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1 производство
1. с. production2. с. manufacture; fabrication3. с. industryАнтонимический ряд: -
2 процесс производства
1. process of manufacture2. process of productionРусско-английский большой базовый словарь > процесс производства
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3 производство оружия
1) Military: arms manufacture, arms production, manufacture of weapons2) Production: arms manufacturing (англ. термин взят из кн.: Military Balance 2009. - London: International Institute for Strategic Studies, 2009)Универсальный русско-английский словарь > производство оружия
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4 скрытое производство оружия
Универсальный русско-английский словарь > скрытое производство оружия
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5 оружие серийного производства
Русско-английский военно-политический словарь > оружие серийного производства
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6 помощь в производстве оружия
Русско-английский военно-политический словарь > помощь в производстве оружия
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7 промышленная база для производства оружия
Универсальный русско-английский словарь > промышленная база для производства оружия
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8 помощь в производстве оружия
Русско-английский военный словарь > помощь в производстве оружия
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9 оружие оружи·е
1) weapott(s), arms; (вооружение) armament(s)бряцать / потрясать оружием — to rattle the sabre, to brandish one's arms
взяться за оружие — to take up / to rise in arms
накапливатьоружие — to pile up arms / weapons
производить оружие — to produce / to manufacture arms
сложить оружие — to lay down one's arms
абсолютное оружие — absolute / ultimate weapon
антиракетное оружие — antimissile weapons / weaponry
атомное оружие — atomic / nuclear weapons
бактериологическое оружие — bacteriological / germ weapon
запрещение разработки, производства и накопления запасов бактериологического и токсичного оружия — prohibition of the development, production ad stockpiling of bacterio-logical / germ and toxin weapons
биологическое оружие — biological weapon, bio-arms
евростратегическое оружие — Eurostrategic arms / weapons
кинетическое оружие — kinetic-kill vehicle, KKV
оборонительное оружие — defensive weapons, weapons of defense
обычное (не атомное) оружие — conventional arms / weapons, nonatomic / nonnuclear weapons
противоспутниковое оружие — anti / counter satellite weapons
стратегическое оружие — strategic arms / weapons
стратегическое наступательное оружие — strategic offensive arms / weapons
термоядерное оружие — thermonuclear / fusion weapon
незаконность / противоправность применения химического и бактериологического оружия — illegality of use of chemical and bacteriological weapons
холодное оружие — side-arms, cold steel
ядерное оружие — nuclear weapons / arms
исключить возможность применения ядерного оружия — to eliminate the possibility of / to rule out the use of nuclear weapons
исключить все виды ядерного оружия из арсеналов государств — to exclude all types of nuclear weapons from the arsenals of states
ликвидировать ядерное оружие — to destroy / to eliminate nuclear weapons
отказаться от производства и приобретения ядерного оружия — to renounce the production and acquisition of nuclear weapons
размещать ядерное оружие — base / to deploy / to station nuclear weapons
размещать ядерное оружие на дне океана — to emplace / to implant nuclear weapons on the seabed
тактическое ядерное оружие — battlefield / tactical nuclear weapons
ядерное оружие мощностью в одну килотонну / мегатонну — kiloton / megaton weapon
испытания ядерного оружия — см. испытание
добиваться полной ликвидации ядерного оружия — to strive for complete / total elimination of nuclear weapons
поэтапная ликвидация ядерного оружия — stage-by-stage / step-by-step elimination of nuclear weapons
неразмещение ядерного оружия — nondeployment / nonstationing of nuclear weapons
неразмещение ядерного оружия на территории тех государств, где его нет в настоящее время — nonstationing of nuclear weapons on the territory of the states where there are no such weapons at present
нераспространение ядерного оружия — non-dissemination / non proliferation of nuclear weapons
вертикальное / качественное нераспространение ядерного оружия — vertical nonproliferation
горизонтальное / количественное нераспространение ядерного оружия — horizontal nonproliferation
применение / использование ядерного оружия — use of nuclear weapons
исключить случайное или несанкционированное применение ядерного оружия — to guarantee against accidental or unaulhorized use of nuclear weapons
ограниченное или частичное применение ядерного оружия — limited or partial / selective use of nuclear weapons
производство ядерного оружия — production / manufacture of nuclear weapons
распространение ядерного оружия — dissemination / proliferation / spread of nuclear arms / weapons
затруднить распространение ядерного оружия — to hinder the proliferation / the spread of nuclear weapons
предотвратить распространение ядерного оружия в космосе — to avert the extention of nuclear weapons into space
страны, не располагающие ядерным оружием — nonnuclear countries / powers / states, have-nots
страны, обладающие ядерным оружием — nuclear countries / powers / states, haves
необычные / особые виды оружия (бактериологическое, нейтронное, химическое, ядерное) — unconventional weapons
запасы оружия — stockpiles / stores of weapons
накапливать запасы оружия — to accumulate / to pile up / to store arms / weapons
наращивать запасы оружия — to build up / to pile up arms / weapons
накопление оружия — accumulation / stockpiling of weapons
запретить накопление оружия — to ban the stockpiling of arms / weapons
оружие массового уничтожения — weapons of mass annihilation / extermination / destruction
запрещение и ликвидация всех видов оружия массового уничтожения — prohibition and elimination of all types of weapons of mass destruction
появление новых видов оружия массового уничтожения — emergence of new types of weapons of mass destruction
новейшие / сложные современные / усовершенствованные виды оружия — sophisticated weapons
поставки оружия — arms supply / procurement
поставщики оружия — suppliers of arms; merchants of arms of death разг.
продажа оружия иностранным государствам — sales / trade of arms to foreign states
производство оружия — armaments production / manufacture
торговля оружием — trade in arms, arms traffic
торговцы оружием — arms sellers / dealers / merchants
2) (средства борьбы) weaponsидейное / идеологическое оружие — ideological weapon
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10 производство производств·о
1) (процесс) production, output; (изготовление) manufacture, making, makeнаращивать мощности по производству (чего-л.) — to build up / to enlarge the capacties
сдерживать / сокращать производство — to curb / to curtail / to cut down production
форсировать производство — to step up production, to go ahead with production
производство снизилось — production has fallen / dropped
военное производство — war / military production
вредное производство — dangerous trade / industry
крупносерийное производство — large-scale manufacture / serial production
массовое производство — large-scale / high volume / quantity production, production in bulk
мировое производство — world output / production
отечественное производство — domestic / home-produced production
товары отечественного производства — home-made / home-produced goods
поточное производство — flow / line production
сельскохозяйственное производство — agricultural / farm production / output
убыточное производство — unprofitable / wasteful production
энергоёмкие производства — energyintensive industrial facilities; power consuming industries
интенсификация производства — the intensifying / intensification of production
наращивание темпов производства — steady rise in the rate of production; stepping up the rate of production
объём производства — overall / total production
общий объём производства — overall / total output
свёртывание объёма производства — curtailment of / cutback in production
сокращение / ограничение (объёма) производства — production cutback
отходы производства — waste materials, industrial wastes
использовать отходы производства — to utilize waste materials / industrial wastes
производство на душу населения — per capita / per head production
производство, обеспечивающее работу военной промышленности — defence-supporting production
производство потребительских товаров — consumer goods production, output of consumer goods
производство продукции военного / оборонного назначения — defence production
производство продукции невоенного / гражданского назначения — civilian production
производство ядерного оружия — manufacture / production of nuclear weapons
расширение / рост производства — expansion of production
сокращение производства — curtailnent of production, cutback in production
товары отечественного производства — home-made / -produced goods
увеличение темпов производства — step-up / increase in the rate of production
2) (отрасль промышленности) industry3) (завод, фабрика) factory, plant; worksсудебное производство — procedure, proceedings
начать судебное производство — to take / to institute legal proceedings (against)
гражданское судебное производство — civil procedure, proceedings in civil causes
суммарное / упрощённое производство — summary jurisdiction / proceedings
в порядке суммарного производства — on summary jurisdiction / proceeding
производство, совершаемое административными властями — proceedings instituted by administrative authorities
Russian-english dctionary of diplomacy > производство производств·о
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11 серийное производство
1) General subject: batch production, manufacturing, mass production, produce on the line, repetition work, manufacturing production, production chain, serial production2) Military: batch series line production, large-scale production (напр. оружия)3) Engineering: full production, full-scale production, lot production, quantity production, routine fabrication, serial publication, series fabrication4) Construction: line production, series manufacture5) Railway term: commercialize, production in lot6) Economy: duplicate production, production in lot sizes, production manufacturing, repetitive manufacturing, serial operation, serial work, series manufacturing7) Accounting: production in lots8) Information technology: serial manufacture9) Food industry: batch process10) Mechanics: batch repetition work, batch work, batch-oriented production11) Advertising: batch series production12) Business: batch manufacturing, large output, large quantity manufacture, large-scale manufacture, large-scale manufacturing, large-scale production, mass manufacturing, production run, series production13) Production: volume production14) Industrial economy: serial manufacturing (англ. термин взят из United States Patent No. 5229948)15) Automation: batch( - lot) manufacturing, batch mode, batch processing, batch production work, batchwork, discrete batch manufacturing, mixed operation, mixed production16) Quality control: building in series18) Chemical weapons: batch production/serial production19) Makarov: batch production (партиями), full-scale production (в противовес экспериментальному или опытному), quantity production (в противовес экспериментальному или опытному), series production (партиями)Универсальный русско-английский словарь > серийное производство
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12 Lawrence, Richard Smith
SUBJECT AREA: Weapons and armour[br]b. 22 November 1817 Chester, Vermont, USAd. 10 March 1892 Hartford, Connecticut, USA[br]American gunsmith and inventor.[br]Richard S.Lawrence received only an elementary education and as a young man worked on local farms and later in a woodworking shop. His work there included making carpenters' and joiners' tools and he spent some of his spare time in a local gunsmith's shop. After a brief period of service in the Army, he obtained employment in 1838 with N.Kendall \& Co. of Windsor, Vermont, making guns at the Windsor prison. Within six months he was put in charge of the work, continuing in this position until 1842 when the gun-making ceased; he remained at the prison for a time in charge of the carriage shop. In 1843 he opened a gun shop in Windsor in partnership with Kendall, and the next year S.E. Robbins, a businessman, helped them obtain a contract from the Federal Government for 10,000 rifles. A new company, Robbins, Kendall \& Lawrence, was formed and a factory was built at Windsor. Three years later Kendall's share of the business was purchased by his partners and the firm became Robbins \& Lawrence. Lawrence supervised the design and production and, to improve methods of manufacture, developed new machine tools with the aid of F.W. Howe. In 1850 Lawrence introduced the lubrication of bullets, which practice ensured the success of the breech-loading rifle. Also in 1850, the company undertook to manufacture railway cars, but this involved them in a considerable financial loss. The company took to the Great Exhibition of 1851 in London, England, a set of rifles built on the interchangeable system. The interest this created resulted in a visit of some members of the British Royal Small Arms Commission to America and subsequently an order for 150 machine tools, jigs and fixtures from Robbins \& Lawrence, to be installed at the small-arms factory at Enfield. In 1852 the company contracted to manufacture Sharps rifles and carbines at a new factory to be built at Hartford, Connecticut. Lawrence moved to Hartford in 1853 to superintend the building and equipment of the plant. Shortly afterwards, however, a promised order for a large number of rifles failed to materialize and, following its earlier financial difficulties, Robbins \& Lawrence was forced into bankruptcy. The Hartford plant was acquired by the Sharps Rifle Company in 1856 and Lawrence remained there as Superintendent until 1872. From then he was for many years Superintendent of Streets in the city of Hartford and he also served on the Water Board, the Board of Aldermen and as Chairman of the Fire Board.[br]Further ReadingJ.W.Roe, 1916, English and American Tool Builders, New Haven; repub. 1926, New York; and 1987, Bradley, Ill. (provides biographical information and includes in an Appendix (pp. 281–94) autobiographical notes written by Richard S.Lawrence in 1890).Merritt Roe Smith, 1974, "The American Precision Museum", Technology and Culture 15 (3): 413–37 (for information on Robbins \& Lawrence and products).RTSBiographical history of technology > Lawrence, Richard Smith
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13 Spencer, Christopher Miner
[br]b. 10 June 1833 Manchester, Connecticut, USAd. 14 January 1922 Hartford, Connecticut, USA[br]American mechanical engineer and inventor.[br]Christopher M.Spencer served an apprenticeship from 1847 to 1849 in the machine shop at the silk mills of Cheney Brothers in his native town and remained there for a few years as a journeyman machinist. In 1853 he went to Rochester, New York, to obtain experience with machinery other than that used in the textile industry. He then spent some years with the Colt Armory at Hartford, Connecticut, before returning to Cheney Brothers, where he obtained his first patent, which was for a silk-winding machine.Spencer had long been interested in firearms and in 1860 he obtained a patent for a repeating rifle. The Spencer Repeating Rifle Company was organized for its manufacture, and before the end of the American Civil War about 200,000 rifles had been produced. He patented a number of other improvements in firearms and in 1868 was associated with Charles E.Billings (1835–1920) in the Roper Arms Company, set up at Amherst, Massachusetts, to manufacture Spencer's magazine gun. This was not a success, however, and in 1869 they moved to Hartford, Connecticut, and formed the Billings \& Spencer Company. There they developed the technology of the drop hammer and Spencer continued his inventive work, which included an automatic turret lathe for producing metal screws. The patent that he obtained for this in 1873 inexplicably failed to protect the essential feature of the machine which provided the automatic action, with the result that Spencer received no patent right on the most valuable feature of the machine.In 1874 Spencer withdrew from active connection with Billings \& Spencer, although he remained a director, and in 1876 he formed with others the Hartford Machine Screw Company. However, he withdrew in 1882 to form the Spencer Arms Company at Windsor, Connecticut, for the manufacture of another of his inventions, a repeating shotgun. But this company failed and Spencer returned to the field of automatic lathes, and in 1893 he organized the Spencer Automatic Machine Screw Company at Windsor, where he remained until his retirement.[br]Further ReadingJ.W.Roe, 1916, English and American Tool Builders, New Haven; reprinted 1926, New York, and 1987, Bradley, Ill. (briefly describes his career and his automatic lathes).L.T.C.Rolt, 1965, Tools for the Job, London; repub. 1986 (gives a brief description of Spencer's automatic lathes).RTSBiographical history of technology > Spencer, Christopher Miner
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14 Whitney, Eli
[br]b. 8 December 1765 Westborough, Massachusetts, USAd. 8 January 1825 New Haven, Connecticut, USA[br]American inventor of the cotton gin and manufacturer of firearms.[br]The son of a prosperous farmer, Eli Whitney as a teenager showed more interest in mechanics than school work. At the age of 15 he began an enterprise business manufacturing nails in his father's workshop, even having to hire help to fulfil his orders. He later determined to acquire a university education and, his father having declined to provide funds, he taught at local schools to obtain the means to attend Leicester Academy, Massachusetts, in preparation for his entry to Yale in 1789. He graduated in 1792 and then decided to study law. He accepted a position in Georgia as a tutor that would have given him time for study; this post did not materialize, but on his journey south he met General Nathanael Greene's widow and the manager of her plantations, Phineas Miller (1764–1803). A feature of agriculture in the southern states was that the land was unsuitable for long-staple cotton but could yield large crops of green-seed cotton. Green-seed cotton was difficult to separate from its seed, and when Whitney learned of the problem in 1793 he quickly devised a machine known as the cotton gin, which provided an effective solution. He formed a partnership with Miller to manufacture the gin and in 1794 obtained a patent. This invention made possible the extraordinary growth of the cotton industry in the United States, but the patent was widely infringed and it was not until 1807, after amendment of the patent laws, that Whitney was able to obtain a favourable decision in the courts and some financial return.In 1798 Whitney was in financial difficulties following the failure of the initial legal action against infringement of the cotton gin patent, but in that year he obtained a government contract to supply 10,000 muskets within two years with generous advance payments. He built a factory at New Haven, Connecticut, and proposed to use a new method of manufacture, perhaps the first application of the system of interchangeable parts. He failed to supply the firearms in the specified time, and in fact the first 500 guns were not delivered until 1801 and the full contract was not completed until 1809.In 1812 Whitney made application for a renewal of his cotton gin patent, but this was refused. In the same year, however, he obtained a second contract from the Government for 15,000 firearms and a similar one from New York State which ensured the success of his business.[br]Further ReadingJ.Mirsky and A.Nevins, 1952, The World of Eli Whitney, New York (a good biography). P.J.Federico, 1960, "Records of Eli Whitney's cotton gin patent", Technology and Culture 1: 168–76 (for details of the cotton gin patent).R.S.Woodbury, 1960, The legend of Eli Whitney and interchangeable parts', Technology and Culture 1:235–53 (challenges the traditional view of Eli Whitney as the sole originator of the "American" system of manufacture).See also Technology and Culture 14(1973):592–8; 18(1977):146–8; 19(1978):609–11.RTS -
15 производство ядерного оружия
1) Military: nuclear-weapons production2) Diplomatic term: manufacture of nuclear weapons, production of nuclear weaponsУниверсальный русско-английский словарь > производство ядерного оружия
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16 कृ
kṛi
Ā. 2. sg. kṛishé;
impf. 2. andᅠ 3. sg. ákar, 3. sg. rarely ákat ṠBr. III, XI ;
3. du. ákartām;
pl. ákarma, ákarta ( alsoᅠ BhP. ix), ákran (aor., according to Pāṇ. 4-2, 80 Kāṡ.);
Ā. ákri RV. X, 159, 4 and 174, 4,
ákṛithās RV. V, 30, 8,
ákṛita ( RV.);
akrātām ( ṠāṇkhṠr.), ákrata ( RV. AV.):
Impv. kṛidhí ( alsoᅠ MBh. I, 5141 and BhP. VIII),
kṛitám, kṛitá;
Ā. kṛishvá, kṛidhvám;
Subj. 2. andᅠ 3. sg. kar pl. kárma, kárta andᅠ kartana, kran;
Ā. 3. sg. kṛita RV. IX, 69, 5,
3. pl. kránta RV. I, 141, 3:
Pot. kriyāma RV. X, 32, 9 ;
pr. p. P. (nom. pl.) krántas Ā. krāṇá. cl. 1. P. kárasi, kárati, kárathas, káratas, káranti;
Ā. kárase, kárate, kárāmahe:
impf. ákaram, ákaras, ákarat (aor., according to Pāṇ. 3-1, 59):
Impv. kára, káratam, káratām:
Subj. káram, kárāṇi, káras, kárat, kárāma, káran;
Ā. karāmahai;
pr. p. (f.) kárantī (Naigh.) III. cl. 5. P. kṛiṇómi, - ṇóshi, - ṇóti, kṛiṇuthás, kṛiṇmás andᅠ kṛiṇmasi, kṛiṇuthá, kṛiṇvánti;
Ā. kṛiṇvé, kṛiṇushé, kṛiṇuté, 3. du. kṛiṇvaíte RV. VI, 25, 4 ;
pl. kṛiṇmáhe, kṛiṇváte:
impf. ákṛiṇos, ákṛiṇot, ákṛiṇutam, ákṛiṇuta andᅠ - ṇotana RV. I, 110, 8,
ákṛiṇvan;
Ā. 3. sg. ákṛiṇuta pl. ákṛiṇudhvam, ákṛiṇvata:
Impv. kṛiṇú orᅠ kṛiṇuhí orᅠ kṛiṇutā́t, kṛiṇótu, kṛiṇutám, kṛiṇutā́m, 2. pl. kṛiṇutá orᅠ kṛiṇóta orᅠ kṛiṇótana, 3. pl. kṛiṇvántu;
Ā. kṛiṇushvá, kṛiṇutā́m, kṛiṇvā́thām, kṛiṇudhvám:
Subj. kṛiṇávas, - ṇávat orᅠ - ṇávāt, kṛiṇávāva, - ṇávāma, - ṇávātha, - ṇávatha, - ṇávan;
Ā. kṛiṇávai (once - ṇavā RV. X, 95, 2),
kṛiṇavase ( alsoᅠ ṠvetUp. II, 7 v.l. - ṇvase), kṛiṇavate, kṛiṇávāvahai, kṛiṇávāmahai, 3. pl. kṛiṇávanta ( RV.) orᅠ kṛiṇavante orᅠ kṛiṇvata ( RV.):
Pot. Ā. kṛiṇvītá;
pr. p. P. kṛiṇvát (f. -vatī́) Ā. kṛiṇvāṇá. IV) cl. 8. (this is the usual formation in the Brāhmaṇas;
Sūtras, andᅠ in classical Sanskṛit) P. karómi
(ep. kurmi MBh. III, 10943 R. II, 12, 33);
kurvás, kuruthás, kurutás, kurmás < kulmas in an interpolation after RV. X, 128 >,
kuruthá, kurvánti;
Ā. kurvé, etc., 3. pl. kurváte (Pāṇ. 6-4, 108-110):
impf. akaravam, akaros, akarot, akurva, etc.;
Ā. 3. sg. akuruta pl. akurvata:
Impv. kuru, karotu (in the earlier language 2. andᅠ 3. sg. kurutāt, 3. sg. alsoᅠ BhP. VI, 4, 34),
kuruta orᅠ kurutana Nir. IV, 7 ;
Ā. kurushva, kurudhvam, kurvátām:
Subj. karavāṇi, karavas, - vāt, - vāva orᅠ - vāvas (Pāṇ. 3-4, 98 Kāṡ.),
- vāma orᅠ - vāmas ( ib.), - vātha, - van;
Ā. karavai, kuruthās, karavāvahai ( TUp. ;
- he MBh. III, 10762),
karavaithe, - vaite (Pāṇ. 3-4, 95, Kāṡ),
- vāmahai (- he MBh. R. I, 18, 12):
Pot. P. kuryām Ā. kurvīya (Pāṇ. 6-4, 109 and 110) ;
pr. p. P. kurvát (f. -vatī́);
Ā. kurvāṇá:
perf. P. cakā́ra, cakártha, cakṛivá, cakṛimá, cakrá (Pāṇ. 7-2, 13) ;
Ā. cakré, cakriré;
p. cakṛivas (acc. cakrúsham RV. X, 137, 1);
Ā. cakrāṇa ( Vop.): 2nd fut. karishyáti;
Subj. 2. sg. karishyā́s RV. IV, 30, 23 ; 1st fut. kártā:
Prec. kriyāsam:
aor. P. Ved. cakaram RV. IV, 42, 6,
acakrat RV. IV, 18, 12, ácakriran RV. VIII, 6, 20 ;
Ā. 1. sg. kṛiske RV. X, 49, 7 ;
Class. akārshīt Pāṇ. 7-2, 1 Kāṡ. ;
(once akārashīt BhP. I, 10, 1);
Pass. aor. reflex. akāri andᅠ akṛita (Pāṇ. 3-1, 62 Kāṡ.):
Inf. kártum, Ved. kártave, kártavaí, kártos ( seeᅠ ss.vv.);
ind. p. kṛitvā́, Ved. kṛitvī́ < RV. > andᅠ kṛitvā́ya TS. IV, V ;
to do, make, perform, accomplish, cause, effect, prepare, undertake RV. etc.;
to do anything for the advantage orᅠ injury of another (gen. orᅠ loc.) MBh. R. etc.;
to execute, carry out (as an order orᅠ command) ib. ;
to manufacture, prepare, work at, elaborate, build ib. ;
to form orᅠ construct one thing out of another (abl. orᅠ instr.) R. I, 2, 44 Hit. etc.. ;
to employ, use, make use of (instr.) ṠvetUp. Mn. X, 91 MBh. etc.. ;
to compose, describe R. I ;
to cultivate Yājñ. II, 158 (cf. Mn. X, 114);
to accomplish any period, bring to completion, spend
(e.g.. varshāṇidaṡacakruḥ, « they spent ten years» MBh. XV, 6 ;
kshaṇaṉkuru, « wait a moment» MBh. ;
cf. kritakshaṇa);
to place, put, lay, bring, lead, take hold of (acc. orᅠ loc. orᅠ instr. e.g.. ardháṉ-kṛi, to take to one's own side orᅠ party, cause to share in (gen.;
seeᅠ 2. ardhá);
haste orᅠ pāṇau-kṛi, to take by the hand, marry Pāṇ. 1-4, 77 ;
hṛidayena-kṛi, to place in one's heart, love Mṛicch. ;
hṛidi-kṛi, to take to heart, mind, think over, consider Rājat. V, 313 ;
manasi-kṛi id. R. II, 64, 8 Hcar. ;
to determine, purpose <ind. p. - sikṛitvā orᅠ - si-kṛitya> Pāṇ. 1-4, 75 ;
vaṡe-kṛi, to place in subjection, become master of Mn. II, 100);
to direct the thoughts, mind, etc. ( mánas RV. Mn. MBh. etc.. ;
orᅠ buddhim Nal. XXVI, 10 orᅠ matim MBh. R. orᅠ bhāvam < ib. >, etc.)
towards any object, turn the attention to, resolve upon, determine on
(loc. dat. inf., orᅠ a sentence with iti e.g.. māṡokemanaḥkṛithāḥ,
do not turn your mind to grief Nal. XIV, 22 ;
gamanāyamatiṉcakre, he resolved upon going R. I, 9, 55 ;
alābuṉsamutsrashṭuṉmanaṡcakre, he resolved to create a gourd MBh. III, 8844 ;
drashṭātavâ̱smî ̱timatiṉcakāra, he determined to seeᅠ him MBh. III, 12335);
to think of (acc.) R. I, 21, 14 ;
to make, render (with two acc. e.g.. ādityaṉkāshṭhāmakurvata, they made the sun their goal AitBr. IV, 7) RV. ṠBr. etc.;
to procure for another, bestow, grant (with gen. orᅠ loc.) RV. VS. ṠBr. etc.. ;
Ā. to procure for one's self, appropriate, assume ṠBr. BṛĀrUp. Mn. VII, 10 etc.. ;
to give aid, help any one to get anything (dat.) RV. VS. ;
to make liable to (dat.) RV. III, 41, 6 ṠBr. IV ;
to injure, violate (e.g.. kanyāṉ-kṛi, to violate a maiden) Mn. VIII, 367 and 369 ;
to appoint, institute ChUp. Mn. ;
to give an order, commission Mn. R. II, 2, 8 ;
to cause to get rid of, free from (abl. orᅠ - tas) Pāṇ. 5-4, 49 Kāṡ. ;
to begin (e.g.. cakreṡobhayitumpurīm, they began to adorn the city) R. II, 6, 10 ;
to proceed, act, put in practice VS. ṠBr. AitBr. etc.;
to worship, sacrifice RV. ṠBr. Mn. III, 210 ;
to make a sound ( svaram orᅠ ṡabdam) MBh. III, 11718 Pāṇ. 4-4, 34 Hit.),
utter, pronounce (often ifc. with the sounds phaṭ, phut, bhāṇ, váshaṭ, svadhā́, svā́hā, hiṉ), pronounce any formula (Mn. II, 74 and XI, 33) ;
(with numeral adverbs ending in dhā) to divide, separate orᅠ break up into parts (e.g.. dvidhā-kṛi, to divide into two parts, ind. p. dvidhākṛitvā orᅠ dvidhā-kṛitya orᅠ - kāram Pāṇ. 3-4, 62 ;
sahasradhā-kṛi, to break into a thousand pieces);
(with adverbs ending in vat) to make like orᅠ similar, consider equivalent (e.g.. rājyaṉtṛiṇa-vatkṛitvā, valuing the kingdom like a straw Vet.);
(with adverbs ending in sāt)
to reduce anything to, cause to become, make subject
( seeᅠ ātma-sāt, bhasma-sāt) Pāṇ. 5-4, 52ff. ;
The above senses of kṛi may be variously modified orᅠ almost infinitely extended according to the noun with which this root is connected, as in the following examples:
sakhyaṉ-kṛi, to contract friendship with;
pūjāṉ-kṛi, to honour;
rājyaṉ-kṛi, to reign;
snehaṉ-kṛi, to show affection;
ājñāṉ orᅠ nideṡaṉ orᅠ ṡāsanaṉ orᅠ kāmaṉ orᅠ yācanāṉ orᅠ vacaḥ orᅠ vacanaṉ orᅠ vākyaṉ-kṛi, to perform any one's command orᅠ wish orᅠ request etc.;
dharmaṉ-kṛi, to do one's duty Mn. VII, 136 ;
nakhāni-kṛi, « to clean one's nails» seeᅠ kṛita-nakha;
udakaṉ Mn. Yājñ. R. Daṡ. orᅠ salilaṉ R. I, 44, 49 kṛi, to offer a libation of Water to the dead;
to perform ablutions;
astrāṇi-kṛi, to practise the use of weapons MBh. III, 11824 ;
darduraṉ-kṛi, to breathe the flute Pāṇ. 4-4, 34 ;
daṇḍaṉ-kṛi, to inflict punishment etc. Vet. ;
kālaṉ-kṛi, to bring one's time to an end i.e. to die;
ciraṉ-kṛi, to be long in doing anything, delay;
manasā (for - si seeᅠ above) kṛi, to place in one's mind, think of, meditate MBh. ;
ṡirasā-kṛi, to place on one's the head;
mūrdhnā-kṛi, to place on one's head, obey, honour
Very rarely in Veda AV. XVIII, 2, 27,
but commonly in the Brāhmaṇas, Sūtras,
andᅠ especially in classical Sanskṛit the perf.
forms cakāra andᅠ cakre auxiliarily used to form the periphrastical perfect of verbs, especially of causatives e.g.. āsāṉcakre, « he sat down» ;
gamayā́ṉcakāra, « he caused to go» < seeᅠ Pāṇ. 3-1, 40 ;
in Veda some other forms of kṛi are used in a similar way, viz. pr. karoti ṠāṇkhṠr. ;
impf. akar MaitrS. and Kāṭh. ;
3. pl. akran MaitrS. and TBr. ;
Prec. kriyāt MaitrS. ( seeᅠ Pāṇ. 3-1, 42);
according to Pāṇ. 3-1, 41, alsoᅠ karotu with vid>
Caus. kārayati, - te,
to cause to act orᅠ do, cause another to perform, have anything made orᅠ done by another
(double acc. instr. andᅠ acc. < seeᅠ Pāṇ. 1-4, 53 >
e.g.. sabhāṉkāritavān, he caused an assembly to be made Hit. ;
rāja-darṡanaṉmāṉkāraya, cause me to have an audience of the king;
vāṇijyaṉkārayedvaiṡyam, he ought to cause the Vaiṡya to engage in trade Mn. VIII, 410 ;
naṡakshyāmikiṉcitkārayituṉtvayā, I shall not be able to have anything done by thee MBh. II, 6);
to cause to manufacture orᅠ form orᅠ cultivate Lāṭy. Yājñ. II, 158 MBh. etc.. ;
to cause to place orᅠ put, have anything placed, put upon, etc.
(e.g.. taṉcitrapaṭaṉvāsa-gṛihebhittāvakārayat,
he had the picture placed on the wall in his house Kathās. V, 30) Mn. VIII, 251. ;
Sometimes the Caus. of kṛi is used for the simple verb orᅠ without a causal signification
(e.g.. padaṉkārayati, he pronounces a word Pāṇ. 1-3, 71 Kāṡ. ;
mithyāk-, he pronounces wrongly ib. ;
kaikeyīmanurājānaṉkāraya, treat orᅠ deal with Kaikeyī as the king does R. II, 58, 16):
Desid. cíkīrshati (aor. 2. sg. acikīrshīs ṠBr. III), ep. alsoᅠ - te, to wish to make orᅠ do, intend to do, design, intend, begin, strive after AV. XII, 4, 19 ṠBr. KātyṠr. Mn. etc.. ;
to wish to sacrifice orᅠ worship AV. V, 8, 3:
Intens. 3. pl. karikrati (pr. p. kárikrat seeᅠ Naigh. II, 1 and Pāṇ. 7-4, 65),
to do repeatedly RV. AV. TS. ;
Class. carkarti orᅠ carikarti orᅠ carīkarti Pāṇ. 7-4, 92 Kāṡ.,
alsoᅠ carkarīti orᅠ carikarīti orᅠ carīkarīti orᅠ cekrīyate < ib. Sch. Vop. >;
+ cf. Hib. caraim, « I perform, execute» ;
ceard, « an art, trade, business, function» ;
sucridh, « easy» ;
Old Germ. karawan, « to prepare» ;
Mod. Germ. gar, « prepared (as food)» ;
Lat. creo, ceremonia;
κραίνω, κρόνος
2) cl. 3. P. p. cakrát (Pot. 2. sg. cakriyās;
aor. 1. sg. akārsham AV. VII, 7, 1 orᅠ akārisham RV. IV, 39, 6),
to make mention of, praise, speak highly of (gen.) RV. AV.:
Intens. (1. sg. carkarmi, 1. pl. carkirāma, 3. pl. carkiran;
Impv. 2. sg. carkṛitā́t andᅠ carkṛidhi;
aor. 3. sg. Ā. cárkṛishe) id. RV. AV. (cf. kārú, kīrí, kīrtí.)
3) to injure, etc. seeᅠ 2. kṛī
to make the sound kharaṭa Pāṇ. 5-4, 57 Kāṡ. ;
P. - karoti, to make straight ib.
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17 Howe, Frederick Webster
[br]b. 28 August 1822 Danvers, Massachusetts, USAd. 25 April 1891 Providence, Rhode Island, USA[br]American mechanical engineer, machine-tool designer and inventor.[br]Frederick W.Howe attended local schools until the age of 16 and then entered the machine shop of Gay \& Silver at North Chelmsford, Massachusetts, as an apprentice and remained with that firm for nine years. He then joined Robbins, Kendall \& Lawrence of Windsor, Vermont, as Assistant to Richard S. Lawrence in designing machine tools. A year later (1848) he was made Plant Superintendent. During his time with this firm, Howe designed a profiling machine which was used in all gun shops in the United States: a barrel-drilling and rifling machine, and the first commercially successful milling machine. Robbins \& Lawrence took to the Great Exhibition of 1851 in London, England, a set of rifles built on the interchangeable system. The interest this created resulted in a visit of some members of the British Royal Small Arms Commission to America and subsequently in an order for 150 machine tools, jigs and fixtures from Robbins \& Lawrence, to be installed at the small-arms factory at Enfield. From 1853 to 1856 Howe was in charge of the design and building of these machines. In 1856 he established his own armoury at Newark, New Jersey, but transferred after two years to Middletown, Connecticut, where he continued the manufacture of small arms until the outbreak of the Civil War. He then became Superintendent of the armoury of the Providence Tool Company at Providence, Rhode Island, and served in that capacity until the end of the war. In 1865 he went to Bridgeport, Connecticut, to assist Elias Howe with the manufacture of his sewing machine. After the death of Elias Howe, Frederick Howe returned to Providence to join the Brown \& Sharpe Manufacturing Company. As Superintendent of that establishment he worked with Joseph R. Brown in the development of many of the firm's products, including machinery for the Wilcox \& Gibbs sewing machine then being made by Brown \& Sharpe. From 1876 Howe was in business on his own account as a consulting mechanical engineer and in his later years he was engaged in the development of shoe machinery and in designing a one-finger typewriter, which, however, was never completed. He was granted several patents, mainly in the fields of machine tools and firearms. As a designer, Howe was said to have been a perfectionist, making frequent improvements; when completed, his designs were always sound.[br]Further ReadingJ.W.Roe, 1916, English and American Tool Builders, New Haven; repub. 1926, New York, and 1987, Bradley, 111. (provides biographical details).R.S.Woodbury, 1960, History of the Milling Machine, Cambridge, Mass, (describes Howe's contribution to the development of the milling machine).RTSBiographical history of technology > Howe, Frederick Webster
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18 Hunt, Walter
SUBJECT AREA: Weapons and armour[br]b. 29 July 1796 Martinsburg, New York, USAd. 8 June 1859 New York, USA[br]American inventor and developer of the first repeating rifle.[br]Hunt displayed talent as an inventor at an early age. While in his late teens he designed a machine for spinning flax, and after taking out a patent on it in 1826 he went to New York in order to set up a company to manufacture it. The company failed, however, and he was forced to go into business as an estate agent in order to make a living. Nevertheless, he remained undeterred and continued to invent a wide range of objects, including an iron fire alarm for fire stations and engines (1827) and the safety pin (1849). However, either many of his ideas were before their time or he failed to market them properly: for example, in 1834 he invented a sewing machine with lockstitch, but failed to patent it and it was left to others, such as Merritt Singer, to reap the rewards. He also conceived the name "fountain pen", but again more commercially minded people, Swan, Parker and Waterman, enjoyed the benefits. His paper collar, invented in 1854, only became popular after his death. Hunt is probably best remembered in the field of firearms. In 1849 he produced the first repeating rifle, which had a tubular magazine fixed under the barrel and fired special self-propelled or "rocket" balls, for which Hunt had taken out a patent the previous year. Although this weapon never entered general manufacture, the design principles incorporated in it were later reflected in the Springfield, Winchester, Henry and Volcanic rifles, which began to appear towards the end of the following decade.[br]Further Reading1974, Webster's American Biographies (a useful summary of Hunt's life and work).CM -
19 Krupp, Alfred
[br]b. 26 April 1812 Essen, Germanyd. 14 July 1887 Bredeney, near Essen, Germany[br]German manufacturer of steel and armaments.[br]Krupp's father founded a small cast-steel works at Essen, but at his early death in 1826 the firm was left practically insolvent to his sons. Alfred's formal education ended at that point and he entered the ailing firm. The expansion of trade brought about by the Zollverein, or customs union, enabled him to increase output, and by 1843 he had 100 workers under him, making steel springs and machine parts. Five years later he was able to buy out his co-heirs, and in 1849 he secured his first major railway contract. The quality of his product was usefully advertised by displaying a flawless 2-ton steel ingot at the Great Exhibition of 1851. Krupp was then specializing in the manufacture of steel parts for railways and steamships, notably a weldless steel tire for locomotives, from which was derived the three-ring emblem of the Krupp concern. Krupp made a few cannon from 1847 but sold his first to the Khedive of Egypt in 1857. Two years later he won a major order of 312 cannon from the Prussian Government. With the development of this side of the business, he became the largest steel producer in Europe. In 1862 he adopted the Bessemer steelmaking process. The quality and design of his cannon were major factors in the victory of the Prussian artillery bombardment at Sedan in the Franco- Prussian War of 1870. Krupp expanded further during the boom years of the early 1870s and he was able to gain control of German coal and Spanish iron-ore supplies. He went on to manufacture heavy artillery, with a celebrated testing ground at Osnabrück. By this time he had a workforce of 21,000, whom he ruled with benevolent but strict control. His will instructed that the firm should not be divided.[br]Further ReadingP.Batty, 1966, The House of Krupp (includes a bibliography). G.von Klass, 1954, Krupp: The Story of an Industrial Empire.LRD -
20 Nobel, Alfred Bernhard
[br]b. 21 October 1833 Stockholm, Swedend. 10 December 1896 San Remo, Italy[br]Swedish industrialist, inventor of dynamite, founder of the Nobel Prizes.[br]Alfred's father, Immanuel Nobel, builder, industrialist and inventor, encouraged his sons to follow his example of inventiveness. Alfred's education was interrupted when the family moved to St Petersburg, but was continued privately and was followed by a period of travel. He thus acquired a good knowledge of chemistry and became an excellent linguist.During the Crimean War, Nobel worked for his father's firm in supplying war materials. The cancellation of agreements with the Russian Government at the end of the war bankrupted the firm, but Alfred and his brother Immanuel continued their interest in explosives, working on improved methods of making nitroglycerine. In 1863 Nobel patented his first major invention, a detonator that introduced the principle of detonation by shock, by using a small charge of nitroglycerine in a metal cap with detonating or fulminating mercury. Two years later Nobel set up the world's first nitroglycerine factory in an isolated area outside Stockholm. This led to several other plants and improved methods for making and handling the explosive. Yet Nobel remained aware of the dangers of liquid nitroglycerine, and after many experiments he was able in 1867 to take out a patent for dynamite, a safe, solid and pliable form of nitroglycerine, mixed with kieselguhr. At last, nitroglycerine, discovered by Sobrero in 1847, had been transformed into a useful explosive; Nobel began to promote a worldwide industry for its manufacture. Dynamite still had disadvantages, and Nobel continued his researches until, in 1875, he achieved blasting gelatin, a colloidal solution of nitrocellulose (gun cotton) in nitroglycerine. In many ways it proved to be the ideal explosive, more powerful than nitroglycerine alone, less sensitive to shock and resistant to moisture. It was variously called Nobel's Extra Dynamite, blasting gelatin and gelignite. It immediately went into production.Next, Nobel sought a smokeless powder for military purposes, and in 1887 he obtained a nearly smokeless blasting powder using nitroglycerine and nitrocellulose with 10 per cent camphor. Finally, a progressive, smokeless blasting powder was developed in 1896 at his San Remo laboratory.Nobel's interests went beyond explosives into other areas, such as electrochemistry, optics and biology; his patents amounted to 355 in various countries. However, it was the manufacture of explosives that made him a multimillionaire. At his death he left over £2 million, which he willed to funding awards "to those who during the preceding year, shall have conferred the greatest benefit on mankind".[br]Bibliography1875, On Modern Blasting Agents, Glasgow (his only book).Further ReadingH.Schuck et al., 1962, Nobel, the Man and His Prizes, Amsterdam.E.Bergengren, 1962, Alfred Nobel, the Man and His Work, London and New York (includes a supplement on the prizes and the Nobel institution).LRD
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