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1 simple invention
Патенты: простое изобретение -
2 simple invention
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3 simple invention
Англо-русский словарь по исследованиям и ноу-хау > simple invention
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4 invention
- invention in contemplation
- invention made in common
- invention reduced to practice
- hide the invention
- invention of application
- invention of no avail
- abandoned invention
- accidental invention
- actual invention
- additional invention
- AEC contract invention
- aggregative invention
- alleged invention
- atomic energy invention
- basic invention
- biotechnological invention
- broad invention
- chemical invention
- claimed invention
- cognate inventions
- combination invention
- communicated inventions
- company's invention
- competing invention
- complete invention
- contemplated invention
- dead wood invention
- declassified invention
- defense invention
- defensive invention
- dependent invention
- derived invention
- design invention
- developing invention
- disclosed invention
- distinct invention
- domestic invention
- economic invention
- efficiency promoting invention
- employee's invention
- epoch-making invention
- finished invention
- foreign invention
- fraudulent invention
- free invention
- frivolous invention
- fully disclosed invention
- fundamental invention
- gene-based invention
- generic invention
- home invention
- immature invention
- imperfect invention
- incidental invention
- incomplete invention
- independent invention
- individual invention
- ineffective invention
- injurious invention
- interfering invention
- joint invention
- labor saving invention
- later invention
- main invention under the PCT
- method invention
- military invention
- narrow invention
- new invention
- novel invention
- obvious invention
- ordinary invention
- original invention
- outsider's invention
- paper invention
- patentable invention
- patented invention
- pioneer invention
- pioneering invention
- practical invention
- practically operative invention
- prior invention
- process invention
- proposed invention
- protected invention
- purported invention
- recognized invention
- recommended invention
- registered invention
- revolutionizing invention
- scandalous invention
- secret invention
- service invention
- simple invention
- specific invention
- subordinate invention
- supplementary invention
- supposed invention
- trivial invention
- unfinished invention
- unobvious invention
- unpatentable invention
- unpatented invention
- unrealizable invention
- useful invention
- utility invention
- vicious invention
- works invention
- worthless invention* * *изобретение (решение технической задачи, обладающее новизной и дающее положительный эффект) -
5 single
single [ˈsɪŋgl]1. adjectivea. ( = just one) seul• a single department should deal with all these matters un service unique devrait traiter toutes ces affairesb. ( = individual) the biggest single issue in the election campaign le sujet principal de la campagne électoralec. [knot, flower, thickness] simpled. ( = unmarried) célibataire2. nounb. ( = record) a single un 45 tours3. plural noun4. compounds[achievement] fait sans aucune aide► single honours noun (British University) also single honours degree ≈ licence f préparée dans une seule matière• to be single-minded about sth concentrer tous ses efforts sur qch ► single mother noun mère f célibataire( = pick out) choisir* * *['sɪŋgl] 1.1) (also single ticket) aller m simple2) Tourism (also single room) chambre f à une personne2.1) ( sole) seul2) ( not double) [sink] à un bac; [unit] simple; [door] à un battant; [wardrobe] à une porte; [sheet, duvet] pour une personneinflation is in single figures — Economics l'inflation est inférieure à 10%
3) ( for one) [bed, tariff, portion] pour une personne4) ( unmarried) célibataire5) ( used emphatically)6) (describing main cause, aspect)•Phrasal Verbs: -
6 Lee, Revd William
SUBJECT AREA: Textiles[br]d. c. 1615[br]English inventor of the first knitting machine, called the stocking frame.[br]It would seem that most of the stories about Lee's invention of the stocking frame cannot be verified by any contemporary evidence, and the first written accounts do not appear until the second half of the seventeenth century. The claim that he was Master of Arts from St John's College, Cambridge, was first made in 1607 but cannot be checked because the records have not survived. The date for the invention of the knitting machine as being 1589 was made at the same time, but again there is no supporting evidence. There is no evidence that Lee was Vicar of Calverton, nor that he was in Holy Orders at all. Likewise there is no evidence for the existence of the woman, whether she was girlfriend, fiancée or wife, who is said to have inspired the invention, and claims regarding the involvement of Queen Elizabeth I and her refusal to grant a patent because the stockings were wool and not silk are also without contemporary foundation. Yet the first known reference shows that Lee was the inventor of the knitting machine, for the partnership agreement between him and George Brooke dated 6 June 1600 states that "William Lee hath invented a very speedy manner of making works usually wrought by knitting needles as stockings, waistcoats and such like". This agreement was to last for twenty-two years, but terminated prematurely when Brooke was executed for high treason in 1603. Lee continued to try and exploit his invention, for in 1605 he described himself as "Master of Arts" when he petitioned the Court of Aldermen of the City of London as the first inventor of an engine to make silk stockings. In 1609 the Weavers' Company of London recorded Lee as "a weaver of silk stockings by engine". These petitions suggest that he was having difficulty in establishing his invention, which may be why in 1612 there is a record of him in Rouen, France, where he hoped to have better fortune. If he had been invited there by Henry IV, his hopes were dashed by the assassination of the king soon afterwards. He was to supply four knitting machines, and there is further evidence that he was in France in 1615, but it is thought that he died in that country soon afterwards.The machine Lee invented was probably the most complex of its day, partly because the need to use silk meant that the needles were very fine. Henson (1970) in 1831 took five pages in his book to describe knitting on a stocking frame which had over 2,066 pieces. To knit a row of stitches took eleven separate stages, and great care and watchfulness were required to ensure that all the loops were equal and regular. This shows how complex the machines were and points to Lee's great achievement in actually making one. The basic principles of its operation remained unaltered throughout its extraordinarily long life, and a few still remained in use commercially in the early 1990s.[br]Further ReadingJ.T.Millington and S.D.Chapman (eds), 1989, Four Centuries of Machine Knitting, Commemorating William Lee's Invention of the Stocking Frame in 1589, Leicester (N.Harte examines the surviving evidence for the life of William Lee and this must be considered as the most up-to-date biographical information).Dictionary of National Biography (this contains only the old stories).Earlier important books covering Lee's life and invention are G.Henson, 1970, History of the Framework Knitters, reprint, Newton Abbot (orig. pub. 1831); and W.Felkin, 1967, History of the Machine-wrought Hosiery and Lace Manufactures, reprint, Newton Abbot (orig. pub. 1867).M.Palmer, 1984, Framework Knitting, Aylesbury (a simple account of the mechanism of the stocking frame).R.L.Hills, "William Lee and his knitting machine", Journal of the Textile Institute 80(2) (a more detailed account).M.Grass and A.Grass, 1967, Stockings for a Queen. The Life of William Lee, the Elizabethan Inventor, London.RLH -
7 pure
'pjuə1) (not mixed with anything especially dirty or less valuable: pure gold.) puro2) (clean, especially morally: pure thoughts.) puro3) (complete; absolute: a pure accident.) puro, completo4) ((of sounds) clear; keeping in tune: She sang in a high pure tone.) límpido•- purely- pureness
- purity
- purify
- purification
- pure-blooded
- pure-bred
- pure and simple
pure adj puro
puré sustantivo masculino: puré de tomates tomato purée o paste; puré de papas or (Esp) patatas mashed o creamed potatoes
puré m Culin purée, thick soup
puré de patatas, mashed potatoes Locuciones: estar hecho puré, to be exhausted o familiar to be knackered ' puré' also found in these entries: Spanish: candorosa - candoroso - castiza - castizo - comerse - grumosa - grumoso - impoluta - impoluto - lana - ley - liofilizar - mera - mero - pura - puro - simple - aplastar - carambola - conjetura - mancha English: banger - cream - crisps - mash - potato chips - pure - soup - conjecture - croquette - puree - racially - sheer - solidtr['pjʊəSMALLr/SMALL]1 (gen) puro,-a\SMALLIDIOMATIC EXPRESSION/SMALLpure and simple puro,-a y simplepure new wool pura lana virgenadj.• acendrado, -a adj.• castizo, -a adj.• casto, -a adj.• fino, -a adj.• genuino, -a adj.• honesto, -a adj.• incorrupto, -a adj.• limpio, -a adj.• lirondo, -a adj.• mondo, -a adj.• neto, -a adj.• puro, -a adj.• terso, -a adj.pjʊr, pjʊə(r)a) ( unmixed) puroit's negligence pure and simple — se trata de negligencia, lisa or simple y llanamente
b) ( not applied) (before n) <science/mathematics> puro[pjʊǝ(r)]1. ADJ(compar purer) (superl purest)1) (=unadulterated) [wool, alcohol, substance] puro; [silk] naturalit's blackmail, pure and simple — esto es chantaje, lisa y llanamente
2) (=clean, clear) [air, water, sound, light] puro3) (=sheer) [pleasure, luck, coincidence, speculation] puro4) (=theoretical) puro5) (=virgin, blameless) puropure in or of heart — liter limpio de corazón
2.CPDPUREpure vowel N — vocal f simple
Position of "puro"
You should generally put p uro after the noun when you mean pure in the sense of "uncontaminated" or "unadulterated" and before the noun in the sense of "sheer" or "plain":
... pure olive oil...... aceite puro de oliva...
It's pure coincidence Es pura coincidencia For further uses and examples, see main entry* * *[pjʊr, pjʊə(r)]a) ( unmixed) puroit's negligence pure and simple — se trata de negligencia, lisa or simple y llanamente
b) ( not applied) (before n) <science/mathematics> puro -
8 Monro, Philip Peter
SUBJECT AREA: Chemical technology[br]b. 27 May 1946 London, England[br]English biologist, inventor of a water-purification process by osmosis.[br]Monro's whole family background is engineering, an interest he did not share. Instead, he preferred biology, an enthusiasm aroused by reading the celebrated Science of Life by H.G. and G.P.Wells and Julian Huxley. Educated at a London comprehensive school, Monro found it necessary to attend evening classes while at school to take his advanced level science examinations. Lacking parental support, he could not pursue a degree course until he was 21 years old, and so he gained valuable practical experience as a research technician. He resumed his studies and took a zoology degree at Portsmouth Polytechnic. He then worked in a range of zoology and medical laboratories, culminating after twelve years as a Senior Experimental Officer at Southampton Medical School. In 1989 he relinquished his post to devote himself fall time to developing his inventions as Managing Director of Hampshire Advisory and Technical Services Ltd (HATS). Also in 1988 he obtained his PhD from Southampton University, in the field of embryology.Monro had meanwhile been demonstrating a talent for invention, mainly in microscopy. His most important invention, however, is of a water-purification system. The idea for it came from Michael Wilson of the Institute of Dental Surgery in London, who evolved a technique for osmotic production of sterile oral rehydration solutions, of particular use in treating infants suffering from diarrhoea in third-world countries. Monro broadened the original concept to include dried food, intravenous solutions and even dried blood. The process uses simple equipment and no external power and works as follows: a dry sugar/salts mixture is sealed in one compartment of a double bag, the common wall of which is a semipermeable membrane. Impure water is placed in the empty compartment and the water transfers across the membrane by the osmotic force of the sugar/salts. As the pores in the membrane exclude all viruses, bacteria and their toxins, a sterile solution is produced.With the help of a research fellowship granted for humanitarian reasons at King Alfred College, Winchester, the invention was developed to functional prototype stage in 1993, with worldwide patent protection. Commercial production was expected to follow, if sufficient financial backing were forthcoming. The process is not intended to replace large installations, but will revolutionize the small-scale production of sterile water in scattered third-world communities and in disaster areas where normal services have been disrupted.HATS was awarded First Prize in the small business category and was overall prize winner in the Toshiba Year of Invention, received a NatWest/BP award for technology and a Prince of Wales Award for Innovation.[br]Bibliography1993, with M.Wilson and W.A.M.Cutting, "Osmotic production of sterile oral rehydration solutions", Tropical Doctor 23:69–72.LRD -
9 fabrication
fabrication [‚fæbrɪˈkeɪ∫ən][of goods] fabrication f* * *[ˌfæbrɪ'keɪʃn]1) ( lie) fabrication fthat's pure ou complete fabrication — c'est de l'invention pure et simple
2) ( of document) fabrication f -
10 fabrication
1 ( lie) fabrication f ;2 ( invention) invention f ; that's pure ou complete fabrication c'est de l'invention pure et simple ;3 (of object, document) fabrication f. -
11 Arsonval, Jacques Arsène d'
SUBJECT AREA: Medical technology[br]b. 8 June 1851 Boric, Franced. 31 December 1940 Boric, France[br]French physician and physicist noted for his invention of the reflecting galvanometer and for contributions to electrotherapy.[br]After studies at colleges in Limoges and later in Paris, Arsonval became a doctor of medicine in 1877. In 1882 the Collège de France established a laboratory of biophysics with Arsonval as Director, and he was Professor from 1894.His most outstanding scientific contributions were in the field of biological applications of electricity. His interest in muscle currents led to a series of inventions to assist in research, including the moving-coil galvanometer. In 1881 he made a significant improvement to the galvanometer by reversing the magnetic elements. It had been usual to suspend a compass needle in the centre of a large, stationary coil, but Arsonval's invention was to suspend a small, light coil between the poles of a powerful fixed magnet. This simple arrangement was independent of the earth's magnetic field and insensitive to vibration. A great increase in sensitivity was achieved by attaching a mirror to the coil in order to reflect a spot of light. For bacterial-research purposes he designed the first constant-temperature incubator controlled by electricity. His experiments on the effects of high-frequency, low-voltage alternating currents on animals led to the first high-frequency heat-therapy unit being established in 1892, and later to methods of physiotherapy becoming a professional discipline.[br]Principal Honours and DistinctionsAcadémie des Sciences, Prix Montyon 1882. Chevalier de la Légion d'honneur 1884. Grand Cross 1931.Bibliography1882, Comptes rendus de l'Académie des Sciences 94:1347–50 (describes the galvanometer).1903, Traité de physique biologique, 2 vols, Paris (an account of his technological work).Further ReadingC.C.Gillispie (ed.), 1970, Dictionary of Scientific Biography, Vol. 1, New York, pp. 302–5.D.O.Woodbury, 1949, A Measure for Greatness, New York.GWBiographical history of technology > Arsonval, Jacques Arsène d'
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12 Dalen, Nils Gustav
[br]b. 30 November 1869 Stenstorp, Swedend. 9 December 1937 Stockholm, Sweden[br]Swedish physicist and engineer who was awarded the Nobel Prize for his "sun valve".[br]Nils Gustav Dalen is probably best known as the inventor of the solid-fuel Aga Cooker. He was confined at home for some time in the 1920s, having been blinded as the result of an accident, and found the time to consider the need for an efficient, clean, attractive-looking cooker that would be economical in fuel consumption. The resultant cooking range of 1924 was based on sound scientific principles, was simple to manage and needed a minimum of attention.The first Aga contained a cast-iron firebox enclosed in an insulated jacket of kieselguhr. The firebox was connected to cast-iron hotplates and ovens, all designed so that the heat was conducted to the various parts at precisely the correct temperatures for all types of cooking: simmering, boiling, roasting, baking and grilling. The hotplate heat was maintained at the desired temperature by way of insulated hinged covers that were lifted only when the hotplate was in use. The Aga was made in Sweden and was introduced into Britain in 1929. It was noted for being costly to purchase but inexpensive to run as no energy was wasted.Dalen is also known for his invention of the "sun valve", a device which, as required, automatically lighted or extinguished light beacons and buoys; this invention brought him the Nobel Prize for Physics in 1912.DY -
13 Keller, Friedrich Gottlieb
SUBJECT AREA: Paper and printing[br]b. 27 June 1818 Hainichen, Saxony, Germanyd. 8 September 1895 Krippen, Bad Schandau, Germany[br]German inventor of wood-pulp paper.[br]The son of a master weaver, he originally wished to become an engineer, but while remaining in the parental home he had to follow his father's trade in the textile industry, becoming a master weaver himself in 1839 at Hainichen. He was a good observer and a keen model maker. It was at this stage, in the early 1840s, that he began experimenting with a new material for papermaking. Until then the raw material had been waste rag from the textile industry, but the ever-increasing demands of the mechanical printing presses, especially those producing newspapers, were beginning to outstrip supply. Keller tried using pine wood ground with a wet grindstone. The mass of fibres that resulted was then heated with water to form a thick brew which he then strained through a cloth. By this means Keller obtained a pulp that could be used for papermaking. He constructed a simple grinding machine that could disintegrate the wood without splinters; this was used to make paper in the Altchemnitzer paper mill, and the newspaper Frankenberger Intelligenz-und Wochenblatt was the first to be printed on wood-pulp paper. Keller could not secure state funds to promote his invention, so he approached an expert in papermaking, Heinrich Voelter, Technical Director of the Vereinigten Bautzener Papierfabrik. Voelter put up 700 thaler, and in August 1845 the state of Saxony granted a patent in both their names. In 1848 the first practical machine for grinding wood was produced, but four years later the patent expired. Unfortunately Keller could not afford the renewal fee, and it was Voelter who developed the process of wood-pulp papermaking under his own name, leaving Keller behind. Without this invention, the output of paper from the mills could not have kept pace with the demands of the printing industry, and the mass readership that these technological developments made possible could not have been served. It is no fault of Keller's that wood-pulp paper contains within itself the seeds of its own deterioration and ultimate destruction, presenting librarians of today with an intractable problem of preservation. Keller's part in this technical breakthrough is established in his "ideas" notebook covering the years 1841 and 1842, preserved in the museum at Hainichen.[br]Further ReadingNeue deutsche Biographie. VDI Zeitschrift, Vol. 39, p. 1,238."EineErfindungvon Weltruf", 1969, VDI Nachrichten. Vol. 29, p. 18.Clapperton, History ofPapermaking Through the Ages (provides details of the development of wood-pulp papermaking in its historical context).LRDBiographical history of technology > Keller, Friedrich Gottlieb
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14 perfect
1. a совершенный, безупречный, идеальный, прекрасныйpast perfect — прошедшее совершенное, перфектное время
2. a полный3. a точныйperfect register — точная приводка, точное совмещение
4. a чистый, без примесей5. a законченный, полный, абсолютный6. a хорошо подготовленный, достигший совершенства7. a разг. приятный, чудесный8. a эмоц. -усил. совершенный, настоящийin perfect sincerity — совершенно откровенно, с полной откровенностью
9. a полигр. бесшвейный10. v совершенствовать, улучшать11. v совершенствоваться12. v завершать, заканчивать, выполнять13. v полигр. печатать на оборотной стороне листа14. n грам. перфект15. a грам. перфектныйСинонимический ряд:1. absolute (adj.) absolute; consummate; fleckless; impeccable; indefectible; note-perfect; unflawed2. exact (adj.) definite; distinct; exact; precise; sharp; sound; thorough; typical3. expert (adj.) accomplished; adept; adroit; expert; skilled4. faultless (adj.) excellent; exquisite; faultless; immaculate; matchless; taintless5. finished (adj.) completed; finished; full6. flawless (adj.) flawless; inviolate; unblemished7. model (adj.) exemplary; ideal; model; supreme; very8. total (adj.) all-out; arrant; downright; out-and-out; outright; plain; pure; pure and simple; sheer; simple; thoroughgoing; total; unadulterated; unalloyed; unbounded; undiluted; unequivocal; unmitigated; unmixed; unqualified; unrelieved9. utter (adj.) all-fired; black; blamed; blank; blankety-blank; blasted; bleeding; blessed; blighted; blinding; blithering; blue; confounded; crashing; dad-blamed; dad-blasted; dad-burned; damned; dang; darn; dashed; deuced; doggone; double-distilled; durn; utter10. whole (adj.) choate; complete; entire; good; intact; integral; round; unbroken; undamaged; unhurt; unimpaired; uninjured; unmarred; untouched; whole11. accomplish (verb) accomplish; achieve; complete; consummate; finish; fulfil; fulfill12. polish (verb) complement; polish; purify; refine; round; sleek; slick; smoothАнтонимический ряд:bad; damaged; defective; deficient; deformed; faulty; flawed; imperfect; impure; incomplete; inferior; lacking; maladroit; marred; partial; questionable; ruin -
15 Language
Philosophy is written in that great book, the universe, which is always open, right before our eyes. But one cannot understand this book without first learning to understand the language and to know the characters in which it is written. It is written in the language of mathematics, and the characters are triangles, circles, and other figures. Without these, one cannot understand a single word of it, and just wanders in a dark labyrinth. (Galileo, 1990, p. 232)It never happens that it [a nonhuman animal] arranges its speech in various ways in order to reply appropriately to everything that may be said in its presence, as even the lowest type of man can do. (Descartes, 1970a, p. 116)It is a very remarkable fact that there are none so depraved and stupid, without even excepting idiots, that they cannot arrange different words together, forming of them a statement by which they make known their thoughts; while, on the other hand, there is no other animal, however perfect and fortunately circumstanced it may be, which can do the same. (Descartes, 1967, p. 116)Human beings do not live in the object world alone, nor alone in the world of social activity as ordinarily understood, but are very much at the mercy of the particular language which has become the medium of expression for their society. It is quite an illusion to imagine that one adjusts to reality essentially without the use of language and that language is merely an incidental means of solving specific problems of communication or reflection. The fact of the matter is that the "real world" is to a large extent unconsciously built on the language habits of the group.... We see and hear and otherwise experience very largely as we do because the language habits of our community predispose certain choices of interpretation. (Sapir, 1921, p. 75)It powerfully conditions all our thinking about social problems and processes.... No two languages are ever sufficiently similar to be considered as representing the same social reality. The worlds in which different societies live are distinct worlds, not merely the same worlds with different labels attached. (Sapir, 1985, p. 162)[A list of language games, not meant to be exhaustive:]Giving orders, and obeying them- Describing the appearance of an object, or giving its measurements- Constructing an object from a description (a drawing)Reporting an eventSpeculating about an eventForming and testing a hypothesisPresenting the results of an experiment in tables and diagramsMaking up a story; and reading itPlay actingSinging catchesGuessing riddlesMaking a joke; and telling itSolving a problem in practical arithmeticTranslating from one language into anotherLANGUAGE Asking, thanking, cursing, greeting, and praying-. (Wittgenstein, 1953, Pt. I, No. 23, pp. 11 e-12 e)We dissect nature along lines laid down by our native languages.... The world is presented in a kaleidoscopic flux of impressions which has to be organized by our minds-and this means largely by the linguistic systems in our minds.... No individual is free to describe nature with absolute impartiality but is constrained to certain modes of interpretation even while he thinks himself most free. (Whorf, 1956, pp. 153, 213-214)We dissect nature along the lines laid down by our native languages.The categories and types that we isolate from the world of phenomena we do not find there because they stare every observer in the face; on the contrary, the world is presented in a kaleidoscopic flux of impressions which has to be organized by our minds-and this means largely by the linguistic systems in our minds.... We are thus introduced to a new principle of relativity, which holds that all observers are not led by the same physical evidence to the same picture of the universe, unless their linguistic backgrounds are similar or can in some way be calibrated. (Whorf, 1956, pp. 213-214)9) The Forms of a Person's Thoughts Are Controlled by Unperceived Patterns of His Own LanguageThe forms of a person's thoughts are controlled by inexorable laws of pattern of which he is unconscious. These patterns are the unperceived intricate systematizations of his own language-shown readily enough by a candid comparison and contrast with other languages, especially those of a different linguistic family. (Whorf, 1956, p. 252)It has come to be commonly held that many utterances which look like statements are either not intended at all, or only intended in part, to record or impart straightforward information about the facts.... Many traditional philosophical perplexities have arisen through a mistake-the mistake of taking as straightforward statements of fact utterances which are either (in interesting non-grammatical ways) nonsensical or else intended as something quite different. (Austin, 1962, pp. 2-3)In general, one might define a complex of semantic components connected by logical constants as a concept. The dictionary of a language is then a system of concepts in which a phonological form and certain syntactic and morphological characteristics are assigned to each concept. This system of concepts is structured by several types of relations. It is supplemented, furthermore, by redundancy or implicational rules..., representing general properties of the whole system of concepts.... At least a relevant part of these general rules is not bound to particular languages, but represents presumably universal structures of natural languages. They are not learned, but are rather a part of the human ability to acquire an arbitrary natural language. (Bierwisch, 1970, pp. 171-172)In studying the evolution of mind, we cannot guess to what extent there are physically possible alternatives to, say, transformational generative grammar, for an organism meeting certain other physical conditions characteristic of humans. Conceivably, there are none-or very few-in which case talk about evolution of the language capacity is beside the point. (Chomsky, 1972, p. 98)[It is] truth value rather than syntactic well-formedness that chiefly governs explicit verbal reinforcement by parents-which renders mildly paradoxical the fact that the usual product of such a training schedule is an adult whose speech is highly grammatical but not notably truthful. (R. O. Brown, 1973, p. 330)he conceptual base is responsible for formally representing the concepts underlying an utterance.... A given word in a language may or may not have one or more concepts underlying it.... On the sentential level, the utterances of a given language are encoded within a syntactic structure of that language. The basic construction of the sentential level is the sentence.The next highest level... is the conceptual level. We call the basic construction of this level the conceptualization. A conceptualization consists of concepts and certain relations among those concepts. We can consider that both levels exist at the same point in time and that for any unit on one level, some corresponding realizate exists on the other level. This realizate may be null or extremely complex.... Conceptualizations may relate to other conceptualizations by nesting or other specified relationships. (Schank, 1973, pp. 191-192)The mathematics of multi-dimensional interactive spaces and lattices, the projection of "computer behavior" on to possible models of cerebral functions, the theoretical and mechanical investigation of artificial intelligence, are producing a stream of sophisticated, often suggestive ideas.But it is, I believe, fair to say that nothing put forward until now in either theoretic design or mechanical mimicry comes even remotely in reach of the most rudimentary linguistic realities. (Steiner, 1975, p. 284)The step from the simple tool to the master tool, a tool to make tools (what we would now call a machine tool), seems to me indeed to parallel the final step to human language, which I call reconstitution. It expresses in a practical and social context the same understanding of hierarchy, and shows the same analysis by function as a basis for synthesis. (Bronowski, 1977, pp. 127-128)t is the language donn eґ in which we conduct our lives.... We have no other. And the danger is that formal linguistic models, in their loosely argued analogy with the axiomatic structure of the mathematical sciences, may block perception.... It is quite conceivable that, in language, continuous induction from simple, elemental units to more complex, realistic forms is not justified. The extent and formal "undecidability" of context-and every linguistic particle above the level of the phoneme is context-bound-may make it impossible, except in the most abstract, meta-linguistic sense, to pass from "pro-verbs," "kernals," or "deep deep structures" to actual speech. (Steiner, 1975, pp. 111-113)A higher-level formal language is an abstract machine. (Weizenbaum, 1976, p. 113)Jakobson sees metaphor and metonymy as the characteristic modes of binarily opposed polarities which between them underpin the two-fold process of selection and combination by which linguistic signs are formed.... Thus messages are constructed, as Saussure said, by a combination of a "horizontal" movement, which combines words together, and a "vertical" movement, which selects the particular words from the available inventory or "inner storehouse" of the language. The combinative (or syntagmatic) process manifests itself in contiguity (one word being placed next to another) and its mode is metonymic. The selective (or associative) process manifests itself in similarity (one word or concept being "like" another) and its mode is metaphoric. The "opposition" of metaphor and metonymy therefore may be said to represent in effect the essence of the total opposition between the synchronic mode of language (its immediate, coexistent, "vertical" relationships) and its diachronic mode (its sequential, successive, lineal progressive relationships). (Hawkes, 1977, pp. 77-78)It is striking that the layered structure that man has given to language constantly reappears in his analyses of nature. (Bronowski, 1977, p. 121)First, [an ideal intertheoretic reduction] provides us with a set of rules"correspondence rules" or "bridge laws," as the standard vernacular has it-which effect a mapping of the terms of the old theory (T o) onto a subset of the expressions of the new or reducing theory (T n). These rules guide the application of those selected expressions of T n in the following way: we are free to make singular applications of their correspondencerule doppelgangers in T o....Second, and equally important, a successful reduction ideally has the outcome that, under the term mapping effected by the correspondence rules, the central principles of T o (those of semantic and systematic importance) are mapped onto general sentences of T n that are theorems of Tn. (P. Churchland, 1979, p. 81)If non-linguistic factors must be included in grammar: beliefs, attitudes, etc. [this would] amount to a rejection of the initial idealization of language as an object of study. A priori such a move cannot be ruled out, but it must be empirically motivated. If it proves to be correct, I would conclude that language is a chaos that is not worth studying.... Note that the question is not whether beliefs or attitudes, and so on, play a role in linguistic behavior and linguistic judgments... [but rather] whether distinct cognitive structures can be identified, which interact in the real use of language and linguistic judgments, the grammatical system being one of these. (Chomsky, 1979, pp. 140, 152-153)23) Language Is Inevitably Influenced by Specific Contexts of Human InteractionLanguage cannot be studied in isolation from the investigation of "rationality." It cannot afford to neglect our everyday assumptions concerning the total behavior of a reasonable person.... An integrational linguistics must recognize that human beings inhabit a communicational space which is not neatly compartmentalized into language and nonlanguage.... It renounces in advance the possibility of setting up systems of forms and meanings which will "account for" a central core of linguistic behavior irrespective of the situation and communicational purposes involved. (Harris, 1981, p. 165)By innate [linguistic knowledge], Chomsky simply means "genetically programmed." He does not literally think that children are born with language in their heads ready to be spoken. He merely claims that a "blueprint is there, which is brought into use when the child reaches a certain point in her general development. With the help of this blueprint, she analyzes the language she hears around her more readily than she would if she were totally unprepared for the strange gabbling sounds which emerge from human mouths. (Aitchison, 1987, p. 31)Looking at ourselves from the computer viewpoint, we cannot avoid seeing that natural language is our most important "programming language." This means that a vast portion of our knowledge and activity is, for us, best communicated and understood in our natural language.... One could say that natural language was our first great original artifact and, since, as we increasingly realize, languages are machines, so natural language, with our brains to run it, was our primal invention of the universal computer. One could say this except for the sneaking suspicion that language isn't something we invented but something we became, not something we constructed but something in which we created, and recreated, ourselves. (Leiber, 1991, p. 8)Historical dictionary of quotations in cognitive science > Language
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16 assignment
n1) назначение (на должность)2) ассигнование; выделение, распределение; ассигновка3) задание4) юр. передача, переуступка, цессия
- design assignment
- foreign assignment
- gratuitous assignment
- job assignment
- patent assignment
- assignment in blank
- assignment of account
- assignment of choses in action
- assignment of a claim
- assignment of a contract
- assignment of copyright
- assignment of customers
- assignment of a debt
- assignment of exhibition space
- assignment of income
- assignment of interest
- assignment of invention
- assignment of land
- assignment of mortgage
- assignment of a patent
- assignment of patent rights
- assignment of a policy
- assignment of proceeds
- assignment of property
- assignment of rights
- assignment of a risk
- assignment of shares
- assignment of simple contract debts
- assignment of space
- assignment of stock
- assignment of tasks
- assignment of wages
- sign a deed of assignmentEnglish-russian dctionary of contemporary Economics > assignment
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17 licence
n1) лицензия
- active licence
- assignable licence
- banking licence
- blanket licence
- bloc licence
- building licence
- compulsory licence
- contractual licence
- credit licence
- cross licence
- currency licence
- customs licence
- driver's licence
- exclusive licence
- export licence
- feedback licence
- field-of-use licence
- flat licence
- free licence
- full licence
- general licence
- general import licence
- global licence
- import licence
- individual licence
- indivisible licence
- intermediate advance licence
- know-how licence
- lighterage licence
- limited licence
- liquor licence
- manufacturing licence
- nonassignable licence
- nonexclusive licence
- nonpatent licence
- nontransferable licence
- open licence
- open general licence
- operating licence
- ordinary licence
- package licence
- passive licence
- patent licence
- per unit licence
- price fixing licence
- process licence
- quantity-based advance licence
- reciprocal licence
- reimport licence
- restrictive licence
- retroactive licence
- royalty-bearing licence
- royalty-free licence
- selling licence
- simple licence
- single licence
- sole licence
- special licence
- special imprest licence
- specific import licence
- territorial limited licence
- trademark licence
- trading licence
- transferable licence
- transhipment licence
- valid licence
- validated licence
- value-based advance licence
- voluntary licence
- licence for design
- licence for equipment
- licence for industrial technology
- licence for an invention
- licence for a patent
- licence on a process
- licence to manufacture
- licence to operate
- licence to use
- licence under a patent
- under a licence
- acquire a licence
- apply for a licence
- award a licence
- buy a licence
- cancel a licence
- extend a licence
- forfeit a licence
- freeze a licence
- give a licence
- grant a licence
- have a licence
- hold a licence
- import under a licence
- issue a licence
- issue an operating licence
- make under a licence
- manufacture under a licence
- market a licence
- obtain a licence
- possess a licence
- produce under a licence
- purchase a licence
- refuse a licence
- renew a licence
- renounce a licence
- revalidate a licence
- revoke a licence
- secure a licence
- sell a licence
- suspend a licence
- take out a licence
- take up a licence
- withdraw a licenceEnglish-russian dctionary of contemporary Economics > licence
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18 Martine Designs
Textile designs of French invention consisting of crude forms of small or large motifs repeated at wide intervals on a plain ground. The drawing is purposely childlike. There is no shading and the colours are simple. -
19 Clerk, Sir Dugald
[br]b. 31 March 1854 Glasgow, Scotlandd. 12 November 1932 Ewhurst, Surrey, England[br]Scottish mechanical engineer, inventor of the two-stroke internal combustion engine.[br]Clerk began his engineering training at about the age of 15 in the drawing office of H.O.Robinson \& Company, Glasgow, and in his father's works. Meanwhile, he studied at the West of Scotland Technical College and then, from 1871 to 1876, at Anderson's College, Glasgow, and at the Yorkshire College of Science, Leeds. Here he worked under and then became assistant to the distinguished chemist T.E.Thorpe, who set him to work on the fractional distillation of petroleum, which was to be useful to him in his later work. At that time he had intended to become a chemical engineer, but seeing a Lenoir gas engine at work, after his return to Glasgow, turned his main interest to gas and other internal combustion engines. He pursued his investigations first at Thomson, Sterne \& Company (1877–85) and then at Tangyes of Birmingham (1886–88. In 1888 he began a lifelong partnership in Marks and Clerk, consulting engineers and patent agents, in London.Beginning his work on gas engines in 1876, he achieved two patents in the two following years. In 1878 he made his principal invention, patented in 1881, of an engine working on the two-stroke cycle, in which the piston is powered during each revolution of the crankshaft, instead of alternate revolutions as in the Otto four-stroke cycle. In this engine, Clerk introduced supercharging, or increasing the pressure of the air intake. Many engines of the Clerk type were made but their popularity waned after the patent for the Otto engine expired in 1890. Interest was later revived, particularly for application to large gas engines, but Clerk's engine eventually came into its own where simple, low-power motors are needed, such as in motor cycles or motor mowers.Clerk's work on the theory and design of gas engines bore fruit in the book The Gas Engine (1886), republished with an extended text in 1909 as The Gas, Petrol and Oil Engine; these and a number of papers in scientific journals won him international renown. During and after the First World War, Clerk widened the scope of his interests and served, often as chairman, on many bodies in the field of science and industry.[br]Principal Honours and DistinctionsKnighted 1917; FRS 1908; Royal Society Royal Medal 1924; Royal Society of Arts Alber Medal 1922.Further ReadingObituary Notices of Fellows of the Royal Society, no. 2, 1933.LRD -
20 Daniell, John Frederick
SUBJECT AREA: Electricity[br]b. 12 March 1790 London, Englandd. 13 March 1845 London, England[br]English chemist, inventor of the Daniell primary electric cell.[br]With an early bias towards science, Daniell's interest in chemistry was formed when he joined a relative's sugar-refining business. He formed a lifelong friendship with W.T.Brande, Professor of Chemistry at the Royal Institution, and together they revived the journal of the Royal Institution, to which Daniell submitted many of his early papers on chemical subjects. He made many contributions to the science of meteorology and in 1820 invented a hydrometer, which became widely used and gave precision to the measurement of atmospheric moisture. As one of the originators of the Society for Promoting Useful Knowledge, Daniell edited several of its early publications. His work on crystallization established his reputation as a chemist and in 1831 he was appointed the first Professor of Chemistry at King's College, London, where he was largely responsible for establishing its department of applied science. He was also involved in the Chemical Society of London and served as its Vice-President. At King's College he began the research into current electricity with which his name is particularly associated. His investigations into the zinc-copper cell revealed that the rapid decline in power was due to hydrogen gas being liberated at the positive electrode. Daniell's cell, invented in 1836, employed a zinc electrode in dilute sulphuric acid and a copper electrode in a solution of copper sulphate, the electrodes being separated by a porous membrane, typically an unglazed earthenware pot. He was awarded the Copley Medal of the Royal Society for his invention which avoided the "polarization" of the simple cell and provided a further source of current for electrical research and for commercial applications such as electroplating. Although the high internal resistance of the Daniell cell limited the current and the potential was only 1.1 volts, the voltage was so unchanging that it was used as a reference standard until the 1870s, when J. Lattimer Clark devised an even more stable cell.[br]Principal Honours and DistinctionsFRS 1814. Royal Society Rumford Medal 1832, Copley Medal 1837, Royal Medal 1842.Bibliography1836, "On voltaic combinations", Phil. Transactions of the Royal Society 126:107–24, 125–9 (the first report of his experiments).Listings of his scientific papers can be found in Catalogue of Scientific Papers, 1868, Vol. II, London: Royal Society.Further ReadingObituary, 1845, Proceedings of the Royal Society, 5:577–80.J.R.Partington, 1964, History of Chemistry, Vol. IV, London (describes the Daniell cell and his electrical researches).B.Bowers, 1982, History of Electric Light and Power, London.GWBiographical history of technology > Daniell, John Frederick
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