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81 pneumatic
пневматическая шина; пневматика; пневматическое устройство; II пневматический; воздушный- pneumatic atomizing nozzle - pneumatic beetle - pneumatic block - pneumatic booster - pneumatic capacitance - pneumatic cell - pneumatic check valve - pneumatic choke - pneumatic circuit - pneumatic clamp - pneumatic classifier - pneumatic cleaning - pneumatic clutch - pneumatic collet - pneumatic compactor - pneumatic concrete placer - pneumatic console-mounted component - pneumatic control valve - pneumatic controlled transmission - pneumatic controller - pneumatic conveying - pneumatic conveying drier - pneumatic crane - pneumatic crawler drill rig - pneumatic cushioning - pneumatic cylinder - pneumatic damper - pneumatic delay unit - pneumatic densitometer - pneumatic directional control valve - pneumatic discharge centrifuge - pneumatic door operation - pneumatic drier - pneumatic firing - pneumatic flow contol valve - pneumatic fluid - pneumatic fluid power - pneumatic gage - pneumatic gate - pneumatic limit switch - pneumatic linking - pneumatic manifold - pneumatic outlet - pneumatic roller - pneumatic seat - pneumatic separator - pneumatic shock absorption - pneumatic spring - pneumatic starting device - pneumatic system - pneumatic-tired roller - pneumatic tool - pneumatic tyre - pneumatic tyre cover - pneumatic tyred roller - pneumatic valve - cylinder-operated pneumatic valve - double-solenoid pneumatic valve - electro-pneumatic brake - foot-operated pneumatic valve - hydro-pneumatic front suspension - hydro-pneumatic rare suspension -
82 photoelectric
a фотоэлектрический -
83 square
1. n квадрат2. n прямоугольник3. n предмет четырёхугольной формы4. n полигр. кант5. n площадьsquare measure — квадратная мера, мера площади
6. n сквер7. n амер. квартал8. n клетка; поле9. n угольник; чертёжный треугольник10. n мат. квадрат величины, вторая степень11. n единица площади, равная 100 квадратным футамквадратная схема, построенная на основе двух бинарных признаков
12. n пренебр. мещанин, обыватель, «добропорядочный» буржуа; консерватор13. n пренебр. «правильный» человек, человек, не имеющий дурных пристрастий14. n пренебр. бот. три подцветника цветка хлопчатника15. n пренебр. род кроссворда16. n пренебр. уст. правило; критерий; образец17. a квадратный, имеющий квадратную формуsquare area — площадь, квадратура
18. a прямой; прямоугольный19. a четырёхугольный20. a идущий под прямым углом, перпендикулярный21. a мат. взятый в квадрате, квадратичный22. a широкий, раздавшийся23. a редк. клетчатыйsquare game — игра, в которой участвуют четыре человека
24. adv прямо, как раз, непосредственно25. adv под прямым углом, перпендикулярно26. adv лицом; лицом к лицу27. adv разг. честно, без обманаsquare thing — честная сделка; честный поступок
28. adv разг. полностью, безоговорочно, твёрдо29. adv разг. как положено, как надоthey were married, square and regular — они поженились, всё как положено
30. v придавать квадратную форму31. v делать прямоугольным32. v выравнивать, обтёсывать под прямым углом33. v распрямлять, выпрямлять34. v мат. возводить в квадрат35. v мат. определить площадь, измерять площадь36. v мат. приводить в порядок, улаживать, урегулировать37. v мат. сбалансировать; рассчитатьсяbe square with — рассчитаться с; расплатиться с
square accounts with — рассчитаться; расплатиться с
get square with a person — рассчитаться; расплатиться с
38. v мат. разг. платить39. v мат. разг. подкупать40. v мат. соответствовать, отвечатьhis practice does not always square with his theories — его поступки не всегда соответствуют его теориям
does this square with your conception of the phenomenon? — согласуется ли это с вашим пониманием данного явления?
square with logistic requirements — соответствовать потребностям материально-технического обеспечения
41. v мат. приноравливать, приспосабливать, согласовывать, сообразовывать42. v мат. мерить, соразмерять43. v мат. спорт. сравнять счёт44. v мат. спорт. изготавливаться к бою45. v мат. смело встретить, встретить грудьюСинонимический ряд:1. conservative (adj.) conservative; traditional2. conventional (adj.) button-down; conventional; orthodox3. fair (adj.) candid; dispassionate; equitable; fair; fair-minded; impartial; impersonal; indifferent; just; liberal; nondiscriminatory; nonpartisan; non-partisan; objective; straightforward; unbiased; uncolored; undistinctive; unprejudiced; unprepossessed4. four-sided (adj.) boxy; cubic; equal-sided; four-sided; foursquare; quadrangular; quadrate; quadratic; quadratical; rectangular; right-angled5. straight (adj.) equal; even; exact; level; perpendicular; plumb; precise; quit; squared; straight; true6. fogy (noun) antediluvian; fogram; fogy; fossil; fuddy-duddy; mid-Victorian; mossback; stick-in-the-mud7. plane figure (noun) block; box; cube; equal-sided rectangle; plane figure; quadrate; quadrilateral; rectangle; tetragon8. plaza (noun) common; forum; green; market place; open space; park; piazza; plaza; town common9. agree (verb) accord; agree; check; check out; cohere; comport; concur; conform; consist; consort; correspond; dovetail; fit in; go; harmonise; harmonize; jibe; jive; march; match; rhyme; tally10. bribe (verb) bribe; buy; buy off; fix; have; sop; tamper with11. clear (verb) clear; clear off; discharge; liquidate; pay; pay up; quit; satisfy12. even (verb) equal; equalise; equate; even; level13. fit (verb) acclimate; acclimatise; accommodate; adapt; adjust; conform; fashion; fit; quadrate; suit; tailor; tailor-make14. mend (verb) mend; reconcile; resolve; settle15. just (other) accurately; bang; exactly; just; precisely; right; sharp; spang; squarelyАнтонимический ряд:circle; contradict; exacerbate; indefinite; radical; unfair -
84 запоминающая ячейка с несимметричным выходом
Русско-английский большой базовый словарь > запоминающая ячейка с несимметричным выходом
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85 каскадный
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86 клистронный генератор
1. klystron generator2. klystron oscillatorламповый генератор — valve oscillator; vacuum-tube oscillator
магнитогидродинамический генератор на неравновесной плазме — non-equilibrium magnetohydrodynamic generator
генератор накачки — pump oscillator; pump
генератор несущей частоты — carrier oscillator; carrier generator
генератор низкой частоты — audio oscillator; audio signal generator
Русско-английский большой базовый словарь > клистронный генератор
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87 single-ended
single-ended circuit — несимметричная схема; схема с несимметричным выходом
English-Russian dictionary of Information technology > single-ended
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88 ferroelectric
сегнетоэлектрик; сегнетоэлектрический -
89 Computers
The brain has been compared to a digital computer because the neuron, like a switch or valve, either does or does not complete a circuit. But at that point the similarity ends. The switch in the digital computer is constant in its effect, and its effect is large in proportion to the total output of the machine. The effect produced by the neuron varies with its recovery from [the] refractory phase and with its metabolic state. The number of neurons involved in any action runs into millions so that the influence of any one is negligible.... Any cell in the system can be dispensed with.... The brain is an analogical machine, not digital. Analysis of the integrative activities will probably have to be in statistical terms. (Lashley, quoted in Beach, Hebb, Morgan & Nissen, 1960, p. 539)It is essential to realize that a computer is not a mere "number cruncher," or supercalculating arithmetic machine, although this is how computers are commonly regarded by people having no familiarity with artificial intelligence. Computers do not crunch numbers; they manipulate symbols.... Digital computers originally developed with mathematical problems in mind, are in fact general purpose symbol manipulating machines....The terms "computer" and "computation" are themselves unfortunate, in view of their misleading arithmetical connotations. The definition of artificial intelligence previously cited-"the study of intelligence as computation"-does not imply that intelligence is really counting. Intelligence may be defined as the ability creatively to manipulate symbols, or process information, given the requirements of the task in hand. (Boden, 1981, pp. 15, 16-17)The task is to get computers to explain things to themselves, to ask questions about their experiences so as to cause those explanations to be forthcoming, and to be creative in coming up with explanations that have not been previously available. (Schank, 1986, p. 19)In What Computers Can't Do, written in 1969 (2nd edition, 1972), the main objection to AI was the impossibility of using rules to select only those facts about the real world that were relevant in a given situation. The "Introduction" to the paperback edition of the book, published by Harper & Row in 1979, pointed out further that no one had the slightest idea how to represent the common sense understanding possessed even by a four-year-old. (Dreyfus & Dreyfus, 1986, p. 102)A popular myth says that the invention of the computer diminishes our sense of ourselves, because it shows that rational thought is not special to human beings, but can be carried on by a mere machine. It is a short stop from there to the conclusion that intelligence is mechanical, which many people find to be an affront to all that is most precious and singular about their humanness.In fact, the computer, early in its career, was not an instrument of the philistines, but a humanizing influence. It helped to revive an idea that had fallen into disrepute: the idea that the mind is real, that it has an inner structure and a complex organization, and can be understood in scientific terms. For some three decades, until the 1940s, American psychology had lain in the grip of the ice age of behaviorism, which was antimental through and through. During these years, extreme behaviorists banished the study of thought from their agenda. Mind and consciousness, thinking, imagining, planning, solving problems, were dismissed as worthless for anything except speculation. Only the external aspects of behavior, the surface manifestations, were grist for the scientist's mill, because only they could be observed and measured....It is one of the surprising gifts of the computer in the history of ideas that it played a part in giving back to psychology what it had lost, which was nothing less than the mind itself. In particular, there was a revival of interest in how the mind represents the world internally to itself, by means of knowledge structures such as ideas, symbols, images, and inner narratives, all of which had been consigned to the realm of mysticism. (Campbell, 1989, p. 10)[Our artifacts] only have meaning because we give it to them; their intentionality, like that of smoke signals and writing, is essentially borrowed, hence derivative. To put it bluntly: computers themselves don't mean anything by their tokens (any more than books do)-they only mean what we say they do. Genuine understanding, on the other hand, is intentional "in its own right" and not derivatively from something else. (Haugeland, 1981a, pp. 32-33)he debate over the possibility of computer thought will never be won or lost; it will simply cease to be of interest, like the previous debate over man as a clockwork mechanism. (Bolter, 1984, p. 190)t takes us a long time to emotionally digest a new idea. The computer is too big a step, and too recently made, for us to quickly recover our balance and gauge its potential. It's an enormous accelerator, perhaps the greatest one since the plow, twelve thousand years ago. As an intelligence amplifier, it speeds up everything-including itself-and it continually improves because its heart is information or, more plainly, ideas. We can no more calculate its consequences than Babbage could have foreseen antibiotics, the Pill, or space stations.Further, the effects of those ideas are rapidly compounding, because a computer design is itself just a set of ideas. As we get better at manipulating ideas by building ever better computers, we get better at building even better computers-it's an ever-escalating upward spiral. The early nineteenth century, when the computer's story began, is already so far back that it may as well be the Stone Age. (Rawlins, 1997, p. 19)According to weak AI, the principle value of the computer in the study of the mind is that it gives us a very powerful tool. For example, it enables us to formulate and test hypotheses in a more rigorous and precise fashion than before. But according to strong AI the computer is not merely a tool in the study of the mind; rather the appropriately programmed computer really is a mind in the sense that computers given the right programs can be literally said to understand and have other cognitive states. And according to strong AI, because the programmed computer has cognitive states, the programs are not mere tools that enable us to test psychological explanations; rather, the programs are themselves the explanations. (Searle, 1981b, p. 353)What makes people smarter than machines? They certainly are not quicker or more precise. Yet people are far better at perceiving objects in natural scenes and noting their relations, at understanding language and retrieving contextually appropriate information from memory, at making plans and carrying out contextually appropriate actions, and at a wide range of other natural cognitive tasks. People are also far better at learning to do these things more accurately and fluently through processing experience.What is the basis for these differences? One answer, perhaps the classic one we might expect from artificial intelligence, is "software." If we only had the right computer program, the argument goes, we might be able to capture the fluidity and adaptability of human information processing. Certainly this answer is partially correct. There have been great breakthroughs in our understanding of cognition as a result of the development of expressive high-level computer languages and powerful algorithms. However, we do not think that software is the whole story.In our view, people are smarter than today's computers because the brain employs a basic computational architecture that is more suited to deal with a central aspect of the natural information processing tasks that people are so good at.... hese tasks generally require the simultaneous consideration of many pieces of information or constraints. Each constraint may be imperfectly specified and ambiguous, yet each can play a potentially decisive role in determining the outcome of processing. (McClelland, Rumelhart & Hinton, 1986, pp. 3-4)Historical dictionary of quotations in cognitive science > Computers
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