a regular service with it between Gloucester and Cheltenham. This ran for three months without accident, until Parliament introduced prohibitive taxation on all self-propelled vehicles. A House of Commons committee proposed that these should be abolished as inhibiting progress, but this was not done. Sir Goldsworthy petitioned Parliament on the harm being done to him, but nothing was done and the coming of the railways put the matter beyond consideration. He devoted his time to finding other uses for the steam-jet: it was used for extinguishing fires in coal-mines, some of which had been burning for many years; he developed a stove for the production of gas from oil and other fatty substances, intended for lighthouses; he was responsible for the heating and the lighting of both the old and the new Houses of Parliament. His evidence after a colliery explosion resulted in an Act of Parliament requiring all mines to have two shafts. He was knighted in 1863, the same year that he suffered a stroke which incapacitated him. He retired to his house at Reeds, near Bude, where he was looked after by his daughter, Anna.[br]Principal Honours and DistinctionsKnighted 1863. Society of Arts Gold Medal.IMcNBiographical history of technology > Gurney, Sir Goldsworthy
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25 уменьшаться
Уменьшаться - to decrease, to drop, to fall, to fall off, to lessen, to decline, to relax, to decay; to be decreased, to be reduced, to be diminishedWe see that as firing rate is reduced, M, which is the mass of the combustion gases, decreases linearly.Then the pressure begins to drop as the flow redevelops and continues to drop due to friction in the fully developed regime.As energy is dissipated locally, the temperature rises, the local moduli fall, and the specimen stiffness and damping are reduced.In either case both the tube load and bending stress fall off fairly rapidly away from the outer edge of the tubesheet.We observed in the blunt notched-specimen simulations that the plastic-strain field lessens 63 percent over a distance that is comparable to the 0.25-mm notch-root radius.The effectiveness is shown to decline with increasing cant angle.Following the air flow disturbance, both model results and test data show an initial overshoot (перерегулирование) in steam pressure which then relaxes to a lower value.On the latter bar, the extent of surface damage is significantly reduced due to the inhibiting of the surface/environment interaction by the relatively inert environment.Уменьшаться на-- The first critical speed and the onset speed of instability drop by approximately 7 and 6 percent, respectively.Русско-английский научно-технический словарь переводчика > уменьшаться
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26 signal
1) сигнал || сигнализировать, передавать сигналы2) оповещение3) событие ( в программе)•-
absolute stop signal
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accelerating signal
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accompanying sound signal
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acknowledgement signal
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acoustic signal
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actuating signal
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addressing signal
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address signal
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advance signal
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alarm signal
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alternate mark inversion signal
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amplitude-modulated signal
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amplitude-shift keyed signal
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analog signal
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angle-modulated signal
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anisochronous signal
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antipodal signal
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arrival signal
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attention signal
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audible signal
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audio signal
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axis designation signal
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B signal
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background signal
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back-to-normal signal
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backup signal
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band-limited signal
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baseband signal
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beam indexing signal
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bell signal
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bidirectional signal
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binary signal
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bipolar signal
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black signal
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black-and-white signal
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blackout signal
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blanketing signal
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blanking signal
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blank-out signal
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blocking signal
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block-section signal
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bracket signal
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brightness signal
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broadband signal
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broadcasting television signal
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busy back signal
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busy signal
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B-Y signal
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cab signal
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calibration signal
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calling-on signal
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call-on signal
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carry signal
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caution signal
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chirp signal
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chroma signal
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clear signal
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clear-back signal
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clear-forward signal
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clearing signal
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clipped signal
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clock signal
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code signal
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color bar signal
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color burst sync signal
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color identification signal
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color signal
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color television signal
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color-difference signal
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color-separation signal
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common-mode signal
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complete video signal
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composite color video signal
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composite picture signal
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composite synchronization signal
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composite video signal
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compressed signal
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conflicting signal
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constant-amplitude signal
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contact detection signal
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contaminating signal
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continuous-phase signal
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control signal
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convolved signal
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correlated signal
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critical axis distance signal
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cross-hatch signal
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crosstalk signal
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cue signal
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danger signal
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dark signal
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data signal
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day signal
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decadic signal
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decrease signal
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departure signal
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detected signal
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detection signal
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deterministic signal
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difference signal
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differential-mode signal
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digital signal
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digital television signal
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digital video signal
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directional signal
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directivity signal
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disable signal
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discernible signal
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disconnect signal
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disk signal
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distance-representing signal
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distant switch signal
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distinguishable signal
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dither signal
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diversity signal
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Doppler-shift signal
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Doppler signal
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double-sideband signal
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drive signal
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driving signal
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dwarf semaphore signal
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echoed signal
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echo signal
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emergency signal
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enable signal
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enciphered signal
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end-of-impulsing signal
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end-of-pulsing signal
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end-of-conversion signal
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engage signal
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erase signal
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error signal
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facsimile signal
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failed signal
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false signal
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fault signal
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feed stop signal
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feedback signal
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field synchronization signal
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filtered signal
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fixed signal
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flashing signal
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flight urgency signal
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floodlight signal
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fluctuating signal
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fog repeater signal
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foreground signal
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four-aspect signal
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free-line signal
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frequency-hopped signal
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frequency-modulated signal
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frequency-shift keyed signal
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friendly signal
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G signal
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gate signal
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gating signal
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ghost signal
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grade signal
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grinding torque error signal
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ground signal
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guard signal
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hand signal
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hang-up signal
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high-level signal
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holding signal
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home signal
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homing signal
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hopping signal
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hump light signal
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hump signal
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I signal
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identification signal
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ident signal
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idle identification signal
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impulse signal
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increase signal
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inhibiting signal
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initiate shift signal
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in-phase signal
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in-position signal
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input signal
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insertion test signal
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interface signal
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interfering signal
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interlocked signal
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intermediate signal
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interrupt signal
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isochronous signal
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jamming signal
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junction signal
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keying signal
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leave signal
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left-hand signal
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level crossing signal
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light signal
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limited signal
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line clear signal
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line signal
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line synchronization signal
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line-frequency control signal
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line-identification signal
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locked-on signal
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locking signal
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logic signal
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longitudinal time and control signal
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low-level signal
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luminance signal
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main home signal
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marshaling signal
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medium-approach signal
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microwave signal
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minimum-phase signal
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mixed synchronization signal
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modulating signal
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monitoring signal
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monitor signal
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motion signal
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multiburst signal
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multichannel signal
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multiple frequency signal
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multiplexed signal
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narrow-band signal
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night signal
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noise signal
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noise-free signal
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noise-like signal
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nominal white signal
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nonband-limited signal
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nonminimum-phase signal
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normal-mode signal
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numeral signal
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off/on signal
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off-hook signal
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on-hook signal
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opposing signal
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output signal
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PAL line-identification signal
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partial-response signal
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permissive signal
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phase-modulated signal
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phase-shift keyed signal
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pickup signal
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picture signal
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pilot signal
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playback signal
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point signal
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polar signal
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position error signal
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position signal
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prescribed signal
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pressure feedback signal
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probe's signal
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probe signal
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probing signal
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proceed signal
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protection signal
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pseudonoise signal
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pseudorandom signal
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pseudo-ternary signal
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pulse and bar signal
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pulsed signal
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pulse signal
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Q signal
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quadrature signal
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quantized signal
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R signal
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radio-frequency signal
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radio signal
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random signal
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ranging signal
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reading signal
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read signal
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rectified signal
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reference signal
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reference white signal
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reminder signal
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request signal
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restrictive signal
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retract signal
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return video signal
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returned signal
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return signal
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RGB signal
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right-hand signal
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ring signal
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ring-back signal
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road crossing signal
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robust signal
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route signal
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run-in signal
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R-Y signal
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safety signal
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sampled signal
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saw-tooth signal
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scrambled signal
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searchlight signal
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seizing signal
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sense signal
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series-mode signal
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service signal
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shading compensation signal
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shadow signal
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shunt signal
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signal of distress
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silhouette signal
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sine signal
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single-sideband signal
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sinusoidal signal
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sonar signal
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sound signal
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sounding signal
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sound-program signal
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speech signal
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spread-spectrum signal
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spurious signal
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square-wave signal
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square signal
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start signal
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starting signal
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start-stop signal
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startup signal
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station light signal
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stop signal
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stop-and-proceed signal
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strobe signal
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suppressed-carrier signal
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swept signal
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switch signal
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synchronizing signal
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sync signal
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system pressure signal
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target signal
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television broadcast signal
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television sound signal
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test line signal
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test signal
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testing signal
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test-pattern signal
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three-aspect signal
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through signal
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time signal
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time-and-control signal
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timing signal
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tool change signal
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track signal
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train order signal
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train tail signal
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transverse-mode signal
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triggering signal
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trigger signal
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trouble signal
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tunnel signal
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two-head signal
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two-position signal
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U signal
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undesired signal
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unvoiced signal
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unwanted signal
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urgent signal
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V signal
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velocity feedback signal
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velocity signal
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vertical interval test signal
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vestigial sideband signal
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video signal
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visible signal
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voice signal
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voiced signal
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W signal
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warning signal
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wayside automatic signal
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wayside signal
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weather signal
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wideband signal
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window signal
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write signal
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Y signal -
27 inhibir
v.to inhibit.María inhibió su ira Mary inhibited her anger.El aplauso inhibió a Ricardo The applause inhibited Richard.* * *1 (reprimir) to inhibit2 MEDICINA to inhibit1 (reprimirse) to be inhibited2 (abstenerse) to refrain (de, from); (negarse) to refuse (de, to)3 DERECHO to disqualify oneself\inhibirse de una decisión to avoid making a decisioninhibirse de un problema to refuse to acknowledge a problem* * *1. VT1) (=reprimir) to inhibit2) (Jur) to restrain, stay2.See:* * *1.verbo transitivo to inhibit2.inhibirse v pron to become inhibited* * *= inhibit, dope, hamstring.Ex. Likewise, a library or consortium -- and ultimately the user -- is ill-served by a system which inhibits the realization of a rational collection policy by permitting the duplication of expensive items.Ex. A photolithographic process selectively dopes minute areas of the silicon and so builds up circuits.Ex. Instead, the proposed regulations would hamstring public access.----* inhibirse = inhibit.* * *1.verbo transitivo to inhibit2.inhibirse v pron to become inhibited* * *= inhibit, dope, hamstring.Ex: Likewise, a library or consortium -- and ultimately the user -- is ill-served by a system which inhibits the realization of a rational collection policy by permitting the duplication of expensive items.
Ex: A photolithographic process selectively dopes minute areas of the silicon and so builds up circuits.Ex: Instead, the proposed regulations would hamstring public access.* inhibirse = inhibit.* * *inhibir [I1 ]vt1 (cohibir) to inhibitsu actitud dictatorial me inhibía I was inhibited by her dictatorial attitude, her dictatorial attitude inhibited me o made me feel inhibited3 ( Der) to disqualify1 (cohibirse) to become inhibitedse inhibe ante los mayores he becomes very withdrawn o inhibited in front of adultsvamos, no te inhibas y sal a bailar come on, don't be shy, get up and dance!2 ( refl) «juez» to disqualify oneselfse inhibió de conocer el asunto he disqualified himself from the case, he said he could not try the casese inhibieron de firmar la protesta they did not sign o they said they could not sign the letter of protest* * *
inhibir ( conjugate inhibir) verbo transitivo
to inhibit
inhibirse verbo pronominal
to become inhibited
inhibir verbo transitivo to inhibit: le inhibes con tu severidad, your being so strict is inhibiting her
' inhibir' also found in these entries:
Spanish:
cohibir
English:
inhibit
* * *♦ vt1. [cohibir] to inhibit;su agresividad me inhibe I feel inhibited by his aggressiveness2. Psi to inhibit3. Fisiol to inhibit* * *v/t inhibit* * *inhibir vt: to inhibit -
28 фактор
factor; (действующая сила) agentвременные факторы — transitory / transient factors
долговременно действующий фактор, фактор долговременного действия — long-term / long-run factor
институционный фактор (влияние государства, профсоюзов, объединений на экономическую жизнь общества) — institutional factor
кратковременно действующий фактор, фактор кратковременного действия — short-term factor
определяющий фактор — test / governing factor
основной фактор — major / principal / dominant factor
периодически действующий / циклический фактор — cyclical factor
производственный фактор, фактор производства — factor of production
переменный производственный фактор (напр., рабочая сила) — variable factor
решающий фактор — determinant, decisive factor
явиться решающим фактором — to be a decisive factor, to turn the scale
решающий фактор внешней политики — key determinant of (one's) foreign policy
случайный фактор, фактор случайности — chance / random factor
стимулирующий фактор — motivating / incentive factor
субъективные факторы, факторы субъективного порядка — subjective factors
технологический фактор, фактор технического прогресса — technology factor
человеческий фактор — human factor / dimension
экономические факторы — economic(al) factors / forces
факторы, не поддающиеся количественному выражению — nonquantifiable factors
фактор, обусловливающий колебания курсов эк. — fluctuating principle
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29 хлорофенол
хлорофенол
—
[ http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]EN
chlorophenol
Major group of chlorinated hydrocarbons, pesticides and biocides which account for a very high percentage of the non-agricultural pesticide use, such as anti-rotting agents in non-woollen textiles and wood preservatives. The chlorophenols act as biocides by inhibiting the respiration and energy-conversion processes of the microorganisms. They are toxic to man above 40 parts per million, to fish above 1 ppm, whilst concentrations as low as one part per thousand million can taint water. (Source: PORT)
[http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]Тематики
EN
DE
FR
Русско-немецкий словарь нормативно-технической терминологии > хлорофенол
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30 chlorophénol
хлорофенол
—
[ http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]EN
chlorophenol
Major group of chlorinated hydrocarbons, pesticides and biocides which account for a very high percentage of the non-agricultural pesticide use, such as anti-rotting agents in non-woollen textiles and wood preservatives. The chlorophenols act as biocides by inhibiting the respiration and energy-conversion processes of the microorganisms. They are toxic to man above 40 parts per million, to fish above 1 ppm, whilst concentrations as low as one part per thousand million can taint water. (Source: PORT)
[http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]Тематики
EN
DE
FR
Франко-русский словарь нормативно-технической терминологии > chlorophénol
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31 Chlorphenol
хлорофенол
—
[ http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]EN
chlorophenol
Major group of chlorinated hydrocarbons, pesticides and biocides which account for a very high percentage of the non-agricultural pesticide use, such as anti-rotting agents in non-woollen textiles and wood preservatives. The chlorophenols act as biocides by inhibiting the respiration and energy-conversion processes of the microorganisms. They are toxic to man above 40 parts per million, to fish above 1 ppm, whilst concentrations as low as one part per thousand million can taint water. (Source: PORT)
[http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]Тематики
EN
DE
FR
Немецко-русский словарь нормативно-технической терминологии > Chlorphenol
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32 хлорофенол
хлорофенол
—
[ http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]EN
chlorophenol
Major group of chlorinated hydrocarbons, pesticides and biocides which account for a very high percentage of the non-agricultural pesticide use, such as anti-rotting agents in non-woollen textiles and wood preservatives. The chlorophenols act as biocides by inhibiting the respiration and energy-conversion processes of the microorganisms. They are toxic to man above 40 parts per million, to fish above 1 ppm, whilst concentrations as low as one part per thousand million can taint water. (Source: PORT)
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Русско-английский словарь нормативно-технической терминологии > хлорофенол
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33 хлорофенол
хлорофенол
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[ http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]EN
chlorophenol
Major group of chlorinated hydrocarbons, pesticides and biocides which account for a very high percentage of the non-agricultural pesticide use, such as anti-rotting agents in non-woollen textiles and wood preservatives. The chlorophenols act as biocides by inhibiting the respiration and energy-conversion processes of the microorganisms. They are toxic to man above 40 parts per million, to fish above 1 ppm, whilst concentrations as low as one part per thousand million can taint water. (Source: PORT)
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Русско-французский словарь нормативно-технической терминологии > хлорофенол
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34 chlorophenol
хлорофенол
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[ http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]EN
chlorophenol
Major group of chlorinated hydrocarbons, pesticides and biocides which account for a very high percentage of the non-agricultural pesticide use, such as anti-rotting agents in non-woollen textiles and wood preservatives. The chlorophenols act as biocides by inhibiting the respiration and energy-conversion processes of the microorganisms. They are toxic to man above 40 parts per million, to fish above 1 ppm, whilst concentrations as low as one part per thousand million can taint water. (Source: PORT)
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Англо-русский словарь нормативно-технической терминологии > chlorophenol
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35 PIF
1) Компьютерная техника: Process Interchange Format, Programmable Initialization File2) Медицина: Pupil Intake Factor3) Военный термин: Processing and Interpretation Facility, Project Investment Fund, Provisions for Industrial Facilities, Punjab Irregular Force, personnel indentification feature, photographic interpretation facility, pilot's information file, point initiating fuze5) Сельское хозяйство: prolactin-inhibiting factor6) Бухгалтерия: Pay It Forward, Payment In Full7) Телевидение: picture intermediate frequency8) Сокращение: Paid In Full, Personal Identification Feature, Photo-Interpretation Facility, Pilotage en Force (Missile manoeuvrability, side force pyrotechnical control (France))9) Вычислительная техника: Parity Inner Failure (DVD)10) Иммунология: polymorphonuclear leukocyte inhibitory factor11) Дерматология: photo irritancy factor12) СМИ: Print Image Framer13) Деловая лексика: Product Information File, Production Investment And Financing14) Нефтепромысловый: эксплуатационное окно (Blade Energy Partners terminology), коэффициент повышения производительности (сокр. от Productivity Improvement Factor)15) Сетевые технологии: Peripheral Interface File16) Расширение файла: Picture Interchange Format File, Post Index Filename, Program Information File, Vector graphics GDF format (IBM mainframe computers), Graphics metafile (OS/2), OS/2 graphics metafile (PICVIEW.EXE), Program Information File (Windows 3.x), Windows run-style description file17) Нефть и газ: устройство внедрения в трубопровод, pipeline intervention frame18) Майкрософт: файл PIF19) NYSE. Insured Municipal Income Fund -
36 способность
Способность (работать на нескольких топливах)-- A small gas turbine has potential advantage, including multi-fuel ability, light weight and portability, reliability, and excellent cold weather starting. Способность - ability, capability, capacity, power (в положительном смысле); potential (часто в отрицательном смысле)Photosynthetic bacteria generate oxidizing power by photolysis of water. (... приобретают окислительную способность...)The content of heavy metal is also important due to the potential to catalyze soot formation.Способность к (ингибированию)-- The inhibiting capacity is greatly dependent on the degree of specificity for the active center. Способность кThe phenomenon of embrittlement of steel subject to high temperatures was recognized along with the potential of notches in accelerating this embrittlement.Extracellular conditions influence the capacities for enzyme synthesis.Русско-английский научно-технический словарь переводчика > способность
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37 сведение лесов
сведение лесов
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[ http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]EN
deforestation
The removal of forest and undergrowth to increase the surface of arable land or to use the timber for construction or industrial purposes. Forest and its undergrowth possess a very high water-retaining capacity, inhibiting runoff of rainwater. (Source: GILP)
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Русско-немецкий словарь нормативно-технической терминологии > сведение лесов
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38 déforestation
сведение лесов
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[ http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]EN
deforestation
The removal of forest and undergrowth to increase the surface of arable land or to use the timber for construction or industrial purposes. Forest and its undergrowth possess a very high water-retaining capacity, inhibiting runoff of rainwater. (Source: GILP)
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Франко-русский словарь нормативно-технической терминологии > déforestation
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39 Entwaldung
сведение лесов
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[ http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]EN
deforestation
The removal of forest and undergrowth to increase the surface of arable land or to use the timber for construction or industrial purposes. Forest and its undergrowth possess a very high water-retaining capacity, inhibiting runoff of rainwater. (Source: GILP)
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Немецко-русский словарь нормативно-технической терминологии > Entwaldung
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40 сведение лесов
сведение лесов
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[ http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]EN
deforestation
The removal of forest and undergrowth to increase the surface of arable land or to use the timber for construction or industrial purposes. Forest and its undergrowth possess a very high water-retaining capacity, inhibiting runoff of rainwater. (Source: GILP)
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Русско-английский словарь нормативно-технической терминологии > сведение лесов
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