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21 математическая физика
Большой англо-русский и русско-английский словарь > математическая физика
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22 JMP
1) Общая лексика: (Journey Management Plan) План организации поездки2) Геология: Japan Map Project3) Американизм: Joint Management Plan4) Военный термин: Joint Maintenance Plan, Joint Mobilization Program, joint manpower program5) Техника: Jensen MicroPhone6) Музыка: Jazz Mandolin Project7) Физика: Journal of Mathematical Physics8) Фирменный знак: Jackson Marking Products, Jet Model Products9) Глоссарий компании Сахалин Энерджи: Journey Management Plan10) Программирование: Jump, Jump Unconditionally11) Программное обеспечение: Java Memory Profiler -
23 MPEJ
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24 RMP
1) Компьютерная техника: Real Metadata Packet2) Медицина: right mento-posterior3) Американизм: Radio Motor Patrol, Records Management Program4) Военный термин: Re-programmable Microprocessor, Royal Military Police, range maintenance plan, regimental medical post, research management plan, retiree mobilization program, rocket motor plume, reprogrammable processor5) Биржевой термин: Register Market Participant6) Грубое выражение: Ram My Posterior7) Сокращение: Radar Modernization Program, Recognised Maritime Picture, Reprogrammable Micro-Processor, Risk Minimumization Program, Rocket & Machine gun Pod, Royal Military Police (UK), Royal Mounted Police, Reliable Multicast Protocol8) Физика: Reviews in Mathematical Physics9) Иммунология: Resting Membrane Potential10) Транспорт: Rotorcraft Master Plan11) Фирменный знак: Ralph M. Parsons Company, Roche Macaulay And Partners, Rocky Mountain Photographer, Rocky Mountain Photographers, Rural Market Place12) Глоссарий компании Сахалин Энерджи: Reservoir Management Plans13) Сахалин Р: reservoir management plan, reservoir management program14) Сахалин А: reservoir management plan, program15) Химическое оружие: Records Management Plan, Risk Management Plan, The Ralph M. Parsons Company [Pasadena, CA]16) Военно-морской флот: (recognized maritime picture) типовая оперативная картина по надводной обстановке17) Расширение файла: Remote Maintenance Processor (IBM)18) Аэропорты: Rampart, Alaska USA19) НАСА: Risk Management Program -
25 rmp
1) Компьютерная техника: Real Metadata Packet2) Медицина: right mento-posterior3) Американизм: Radio Motor Patrol, Records Management Program4) Военный термин: Re-programmable Microprocessor, Royal Military Police, range maintenance plan, regimental medical post, research management plan, retiree mobilization program, rocket motor plume, reprogrammable processor5) Биржевой термин: Register Market Participant6) Грубое выражение: Ram My Posterior7) Сокращение: Radar Modernization Program, Recognised Maritime Picture, Reprogrammable Micro-Processor, Risk Minimumization Program, Rocket & Machine gun Pod, Royal Military Police (UK), Royal Mounted Police, Reliable Multicast Protocol8) Физика: Reviews in Mathematical Physics9) Иммунология: Resting Membrane Potential10) Транспорт: Rotorcraft Master Plan11) Фирменный знак: Ralph M. Parsons Company, Roche Macaulay And Partners, Rocky Mountain Photographer, Rocky Mountain Photographers, Rural Market Place12) Глоссарий компании Сахалин Энерджи: Reservoir Management Plans13) Сахалин Р: reservoir management plan, reservoir management program14) Сахалин А: reservoir management plan, program15) Химическое оружие: Records Management Plan, Risk Management Plan, The Ralph M. Parsons Company [Pasadena, CA]16) Военно-морской флот: (recognized maritime picture) типовая оперативная картина по надводной обстановке17) Расширение файла: Remote Maintenance Processor (IBM)18) Аэропорты: Rampart, Alaska USA19) НАСА: Risk Management Program -
26 Stibitz, George R.
SUBJECT AREA: Electronics and information technology[br]b. 20 April 1904 York, Pennsylvania, USA[br]American mathematician responsible for the conception of the Bell Laboratories "Complex " computer.[br]Stibitz spent his early years in Dayton, Ohio, and obtained his first degree at Denison University, Granville, Ohio, his MS from Union College, Schenectady, New York, in 1927 and his PhD in mathematical physics from Cornell University, Ithaca, New York, in 1930. After working for a time for General Electric, he joined Bell Laboratories to work on various communications problems. In 1937 he started to experiment at home with telephone relays as the basis of a calculator for addition, multiplication and division. Initially this was based on binary arithmetic, but later he used binary-coded decimal (BCD) and was able to cope with complex numbers. In November 1938 the ideas were officially taken up by Bell Laboratories and, with S.B.Williams as Project Manager, Stibitz built a complex-number computer known as "Complex", or Relay I, which became operational on 8 January 1940.With the outbreak of the Second World War, he was co-opted to the National Defence Research Council to work on anti-aircraft (AA) gun control, and this led to Bell Laboratories Relay II computer, which was completed in 1943 and which had 500 relays, bi-quinary code and selfchecking of errors. A further computer, Relay III, was used for ballistic simulation of actual AA shell explosions and was followed by more machines before and after Stibitz left Bell after the end of the war. Stibitz then became a computer consultant, involved in particular with the development of the UNIVAC computer by John Mauchly and J.Presper Eckert.[br]Principal Honours and DistinctionsInstitute of Electrical and Electronics Engineers Emanuel R.Priore Award 1977.Bibliography1957, with J.A.Larrivee, Mathematics and Computers, New York: McGraw-Hill. 1967, "The Relay computer at the Bell Laboratories", Datamation 35.Further ReadingE.Loveday, 1977, "George Stibitz and the Bell Labs Relay computer", Datamation 80. M.R.Williams, 1985, A History of Computing Technology, London: Prentice-Hall.KF -
27 Bibliography
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Westport, CT: Praeger.■ Wagman, M. (2000). Scientific discovery processes in humans and computers: Theory and research in psychology and artificial intelligence. Westport, CT: Praeger.■ Wall, R. (1972). Introduction to mathematical linguistics. Englewood Cliffs, NJ: Prentice-Hall.■ Wallas, G. (1926). The Art of Thought. New York: Harcourt, Brace & Co.■ Wason, P. (1977). Self contradictions. In P. Johnson-Laird & P. Wason (Eds.), Thinking: Readings in cognitive science. Cambridge: Cambridge University Press.■ Wason, P. C., & P. N. Johnson-Laird. (1972). Psychology of reasoning: Structure and content. Cambridge, MA: Harvard University Press.■ Watson, J. (1930). Behaviorism. New York: W. W. Norton.■ Watzlawick, P. (1984). Epilogue. In P. Watzlawick (Ed.), The invented reality. New York: W. W. Norton, 1984.■ Weinberg, S. (1977). The first three minutes: A modern view of the origin of the uni verse. New York: Basic Books.■ Weisberg, R. W. (1986). Creativity: Genius and other myths. New York: W. H. Freeman.■ Weizenbaum, J. (1976). Computer power and human reason: From judgment to cal culation. San Francisco: W. H. Freeman.■ Wertheimer, M. (1945). Productive thinking. New York: Harper & Bros.■ Whitehead, A. N. (1925). Science and the modern world. New York: Macmillan.■ Whorf, B. L. (1956). In J. B. Carroll (Ed.), Language, thought and reality: Selected writings of Benjamin Lee Whorf. Cambridge, MA: MIT Press.■ Whyte, L. L. (1962). The unconscious before Freud. New York: Anchor Books.■ Wiener, N. (1954). The human use of human beings. Boston: Houghton Mifflin.■ Wiener, N. (1964). God & Golem, Inc.: A comment on certain points where cybernetics impinges on religion. Cambridge, MA: MIT Press.■ Winograd, T. (1972). Understanding natural language. New York: Academic Press.■ Winston, P. H. (1987). Artificial intelligence: A perspective. In E. L. Grimson & R. S. Patil (Eds.), AI in the 1980s and beyond (pp. 1-12). Cambridge, MA: MIT Press.■ Winston, P. H. (Ed.) (1975). The psychology of computer vision. New York: McGrawHill.■ Wittgenstein, L. (1953). Philosophical investigations. Oxford: Basil Blackwell.■ Wittgenstein, L. (1958). The blue and brown books. New York: Harper Colophon.■ Woods, W. A. (1975). What's in a link: Foundations for semantic networks. In D. G. Bobrow & A. Collins (Eds.), Representations and understanding: Studies in cognitive science (pp. 35-84). New York: Academic Press.■ Woodworth, R. S. (1938). Experimental psychology. New York: Holt; London: Methuen (1939).■ Wundt, W. (1904). Principles of physiological psychology (Vol. 1). E. B. Titchener (Trans.). New York: Macmillan.■ Wundt, W. (1907). Lectures on human and animal psychology. J. E. Creighton & E. B. Titchener (Trans.). New York: Macmillan.■ Young, J. Z. (1978). Programs of the brain. New York: Oxford University Press.■ Ziman, J. (1978). Reliable knowledge: An exploration of the grounds for belief in science. Cambridge: Cambridge University Press.Historical dictionary of quotations in cognitive science > Bibliography
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28 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 -
29 Psychology
We come therefore now to that knowledge whereunto the ancient oracle directeth us, which is the knowledge of ourselves; which deserveth the more accurate handling, by how much it toucheth us more nearly. This knowledge, as it is the end and term of natural philosophy in the intention of man, so notwithstanding it is but a portion of natural philosophy in the continent of nature.... [W]e proceed to human philosophy or Humanity, which hath two parts: the one considereth man segregate, or distributively; the other congregate, or in society. So as Human philosophy is either Simple and Particular, or Conjugate and Civil. Humanity Particular consisteth of the same parts whereof man consisteth; that is, of knowledges which respect the Body, and of knowledges that respect the Mind... how the one discloseth the other and how the one worketh upon the other... [:] the one is honored with the inquiry of Aristotle, and the other of Hippocrates. (Bacon, 1878, pp. 236-237)The claims of Psychology to rank as a distinct science are... not smaller but greater than those of any other science. If its phenomena are contemplated objectively, merely as nervo-muscular adjustments by which the higher organisms from moment to moment adapt their actions to environing co-existences and sequences, its degree of specialty, even then, entitles it to a separate place. The moment the element of feeling, or consciousness, is used to interpret nervo-muscular adjustments as thus exhibited in the living beings around, objective Psychology acquires an additional, and quite exceptional, distinction. (Spencer, 1896, p. 141)Kant once declared that psychology was incapable of ever raising itself to the rank of an exact natural science. The reasons that he gives... have often been repeated in later times. In the first place, Kant says, psychology cannot become an exact science because mathematics is inapplicable to the phenomena of the internal sense; the pure internal perception, in which mental phenomena must be constructed,-time,-has but one dimension. In the second place, however, it cannot even become an experimental science, because in it the manifold of internal observation cannot be arbitrarily varied,-still less, another thinking subject be submitted to one's experiments, comformably to the end in view; moreover, the very fact of observation means alteration of the observed object. (Wundt, 1904, p. 6)It is [Gustav] Fechner's service to have found and followed the true way; to have shown us how a "mathematical psychology" may, within certain limits, be realized in practice.... He was the first to show how Herbart's idea of an "exact psychology" might be turned to practical account. (Wundt, 1904, pp. 6-7)"Mind," "intellect," "reason," "understanding," etc. are concepts... that existed before the advent of any scientific psychology. The fact that the naive consciousness always and everywhere points to internal experience as a special source of knowledge, may, therefore, be accepted for the moment as sufficient testimony to the rights of psychology as science.... "Mind," will accordingly be the subject, to which we attribute all the separate facts of internal observation as predicates. The subject itself is determined p. 17) wholly and exclusively by its predicates. (Wundt, 1904,The study of animal psychology may be approached from two different points of view. We may set out from the notion of a kind of comparative physiology of mind, a universal history of the development of mental life in the organic world. Or we may make human psychology the principal object of investigation. Then, the expressions of mental life in animals will be taken into account only so far as they throw light upon the evolution of consciousness in man.... Human psychology... may confine itself altogether to man, and generally has done so to far too great an extent. There are plenty of psychological text-books from which you would hardly gather that there was any other conscious life than the human. (Wundt, 1907, pp. 340-341)The Behaviorist began his own formulation of the problem of psychology by sweeping aside all medieval conceptions. He dropped from his scientific vocabulary all subjective terms such as sensation, perception, image, desire, purpose, and even thinking and emotion as they were subjectively defined. (Watson, 1930, pp. 5-6)According to the medieval classification of the sciences, psychology is merely a chapter of special physics, although the most important chapter; for man is a microcosm; he is the central figure of the universe. (deWulf, 1956, p. 125)At the beginning of this century the prevailing thesis in psychology was Associationism.... Behavior proceeded by the stream of associations: each association produced its successors, and acquired new attachments with the sensations arriving from the environment.In the first decade of the century a reaction developed to this doctrine through the work of the Wurzburg school. Rejecting the notion of a completely self-determining stream of associations, it introduced the task ( Aufgabe) as a necessary factor in describing the process of thinking. The task gave direction to thought. A noteworthy innovation of the Wurzburg school was the use of systematic introspection to shed light on the thinking process and the contents of consciousness. The result was a blend of mechanics and phenomenalism, which gave rise in turn to two divergent antitheses, Behaviorism and the Gestalt movement. The behavioristic reaction insisted that introspection was a highly unstable, subjective procedure.... Behaviorism reformulated the task of psychology as one of explaining the response of organisms as a function of the stimuli impinging upon them and measuring both objectively. However, Behaviorism accepted, and indeed reinforced, the mechanistic assumption that the connections between stimulus and response were formed and maintained as simple, determinate functions of the environment.The Gestalt reaction took an opposite turn. It rejected the mechanistic nature of the associationist doctrine but maintained the value of phenomenal observation. In many ways it continued the Wurzburg school's insistence that thinking was more than association-thinking has direction given to it by the task or by the set of the subject. Gestalt psychology elaborated this doctrine in genuinely new ways in terms of holistic principles of organization.Today psychology lives in a state of relatively stable tension between the poles of Behaviorism and Gestalt psychology.... (Newell & Simon, 1963, pp. 279-280)As I examine the fate of our oppositions, looking at those already in existence as guide to how they fare and shape the course of science, it seems to me that clarity is never achieved. Matters simply become muddier and muddier as we go down through time. Thus, far from providing the rungs of a ladder by which psychology gradually climbs to clarity, this form of conceptual structure leads rather to an ever increasing pile of issues, which we weary of or become diverted from, but never really settle. (Newell, 1973b, pp. 288-289)The subject matter of psychology is as old as reflection. Its broad practical aims are as dated as human societies. Human beings, in any period, have not been indifferent to the validity of their knowledge, unconcerned with the causes of their behavior or that of their prey and predators. Our distant ancestors, no less than we, wrestled with the problems of social organization, child rearing, competition, authority, individual differences, personal safety. Solving these problems required insights-no matter how untutored-into the psychological dimensions of life. Thus, if we are to follow the convention of treating psychology as a young discipline, we must have in mind something other than its subject matter. We must mean that it is young in the sense that physics was young at the time of Archimedes or in the sense that geometry was "founded" by Euclid and "fathered" by Thales. Sailing vessels were launched long before Archimedes discovered the laws of bouyancy [ sic], and pillars of identical circumference were constructed before anyone knew that C IID. We do not consider the ship builders and stone cutters of antiquity physicists and geometers. Nor were the ancient cave dwellers psychologists merely because they rewarded the good conduct of their children. The archives of folk wisdom contain a remarkable collection of achievements, but craft-no matter how perfected-is not science, nor is a litany of successful accidents a discipline. If psychology is young, it is young as a scientific discipline but it is far from clear that psychology has attained this status. (Robinson, 1986, p. 12)Historical dictionary of quotations in cognitive science > Psychology
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30 Thomson, Sir William, Lord Kelvin
[br]b. 26 June 1824 Belfast, Ireland (now Northern Ireland)d. 17 December 1907 Largs, Scotland[br]Irish physicist and inventor who contributed to submarine telegraphy and instrumentation.[br]After education at Glasgow University and Peterhouse, Cambridge, a period of study in France gave Thomson an interest in experimental work and instrumentation. He became Professor of Natural Philosophy at Glasgow in 1846 and retained the position for the rest of his career, establishing the first teaching laboratory in Britain.Among his many contributions to science and engineering was his concept, introduced in 1848, of an "absolute" zero of temperature. Following on from the work of Joule, his investigations into the nature of heat led to the first successful liquefaction of gases such as hydrogen and helium, and later to the science of low-temperature physics.Cable telegraphy gave an impetus to the scientific measurement of electrical quantities, and for many years Thomson was a member of the British Association Committee formed in 1861 to consider electrical standards and to develop units; these are still in use. Thomson first became Scientific Adviser to the Atlantic Telegraph Company in 1857, sailing on the Agamemnon and Great Eastern during the cable-laying expeditions. He invented a mirror galvanometer and more importantly the siphon recorder, which, used as a very sensitive telegraph receiver, provided a permanent record of signals. He also laid down the design parameters of long submarine cables and discovered that the conductivity of copper was greatly affected by its purity. A major part of the success of the Atlantic cable in 1866 was due to Thomson, who received a knighthood for his contribution.Other instruments he designed included a quadrant electrostatic voltmeter to measure high voltages, and his "multi-cellular" instrument for low voltages. They could be used on alternating or direct current and were free from temperature errors. His balances for precision current measurement were widely used in standardizing laboratories.Thomson was a prolific writer of scientific papers on subjects across the whole spectrum of physics; between 1855 and 1866 he published some 110 papers, with a total during his life of over 600. In 1892 he was raised to the peerage as Baron Kelvin of Largs. By the time of his death he was looked upon as the "father" of British physics, but despite his outstanding achievements his later years were spent resisting change and progress.[br]Principal Honours and DistinctionsKnighted 1866. Created Lord Kelvin of Largs 1892. FRS 1851. President, Royal Society 1890–4. An original member of the Order of Merit 1902. President, Society of Telegraph Engineers 1874. President, Institution of Electrical Engineers 1889 and 1907. Royal Society Royal Medal 1856, Copley Medal 1883.Bibliography1872, Reprints of Papers on Electrostatics and Magnetism, London; 1911, Mathematical and Physical Papers, 6 vols, Cambridge (collections of Thomson's papers).Further ReadingSilvanus P.Thompson, 1910, The Life of William Thomson, Baron Kelvin of Largs, 2 vols, London (an uncritical biography).D.B.Wilson, 1987, Kelvin and Stokes: A Comparative Study in Victorian Physics, Bristol (provides a present-day commentary on all aspects of Thomson's work).J.G.Crowther, 1962, British Scientists of the 19th Century, London, pp. 199–257 (a short critical biography).GWBiographical history of technology > Thomson, Sir William, Lord Kelvin
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31 Ayrton, William Edward
[br]b. 14 September 1847 London, Englandd. 8 November 1908 London, England[br]English physicist, inventor and pioneer in technical education.[br]After graduating from University College, London, Ayrton became for a short time a pupil of Sir William Thomson in Glasgow. For five years he was employed in the Indian Telegraph Service, eventually as Superintendent, where he assisted in revolutionizing the system, devising methods of fault detection and elimination. In 1873 he was invited by the Japanese Government to assist as Professor of Physics and Telegraphy in founding the Imperial College of Engineering in Tokyo. There he created a teaching laboratory that served as a model for those he was later to organize in England and which were copied elsewhere. It was in Tokyo that his joint researches with Professor John Perry began, an association that continued after their return to England. In 1879 he became Professor of Technical Physics at the City and Guilds Institute in Finsbury, London, and later was appointed Professor of Physics at the Central Institution in South Kensington.The inventions of Avrton and Perrv included an electric tricycle in 1882, the first practicable portable ammeter and other electrical measuring instruments. By 1890, when the research partnership ended, they had published nearly seventy papers in their joint names, the emphasis being on a mathematical treatment of subjects including electric motor design, construction of electrical measuring instruments, thermodynamics and the economical use of electric conductors. Ayrton was then employed as a consulting engineer by government departments and acted as an expert witness in many important patent cases.[br]Principal Honours and DistinctionsFRS 1881. President, Physical Society 1890–2. President, Institution of Electrical Engineers 1892. Royal Society Royal Medal 1901.Bibliography28 April 1883, British patent no. 2,156 (Ayrton and Perry's ammeter and voltmeter). 1887, Practical Electricity, London (based on his early laboratory courses; 7 edns followed during his lifetime).1892, "Electrotechnics", Journal of the Institution of Electrical Engineers 21, 5–36 (for a survey of technical education).Further ReadingD.W.Jordan, 1985, "The cry for useless knowledge: education for a new Victorian technology", Proceedings of the Institution of Electrical Engineers, 132 (Part A): 587– 601.G.Gooday, 1991, History of Technology, 13: 73–111 (for an account of Ayrton and the teaching laboratory).GW -
32 Eccles, William Henry
[br]b. 23 August 1875 Ulverston, Cumbria, Englandd. 27 April 1966 Oxford, England[br]English physicist who made important contributions to the development of radio communications.[br]After early education at home and at private school, Eccles won a scholarship to the Royal College of Science (now Imperial College), London, where he gained a First Class BSc in physics in 1898. He then worked as a demonstrator at the college and studied coherers, for which he obtained a DSc in 1901. Increasingly interested in electrical engineering, he joined the Marconi Company in 1899 to work on oscillators at the Poole experimental radio station, but in 1904 he returned to academic life as Professor of Mathematics and Physics and Department Head at South West Polytechnic, Chelsea. There he discovered ways of using the negative resistance of galena-crystal detectors to generate oscillations and gave a mathematical description of the operation of the triode valve. In 1910 he became Reader in Engineering at University College, London, where he published a paper explaining the reflection of radio waves by the ionosphere and designed a 60 MHz short-wave transmitter. From 1916 to 1926 he was Professor of Applied Physics and Electrical Engineering at the Finsbury City \& Guilds College and a private consulting engineer. During the First World War he was a military scientific adviser and Secretary to the Joint Board of Scientific Societies. After the war he made many contributions to electronic-circuit development, many of them (including the Eccles-Jordan "flip-flop" patented in 1918 and used in binary counters) in conjunction with F.W.Jordan, about whom little seems to be known. Illness forced Eccles's premature academic retirement in 1926, but he remained active as a consultant for many years.[br]Principal Honours and DistinctionsFRS 1921. President, Institution of Electrical Engineers, 1926–7. President, Physical Society 1929. President, Radio Society of Great Britain.Bibliography1912, "On the diurnal variation of the electric waves occurring in nature and on the propagation of electric waves round the bend of the earth", Proceedings of the Royal Society 87:79. 1919, with F.W.Jordan, "Method of using two triode valves in parallel for generating oscillations", Electrician 299:3.1915, Handbook of Wireless Telegraphy.1921, Continuous Wave Wireless Telegraphy.Further Reading1971, "William Henry Eccles, 1875–1966", Biographical Memoirs of the Royal Society, London, 17.KF -
33 MP
1) Общая лексика: многоцелевой, универсальный2) Компьютерная техника: Macro Parameter, Management Processor, Mini Profile, Multi Platform, Multi Processing, Multi Processor, Multiple Processor3) Морской термин: загрязнитель моря (Marine Pollutant( IMO cargo type classification))4) Медицина: макулярный пигмент, митогенный протеин, предварительное намагничивание (magnetization prepared)5) Американизм: Military Police6) Ботаника: Murmuring Pine7) Спорт: Magic Points, Mana Points, Might Play, Mile Point, Movement Penalty, Multi Player8) Латинский язык: Modus Ponens9) Военный термин: Machine Pistol, Manpack, Map Pack, Map Project, Marine police, Marshalling Points, Master Plan, Message Parser, Military Personnel, Mind Points, Minuteman platform, Mission Profile, Mobility Plus, Modular Powered, Movement Planner, Multi Purpose, main parachute, maintainability plan, maintenance package, maintenance panel, maintenance parts, maintenance period, maintenance plan, maintenance point, maintenance procedure, maintenance program, management package, marching pack, maritime patrol, master pilot, meeting point, military pay, military procurement, military property, mine planter, missile platform, missile positioning, mobilization plan, monitor panel, motion picture production, motor potential10) Техника: main propulsion, manpower, mean effective pressure, mean power, mean proportional, memorandum of partnership, mile-post, modulator, multiprocessor11) Шутливое выражение: Magic Packet, Mischievous Pease, Mr Piggy, Mystery Pog12) Химия: Metal Particle, Metal Particulate, Metal Poor13) Математика: математическое программирование (mathematical programming), мультипликативное свойство (multiplication property), наиболее мощный (критерий), проблема минимизации (minimization problem)14) Религия: Merry Part15) Железнодорожный термин: Union Pacific Railroad Company16) Юридический термин: Miscellaneous Proceeding, Missing Person, Moot Point, Mountain Patrol, Multi Profiling, Murder And Pillage, Mysterious Past, парламентарий (member of Parliament)17) Бухгалтерия: Money Pit18) Астрономия: Massive Protostar19) Биржевой термин: Market Place20) Ветеринария: Mud Puppies21) Грубое выражение: Manipulative Prostitute, Master Pervert, Motherfucking Perfect22) Дипломатический термин: член Европейского парламента23) Музыка: Mezzo Piano, Music Positive24) Политика: Mauritius25) Телекоммуникации: Mobile Processor, Multilink PPP26) Сокращение: Machine Pistole (Krimmi), compact sub machine gun (Germany; K), Manoeuvre Programmer, Manpower & Personnel (USAF), Marinha Portuguesa (Portugese Navy), Member of Parliament, Metal Particle (Tape), Metal-Piercing, Metropolitan Police, Military Police(man), Mission Planning, Mornarica Pjesadija (Croatian naval infantry), Moteur en Pylone (Pylon-mounted engine (France)), Multipole, Northern Mariana Islands, manufacturing and production, mass production, mounted police, multipurpose, Magnifying Power, Mandatory Protection, Manifold Pressure, Marginal Product, Membrane Potential, Memory Pointer, Minimal Protection, Monolithic Processor, Most Powerful27) Текстиль: Matched Pair28) Университет: My Problem29) Физика: Magnetic Particle, Medium Prismatic, Modal Particle, Multi Physics30) Физиология: Menstrual period, Metatarsal Phalanges, Mitochondria Points31) Электроника: Madhya Pradesh, Maximum Power, Multi Phonon, Multi Polarized32) Вычислительная техника: MultiProtocol, mathematical programming, microprocessor, (PPP) Multilink Protocol (MPPP, RFC 1990), MegaPIXEL (PIXEL, photo), Military Police (man), (контрольная) точка регулировки при профилактике33) Нефть: maximum pressure, давление на всасывании (manifold pressure), период технического обслуживания (maintenance period), порядок технического обслуживания (maintenance procedure), среднее давление (mean pressure)34) Картография: mooring post35) Банковское дело: почтовый перевод (mail payment), microprinting (средство предотвращения копирования чеков)36) Транспорт: Mopar Parts37) Пищевая промышленность: Medium Pizza, Melon Popper, More Pints38) Фирменный знак: Monolith Productions39) Экология: Monitoring Plan40) СМИ: Media Player, Motion Picture, Moving Picture, Multi Page, Multiple Part41) Деловая лексика: Main Product, Manual Pickup, Mass Produced, Means Of Production, Mechanical Perfection, Modes Of Production, Music Profits, член парламента (Великобритания, Member of Parliament)42) Глоссарий компании Сахалин Энерджи: mud pump, СД (medium pressure)43) Образование: Marking Period, module paper44) Инвестиции: mail payment45) Сетевые технологии: Message Passing, Modular Portal, Multi Point, Multi Protocol, multiprocessing, system multiprocessor system, мультипроцессорная обработка46) Полимеры: medium pressure, molded plate, molding pressure47) Программирование: Make Parameter, Multi Precision48) Автоматика: machine perception, machine power, measurement processor49) Контроль качества: Metrology Provision50) Океанография: Mini Plankton51) Безопасность: Message Protector52) Расширение файла: Multiple Processors, Movie (MPEG compressed), Massively Parallel (processing)53) Энергосистемы: market participant54) Нефть и газ: main pipeline, makeup pump, marshalling panel, TP, МН, магистральный нефтепровод55) Электротехника: main protection, metallized paper56) Майкрософт: пакет управления, management point57) Общественная организация: Mautner Project, Myelin Project58) Должность: Material For Promotion, More Pension59) Чат: Mom Pops60) НАСА: Massively Parallel, Minor Planet, Multifunction Panel61) Федеральное бюро расследований: Minneapolis Field Office62) Единицы измерений: Mega Pixels -
34 mp
1) Общая лексика: многоцелевой, универсальный2) Компьютерная техника: Macro Parameter, Management Processor, Mini Profile, Multi Platform, Multi Processing, Multi Processor, Multiple Processor3) Морской термин: загрязнитель моря (Marine Pollutant( IMO cargo type classification))4) Медицина: макулярный пигмент, митогенный протеин, предварительное намагничивание (magnetization prepared)5) Американизм: Military Police6) Ботаника: Murmuring Pine7) Спорт: Magic Points, Mana Points, Might Play, Mile Point, Movement Penalty, Multi Player8) Латинский язык: Modus Ponens9) Военный термин: Machine Pistol, Manpack, Map Pack, Map Project, Marine police, Marshalling Points, Master Plan, Message Parser, Military Personnel, Mind Points, Minuteman platform, Mission Profile, Mobility Plus, Modular Powered, Movement Planner, Multi Purpose, main parachute, maintainability plan, maintenance package, maintenance panel, maintenance parts, maintenance period, maintenance plan, maintenance point, maintenance procedure, maintenance program, management package, marching pack, maritime patrol, master pilot, meeting point, military pay, military procurement, military property, mine planter, missile platform, missile positioning, mobilization plan, monitor panel, motion picture production, motor potential10) Техника: main propulsion, manpower, mean effective pressure, mean power, mean proportional, memorandum of partnership, mile-post, modulator, multiprocessor11) Шутливое выражение: Magic Packet, Mischievous Pease, Mr Piggy, Mystery Pog12) Химия: Metal Particle, Metal Particulate, Metal Poor13) Математика: математическое программирование (mathematical programming), мультипликативное свойство (multiplication property), наиболее мощный (критерий), проблема минимизации (minimization problem)14) Религия: Merry Part15) Железнодорожный термин: Union Pacific Railroad Company16) Юридический термин: Miscellaneous Proceeding, Missing Person, Moot Point, Mountain Patrol, Multi Profiling, Murder And Pillage, Mysterious Past, парламентарий (member of Parliament)17) Бухгалтерия: Money Pit18) Астрономия: Massive Protostar19) Биржевой термин: Market Place20) Ветеринария: Mud Puppies21) Грубое выражение: Manipulative Prostitute, Master Pervert, Motherfucking Perfect22) Дипломатический термин: член Европейского парламента23) Музыка: Mezzo Piano, Music Positive24) Политика: Mauritius25) Телекоммуникации: Mobile Processor, Multilink PPP26) Сокращение: Machine Pistole (Krimmi), compact sub machine gun (Germany; K), Manoeuvre Programmer, Manpower & Personnel (USAF), Marinha Portuguesa (Portugese Navy), Member of Parliament, Metal Particle (Tape), Metal-Piercing, Metropolitan Police, Military Police(man), Mission Planning, Mornarica Pjesadija (Croatian naval infantry), Moteur en Pylone (Pylon-mounted engine (France)), Multipole, Northern Mariana Islands, manufacturing and production, mass production, mounted police, multipurpose, Magnifying Power, Mandatory Protection, Manifold Pressure, Marginal Product, Membrane Potential, Memory Pointer, Minimal Protection, Monolithic Processor, Most Powerful27) Текстиль: Matched Pair28) Университет: My Problem29) Физика: Magnetic Particle, Medium Prismatic, Modal Particle, Multi Physics30) Физиология: Menstrual period, Metatarsal Phalanges, Mitochondria Points31) Электроника: Madhya Pradesh, Maximum Power, Multi Phonon, Multi Polarized32) Вычислительная техника: MultiProtocol, mathematical programming, microprocessor, (PPP) Multilink Protocol (MPPP, RFC 1990), MegaPIXEL (PIXEL, photo), Military Police (man), (контрольная) точка регулировки при профилактике33) Нефть: maximum pressure, давление на всасывании (manifold pressure), период технического обслуживания (maintenance period), порядок технического обслуживания (maintenance procedure), среднее давление (mean pressure)34) Картография: mooring post35) Банковское дело: почтовый перевод (mail payment), microprinting (средство предотвращения копирования чеков)36) Транспорт: Mopar Parts37) Пищевая промышленность: Medium Pizza, Melon Popper, More Pints38) Фирменный знак: Monolith Productions39) Экология: Monitoring Plan40) СМИ: Media Player, Motion Picture, Moving Picture, Multi Page, Multiple Part41) Деловая лексика: Main Product, Manual Pickup, Mass Produced, Means Of Production, Mechanical Perfection, Modes Of Production, Music Profits, член парламента (Великобритания, Member of Parliament)42) Глоссарий компании Сахалин Энерджи: mud pump, СД (medium pressure)43) Образование: Marking Period, module paper44) Инвестиции: mail payment45) Сетевые технологии: Message Passing, Modular Portal, Multi Point, Multi Protocol, multiprocessing, system multiprocessor system, мультипроцессорная обработка46) Полимеры: medium pressure, molded plate, molding pressure47) Программирование: Make Parameter, Multi Precision48) Автоматика: machine perception, machine power, measurement processor49) Контроль качества: Metrology Provision50) Океанография: Mini Plankton51) Безопасность: Message Protector52) Расширение файла: Multiple Processors, Movie (MPEG compressed), Massively Parallel (processing)53) Энергосистемы: market participant54) Нефть и газ: main pipeline, makeup pump, marshalling panel, TP, МН, магистральный нефтепровод55) Электротехника: main protection, metallized paper56) Майкрософт: пакет управления, management point57) Общественная организация: Mautner Project, Myelin Project58) Должность: Material For Promotion, More Pension59) Чат: Mom Pops60) НАСА: Massively Parallel, Minor Planet, Multifunction Panel61) Федеральное бюро расследований: Minneapolis Field Office62) Единицы измерений: Mega Pixels -
35 area
Iபரப்பளவுIIபிரதேசம்துறைIVபரப்பு; பரப்பளவுVபரப்பளவுVIபரப்புபரப்பளவுஇடப்பரப்புIXபரப்புXபரப்பிடம், பரப்பு, பரப்பளவு, வரையிடம்XIபரப்புபரப்புபரப்புகளம்XVபரப்புபகுதிவட்டாரம் -
36 fundamental
adjectivegrundlegend (to für); elementar [Bedürfnisse]; (primary, original) Grund[struktur, -form, -typus]* * *1. adjective(of great importance; essential; basic: Respect for law and order is fundamental to a peaceful society.) grundlegend2. noun(a basic or essential part of any thing: Learning to read is one of the fundamentals of education.) die Grundlage- academic.ru/29886/fundamentally">fundamentally* * *fun·da·men·tal[ˌfʌndəˈmentəl, AM -t̬əl]adj grundlegend\fundamental difference wesentlicher Unterschiedto be of \fundamental importance to sth für etw akk von zentraler Bedeutung sein\fundamental issues Hintergrunddaten pl\fundamental need/principle/right Grundbedürfnis nt/-prinzip nt/-recht nt\fundamental problem grundsätzliches [o grundlegendes] Problem\fundamental question entscheidende Frage\fundamental research [or analysis] Grundlagenforschung f\fundamental tenet zentraler Lehrsatz* * *["fʌndə'mentl]1. adj1) (= essential) issue, question, concept grundlegend; reason eigentlich; point zentral; feature, part wesentlichfundamental principle/right/beliefs — Grundprinzip nt/-recht nt/-überzeugungen pl
fundamental mathematical concepts — Grundbegriffe pl der Mathematik
carbon is fundamental to life —
fundamental to impressionism was the use of bright colours — die Verwendung von leuchtenden Farben war grundlegend für den Impressionismus
2) (= basic) problem, difference, contradiction grundsätzlich; (= basic and deep) change, revolution, shift grundlegend, umwälzend; (= elementary) mistake, error, flaw grundlegend, fundamentalI don't doubt his fundamental goodness — ich zweifle nicht daran, dass er im Grunde ein guter Mensch ist
his fundamental ignorance of this subject — seine fundamentale Unkenntnis auf diesem Gebiet
fundamental structure/form — Grundstruktur f/-form f
fundamental note/frequency — Grundton m/-frequenz f
2. plfundamentals (of subject) — Grundbegriffe pl; (of a problem) Grundlagen pl
the fundamentals of physics — die Grundbegriffe pl der Physik
to get down to (the) fundamentals — bis zu den Grundlagen vordringen
* * *fundamental [ˌfʌndəˈmentl]1. als Grundlage dienend, grundlegend, wesentlich, fundamental (to für), Haupt…2. grundsätzlich, elementar3. Grund…, Fundamental…:fundamental bass → B 2 b;fundamental colo(u)r Grundfarbe f;fundamental data grundlegende Tatsachen;fundamental freedoms Grundfreiheiten pl;fundamental idea Grundbegriff m;fundamental research Grundlagenforschung f;fundamental tone → B 2 a;B s1. Grundlage f, -prinzip n, -begriff m, pl auch Grundzüge pl, Fundament n2. MUSa) Grundton mb) Fundamentalbass m3. PHYS Fundamentaleinheit f4. ELEK Grundwelle f* * *adjectivegrundlegend (to für); elementar [Bedürfnisse]; (primary, original) Grund[struktur, -form, -typus]* * *adj.grundlegend adj.grundsätzlich adj. -
37 multiple-degree-of-freedom system
<tech.gen> (e.g. physics, mathematical statistics) ■ System mit mehreren Freiheitsgraden nEnglish-german technical dictionary > multiple-degree-of-freedom system
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38 Ampère, André-Marie
SUBJECT AREA: Electricity[br]b. 22 Jan 1775 Lyon, Franced. 10 June 1836 Marseille, France[br]French physicist and mathematician who established laws and principles relating magnetism and electricity to each other.[br]Ampère was reputed to have mastered all the then-known mathematics by the age of 12. He became Professor of Physics and Chemistry at Bourg in 1801 and a professor of mathematics at the Ecole Polytechnique in Paris in 1809. Observing a demonstration in 1820 of Oersted's discovery that a magnetic needle was deflected when placed near a current-carrying wire, Ampère was inspired to investigate the subject of electricity, of which he had no previous experience. Within a week he had prepared the first of several important communications on his discoveries to the Academy of Sciences in Paris. Included was a new hypothesis formed on the basis of his experiments on the relation between electricity and magnetism. He investigated the forces exerted on each other by current-carrying conductors and the properties of a solenoid. His mathematical theory describing these phenomena provided the foundations for the development of electro-dynamics and his classic work Théorie mathématique des phénomènes électro-dynamiques was published in 1827.The name "ampere" was adopted to replace the name "weber" as a unit of current after Helmholtz proposed such a change in 1881.[br]Principal Honours and DistinctionsBibliography1827, Théorie mathématique des phénomènes électro-dynamiques, Paris; repub. 1958, Paris (his chief published work).Further ReadingP.Lenard, 1933, Great Men of Science, London, pp. 223–30 (provides a short account). C.C.Gillispie (ed.), 1970, Dictionary of Scientific Biography, Vol. 1, New York, pp.139–46.GW -
39 Poulsen, Valdemar
[br]b. 23 November 1869 Copenhagen, Denmarkd. 23 July 1942 Gentofte, Denmark[br]Danish engineer who developed practical magnetic recording and the arc generator for continuous radio waves.[br]From an early age he was absorbed by phenomena of physics to the exclusion of all other subjects, including mathematics. When choosing his subjects for the final three years in Borgedydskolen in Christianshavn (Copenhagen) before university, he opted for languages and history. At the University of Copenhagen he embarked on the study of medicine in 1889, but broke it off and was apprenticed to the machine firm of A/S Frichs Eftf. in Aarhus. He was employed between 1893 and 1899 as a mechanic and assistant in the laboratory of the Copenhagen Telephone Company KTAS. Eventually he advanced to be Head of the line fault department. This suited his desire for experiment and measurement perfectly. After the invention of the telegraphone in 1898, he left the laboratory and with responsible business people he created Aktieselskabet Telegrafonen, Patent Poulsen in order to develop it further, together with Peder Oluf Pedersen (1874– 1941). Pedersen brought with him the mathematical background which eventually led to his professorship in electronic engineering in 1922.The telegraphone was the basis for multinational industrial endeavours after it was demonstrated at the 1900 World's Exhibition in Paris. It must be said that its strength was also its weakness, because the telegraphone was unique in bringing sound recording and reproduction to the telephone field, but the lack of electronic amplifiers delayed its use outside this and the dictation fields (where headphones could be used) until the 1920s. However, commercial interest was great enough to provoke a number of court cases concerning patent infringement, in which Poulsen frequently figured as a witness.In 1903–4 Poulsen and Pedersen developed the arc generator for continuous radio waves which was used worldwide for radio transmitters in competition with Marconi's spark-generating system. The inspiration for this work came from the research by William Duddell on the musical arc. Whereas Duddell had proposed the use of the oscillations generated in his electric arc for telegraphy in his 1901 UK patent, Poulsen contributed a chamber of hydrogen and a transverse magnetic field which increased the efficiency remarkably. He filed patent applications on these constructions from 1902 and the first publication in a scientific forum took place at the International Electrical Congress in St Louis, Missouri, in 1904.In order to use continuous waves efficiently (the high frequency constituted a carrier), Poulsen developed both a modulator for telegraphy and a detector for the carrier wave. The modulator was such that even the more primitive spark-communication receivers could be used. Later Poulsen and Pedersen developed frequency-shift keying.The Amalgamated Radio-Telegraph Company Ltd was launched in London in 1906, combining the developments of Poulsen and those of De Forest Wireless Telegraph Syndicate. Poulsen contributed his English and American patents. When this company was liquidated in 1908, its assets were taken over by Det Kontinentale Syndikat for Poulsen Radio Telegrafi, A/S in Copenhagen (liquidated 1930–1). Some of the patents had been sold to C.Lorenz AG in Berlin, which was very active.The arc transmitting system was in use worldwide from about 1910 to 1925, and the power increased from 12 kW to 1,000 kW. In 1921 an exceptional transmitter rated at 1,800 kW was erected on Java for communications with the Netherlands. More than one thousand installations had been in use worldwide. The competing systems were initially spark transmitters (Marconi) and later rotary converters ( Westinghouse). Similar power was available from valve transmitters only much later.From c. 1912 Poulsen did not contribute actively to further development. He led a life as a well-respected engineer and scientist and served on several committees. He had his private laboratory and made experiments in the composition of matter and certain resonance phenomena; however, nothing was published. It has recently been suggested that Poulsen could not have been unaware of Oberlin Smith's work and publication in 1888, but his extreme honesty in technical matters indicates that his development was indeed independent. In the case of the arc generator, Poulsen was always extremely frank about the inspiration he gained from earlier developers' work.[br]Bibliography1899, British patent no. 8,961 (the first British telegraphone patent). 1903, British patent no. 15,599 (the first British arc-genera tor patent).His scientific publications are few, but fundamental accounts of his contribution are: 1900, "Das Telegraphon", Ann. d. Physik 3:754–60; 1904, "System for producing continuous oscillations", Trans. Int. El. Congr. St. Louis, Vol. II, pp. 963–71.Further ReadingA.Larsen, 1950, Telegrafonen og den Traadløse, Ingeniørvidenskabelige Skrifter no. 2, Copenhagen (provides a very complete, although somewhat confusing, account of Poulsen's contributions; a list of his patents is given on pp. 285–93).F.K.Engel, 1990, Documents on the Invention of Magnetic Re cor ding in 1878, New York: Audio Engineering Society, reprint no. 2,914 (G2) (it is here that doubt is expressed about whether Poulsen's ideas were developed independently).GB-N
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