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81 graph
1) граф2) график || строить график3) диаграмма || чертить диаграмму•- alternating composition graph - arbitrarily transversable graph - derived graph - doubly connected graph - doubly transitive graph - fully connected graph - locally countable graph - locally finite graph - locally restricted graph - log-log graph - partially labeled graph - partially orderable graph - progressively finite graph - regressively finite graph - strictly weak graph - strongly orientable graph - strongly regular graph - strongly rigid graph - strongly singular graph - strongly smooth graph - totally inductive graph - triangleless graph - triply transitive graph - uniquely intersectable graph - uniquely representable graph - weakly disconnected graph -
82 burning
1. n горение2. n обжиг; прокаливаниеsoft burning — легкий обжиг; слабый обжиг
3. n окисление4. n с. -х. пал5. n уст. жар6. a горячий, пылающийburning hot — обжигающий; обжигающе горячий
7. a эмоц. -усил. жгучий, нестерпимый8. a горючийСинонимический ряд:1. ablaze (adj.) ablaze; afire; aflame; alight; blazing; conflagrant; fiery; flaring; ignited; incandescent; inflamed; lighted; on fire2. caustic (adj.) biting; caustic; cutting; sharp; stinging3. feverish (adj.) fervid; fevered; feverish; heated; hectic4. hot (adj.) baking; blistering; boiling; broiling; hot; scalding; scorching; sizzling; sultry; sweltering; sweltry5. impassioned (adj.) ardent; dithyrambic; eager; fervent; flaming; glowing; hot-blooded; impassioned; intense; overheated; passionate; perfervid; red-hot; torrid; vehement; white-hot; zealous6. painful (adj.) aching; irritated; painful; raw; sore; throbbing7. pressing (adj.) clamant; clamorous; crying; dire; exigent; imperative; important; importunate; insistent; instant; pressing; urgent8. baking (verb) baking; broiling; cooking; melting; roasting; sweltering9. beaming (verb) beaming; gleaming; glowing; radiating; shining10. blazing (verb) blazing; combusting; flaming; flaring11. boiling (verb) boiling; bubbling; churning; fermenting; moiling; simmering; smouldering12. burning (verb) angering; blow up; blowing up; boiling over; bristling; burning; exploding; flare up; flaring up; fuming; raging; seething13. charring (verb) charring; scorching; searing14. firing (verb) firing; kilning15. smarting (verb) biting; smarting16. stinging (verb) inflaming; irritating; stinging -
83 topical
1. n документальный фильм; хроникальный фильм, кинорепортаж2. n серия3. a актуальный, животрепещущий4. a имеющий местное значение5. a написанный на злобу дня; важный для текущего момента6. a тематический; проблемный7. a мед. местный, топическийСинонимический ряд:1. current (adj.) all over town; current; current interest; familiar; in the news; of widespread interest; popular; well-known; widely known2. local (adj.) confined; insular; isolated; limited; local; narrow; provincial; regional; restricted3. thematic (adj.) thematic -
84 area
area ['eərɪə]1 noun(a) (surface size) superficie f, aire f;∎ the garden is 500m2 in area, the garden has or covers an area of 500m2 le jardin a une superficie de 500m2(b) (region) territoire m, région f; (of town) zone f, quartier m; (of lung, brain, diskette, surface) zone f;∎ houses were searched over a wide area on a fouillé les maisons sur un large périmètre;∎ we're staying in the Boston area nous logeons dans la région de Boston;∎ area of operations branche f d'activité;∎ residential area (in town) quartier m résidentiel;∎ industrial/suburban area zone f industrielle/suburbaine;∎ cotton (growing)/mining area région f du coton/minière;∎ customs area territoire m douanier;∎ Finance currency area zone f monétaire;∎ the Manchester area la région de Manchester;∎ the Greater London area l'agglomération f londonienne, le grand Londres;∎ area of agreement terrain m d'entente;∎ figurative problem area domaine m problématique;∎ growth area secteur m de croissance;∎ prohibited or restricted area zone f prohibée;∎ Computing storage area zone f de mémoire;∎ Transport service area (on motorway) relais m d'autoroute;∎ a residential/shopping area un quartier résidentiel/commercial;∎ Ecology a conservation area un site classé;∎ Ecology a protected wildlife area une réserve naturelle;∎ Ecology area of outstanding natural beauty = zone naturelle protégée∎ living/eating area coin salon/salle à manger;∎ a large kitchen area une grande cuisine;∎ parking area parking m, aire m ou French Canadian terrain m de stationnement;∎ smoking area espace m fumeurs(d) (of study, investigation, experience) domaine m, champ m;∎ area of expertise domaine m de compétence;∎ in the foreign policy area dans le domaine de la politique étrangère(director, office) régional►► Military area bombing bombardement m sur zone;Telecommunications area code indicatif m de zone;Commerce area manager directeur(trice) m,f régional(e);American area rug tapis m, French Canadian carpette f;Marketing area sample échantillon m par zone;Marketing area sampling échantillonnage m par zone -
85 Ricardo, Sir Harry Ralph
[br]b. 26 January 1885 London, Englandd. 18 May 1974 Graffham, Sussex, England[br]English mechanical engineer; researcher, designer and developer of internal combustion engines.[br]Harry Ricardo was the eldest child and only son of Halsey Ricardo (architect) and Catherine Rendel (daughter of Alexander Rendel, senior partner in the firm of consulting civil engineers that later became Rendel, Palmer and Tritton). He was educated at Rugby School and at Cambridge. While still at school, he designed and made a steam engine to drive his bicycle, and by the time he went up to Cambridge in 1903 he was a skilled craftsman. At Cambridge, he made a motor cycle powered by a petrol engine of his own design, and with this he won a fuel-consumption competition by covering almost 40 miles (64 km) on a quart (1.14 1) of petrol. This brought him to the attention of Professor Bertram Hopkinson, who invited him to help with research on turbulence and pre-ignition in internal combustion engines. After leaving Cambridge in 1907, he joined his grandfather's firm and became head of the design department for mechanical equipment used in civil engineering. In 1916 he was asked to help with the problem of loading tanks on to railway trucks. He was then given the task of designing and organizing the manufacture of engines for tanks, and the success of this enterprise encouraged him to set up his own establishment at Shoreham, devoted to research on, and design and development of, internal combustion engines.Leading on from the work with Hopkinson were his discoveries on the suppression of detonation in spark-ignition engines. He noted that the current paraffinic fuels were more prone to detonation than the aromatics, which were being discarded as they did not comply with the existing specifications because of their high specific gravity. He introduced the concepts of "highest useful compression ratio" (HUCR) and "toluene number" for fuel samples burned in a special variable compression-ratio engine. The toluene number was the proportion of toluene in heptane that gave the same HUCR as the fuel sample. Later, toluene was superseded by iso-octane to give the now familiar octane rating. He went on to improve the combustion in side-valve engines by increasing turbulence, shortening the flame path and minimizing the clearance between piston and head by concentrating the combustion space over the valves. By these means, the compression ratio could be increased to that used by overhead-valve engines before detonation intervened. The very hot poppet valve restricted the advancement of all internal combustion engines, so he turned his attention to eliminating it by use of the single sleeve-valve, this being developed with support from the Air Ministry. By the end of the Second World War some 130,000 such aero-engines had been built by Bristol, Napier and Rolls-Royce before the piston aero-engine was superseded by the gas turbine of Whittle. He even contributed to the success of the latter by developing a fuel control system for it.Concurrent with this was work on the diesel engine. He designed and developed the engine that halved the fuel consumption of London buses. He invented and perfected the "Comet" series of combustion chambers for diesel engines, and the Company was consulted by the vast majority of international internal combustion engine manufacturers. He published and lectured widely and fully deserved his many honours; he was elected FRS in 1929, was President of the Institution of Mechanical Engineers in 1944–5 and was knighted in 1948. This shy and modest, though very determined man was highly regarded by all who came into contact with him. It was said that research into internal combustion engines, his family and boats constituted all that he would wish from life.[br]Principal Honours and DistinctionsKnighted 1948. FRS 1929. President, Institution of Mechanical Engineers 1944–5.Bibliography1968, Memo \& Machines. The Pattern of My Life, London: Constable.Further ReadingSir William Hawthorne, 1976, "Harry Ralph Ricardo", Biographical Memoirs of Fellows of the Royal Society 22.JBBiographical history of technology > Ricardo, Sir Harry Ralph
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86 Grammar
I think that the failure to offer a precise account of the notion "grammar" is not just a superficial defect in linguistic theory that can be remedied by adding one more definition. It seems to me that until this notion is clarified, no part of linguistic theory can achieve anything like a satisfactory development.... I have been discussing a grammar of a particular language here as analogous to a particular scientific theory, dealing with its subject matter (the set of sentences of this language) much as embryology or physics deals with its subject matter. (Chomsky, 1964, p. 213)Obviously, every speaker of a language has mastered and internalized a generative grammar that expresses his knowledge of his language. This is not to say that he is aware of the rules of grammar or even that he can become aware of them, or that his statements about his intuitive knowledge of his language are necessarily accurate. (Chomsky, 1965, p. 8)Much effort has been devoted to showing that the class of possible transformations can be substantially reduced without loss of descriptive power through the discovery of quite general conditions that all such rules and the representations they operate on and form must meet.... [The] transformational rules, at least for a substantial core grammar, can be reduced to the single rule, "Move alpha" (that is, "move any category anywhere"). (Mehler, Walker & Garrett, 1982, p. 21)4) The Relationship of Transformational Grammar to Semantics and to Human Performancehe implications of assuming a semantic memory for what we might call "generative psycholinguistics" are: that dichotomous judgments of semantic well-formedness versus anomaly are not essential or inherent to language performance; that the transformational component of a grammar is the part most relevant to performance models; that a generative grammar's role should be viewed as restricted to language production, whereas sentence understanding should be treated as a problem of extracting a cognitive representation of a text's message; that until some theoretical notion of cognitive representation is incorporated into linguistic conceptions, they are unlikely to provide either powerful language-processing programs or psychologically relevant theories.Although these implications conflict with the way others have viewed the relationship of transformational grammars to semantics and to human performance, they do not eliminate the importance of such grammars to psychologists, an importance stressed in, and indeed largely created by, the work of Chomsky. It is precisely because of a growing interdependence between such linguistic theory and psychological performance models that their relationship needs to be clarified. (Quillian, 1968, p. 260)here are some terminological distinctions that are crucial to explain, or else confusions can easily arise. In the formal study of grammar, a language is defined as a set of sentences, possibly infinite, where each sentence is a string of symbols or words. One can think of each sentence as having several representations linked together: one for its sound pattern, one for its meaning, one for the string of words constituting it, possibly others for other data structures such as the "surface structure" and "deep structure" that are held to mediate the mapping between sound and meaning. Because no finite system can store an infinite number of sentences, and because humans in particular are clearly not pullstring dolls that emit sentences from a finite stored list, one must explain human language abilities by imputing to them a grammar, which in the technical sense is a finite rule system, or programme, or circuit design, capable of generating and recognizing the sentences of a particular language. This "mental grammar" or "psychogrammar" is the neural system that allows us to speak and understand the possible word sequences of our native tongue. A grammar for a specific language is obviously acquired by a human during childhood, but there must be neural circuitry that actually carries out the acquisition process in the child, and this circuitry may be called the language faculty or language acquisition device. An important part of the language faculty is universal grammar, an implementation of a set of principles or constraints that govern the possible form of any human grammar. (Pinker, 1996, p. 263)A grammar of language L is essentially a theory of L. Any scientific theory is based on a finite number of observations, and it seeks to relate the observed phenomena and to predict new phenomena by constructing general laws in terms of hypothetical constructs.... Similarly a grammar of English is based on a finite corpus of utterances (observations), and it will contain certain grammatical rules (laws) stated in terms of the particular phonemes, phrases, etc., of English (hypothetical constructs). These rules express structural relations among the sentences of the corpus and the infinite number of sentences generated by the grammar beyond the corpus (predictions). (Chomsky, 1957, p. 49)Historical dictionary of quotations in cognitive science > Grammar
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87 исчисление
n.calculus, computation
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