-
1 large proprietor
Экономика: крупный владелец -
2 large proprietor
English-russian dctionary of contemporary Economics > large proprietor
-
3 proprietor
nсобственник, владелец
- copyright proprietor
- individual proprietor
- joint proprietor
- landed proprietor
- large proprietor
- loan proprietor
- part proprietor
- petty proprietor
- registered proprietor
- sole proprietor
- working proprietor
- proprietor of a business
- proprietor of cargo
- proprietor of a firm
- proprietor of an enterprise
- proprietor of goods
- proprietor of a patent
- proprietor of a trademarkEnglish-russian dctionary of contemporary Economics > proprietor
-
4 master
1. n хозяин, владелец; господинthe master of the house — глава семьи; хозяин дома
to play the master — хозяйничать, распоряжаться
I am not my own master — я не волен поступать, как хочу, я собой не распоряжаюсь
to be master of oneself — владеть собой, держать себя в руках
we will see which of us is master — посмотрим, кто из нас хозяин положения
after hard fighting, the defenders were still masters of the city — после тяжёлых боёв город оставался в руках его защитников
master of the house — хозяин, глава семьи
2. n учитель3. n глава колледжаthe master of the household — хозяин дома, глава семьи
4. n магистрGrand Master — великий магистр, гроссмейстер
5. n мастер, знаток своего дела, специалистhe is master of this subject — он глубоко знает этот предмет, он специалист по этому предмету
6. n квалифицированный рабочий; мастерmaster hand — мастер, специалист
7. n великий, знаменитый художник, мастерmaster gunner — старший инструктор по стрельбе; мастер стрельбы
8. n в названиях должностей9. n молодой барин, барчук; мастер, господинcomplete master of fence — настоящий мастер фехтования, искусный фехтовальщик
10. n шотл. старший сын титулованного лицаmaster index — главный индекс; старший индекс
11. n Христос12. n капитан, шкиперmaster mariner — капитан, шкипер
13. n ист. штурман14. n спец. модель; оригинал, образецmaster drawing — оригинал; эталонный чертеж
15. n первый оригиналfilm master — оригинал микрофильма; оригинал на плёнке
16. n руководство17. a главный, старшийmaster bedroom — спальня хозяев, господская спальня
18. a основной; сводный19. a контрольный20. v справляться, одолевать, подчинять себеto master the enemy — наносить поражение противнику, одерживать победу над противником
21. v преодолевать22. v овладевать23. v руководить, управлять24. v русск. как компонент сложных слов, соответствует компоненту -мачтовикСинонимический ряд:1. dominant (adj.) ascendant; dominant; outweighing; overbalancing; overbearing; overweighing; paramount; predominant; predominate; preponderant; prevalent; regnant; sovereign2. major (adj.) chief; excellent; leading; main; major; principal; supreme3. proficient (adj.) accomplished; adept; crack; crackerjack; deft; expert; masterful; masterly; practiced; proficient; skilled; skillful4. expert (noun) adept; artist; artiste; authority; champion; connoisseur; doyen; expert; genius; maestro; master-hand; maven; passed master; past master; pro; professional; proficient; sage; scholar; swell; virtuoso; whiz; wiz; wizard5. leader (noun) boss; captain; chief; chieftain; cock; commander; director; dominator; head; headman; hierarch; honcho; leader; lord; overlord; ruler; superintendent; supervisor6. lover (noun) boyfriend; fancy man; lover; man; paramour7. original (noun) archetype; original; prototype8. owner (noun) holder; owner; possessor; proprietor9. supreme being (noun) Christ; god; messiah; supreme being10. teacher (noun) educator; instructor; mentor; preceptor; teacher11. victor (noun) conqueror; defeater; subduer; subjugator; vanquisher; victor; winner12. conquer (verb) conquer; defeat; humble; overpower; rule; subdue; vanquish13. domesticate (verb) domesticate; domesticize; domiciliate; gentle; tame14. learn (verb) comprehend; control; dominate; gain mastery in; get; learn; pick up; study; understand15. overcome (verb) best; down; hurdle; lick; overcome; prevail; surmount; throw; triumph; worstАнтонимический ряд:inept; novice; resist; student; subject -
5 Coade, Eleanor
SUBJECT AREA: Architecture and building[br]b. 24 June 1733 Exeter, Devon, Englandd. 18 November 1821 Camberwell, London, England[br]English proprietor of the Coade Factory, making artificial stone.[br]Born Elinor Coade, she never married but adopted, as was customary in business in the eighteenth century, the courtesy title of Mrs. Following the bankruptcy and death of her father, George Coade, in Exeter, Eleanor and her mother (also called Eleanor) moved to London and founded the works at Lambeth, South London, in 1769 that later became famous as the Coade factory. The factory was located at King's Arms Stairs, Narrow Wall. During the eighteenth century, several attempts had been made in other businesses to manufacture a durable, malleable artificial stone that would be acceptable to architects for decorative use. These substances were not very successful, but Coade stone was different. Although stories are legion about the secret formula supposedly used in this artificial stone, modern methods have established the exact formula.Coade stone was a stoneware ceramic material fired in a kiln. The body was remarkable in that it shrank only 8 per cent in drying and firing: this was achieved by using a combination of china clay, sand, crushed glass and grog (i.e. crushed and ground, previously fired stoneware). The Coade formula thus included a considerable proportion of material that, having been fired once already, was unshrinkable. Mrs Coade's name for the firm, Coade's Lithodipyra Terra-Cotta or Artificial Stone Manufactory (where "Lithodipyra" is a term derived from three Greek words meaning "stone", "twice" and "fire"), made reference to the custom of including such material (such as in Josiah Wedgwood's basalt and jasper ware). The especially low rate of shrinkage rendered the material ideal for making extra-life-size statuary, and large architectural, decorative features to be incorporated into stone buildings.Coade stone was widely used for such purposes by leading architects in Britain and Ireland from the 1770s until the 1830s, including Robert Adam, Sir Charles Barry, Sir William Chambers, Sir John Soane, John Nash and James Wyatt. Some architects introduced the material abroad, as far as, for example, Charles Bulfinch's United States Bank in Boston, Massachusetts, and Charles Cameron's redecoration for the Empress Catherine of the great palace Tsarkoe Selo (now Pushkin), near St Petersburg. The material so resembles stone that it is often mistaken for it, but it is so hard and resistant to weather that it retains sharpness of detail much longer than the natural substance. The many famous British buildings where Coade stone was used include the Royal Hospital, Chelsea, Carlton House and the Sir John Soane Museum (all of which are located in London), St George's Chapel at Windsor, Alnwick Castle in Northumberland, and Culzean Castle in Ayrshire, Scotland.Apart from the qualities of the material, the Coade firm established a high reputation for the equally fine quality of its classical statuary. Mrs Coade employed excellent craftsmen such as the sculptor John Bacon (1740–99), whose work was mass-produced by the use of moulds. One famous example which was widely reproduced was the female caryatid from the south porch of the Erechtheion on the acropolis of Athens. A drawing of this had appeared in the second edition of Stuart and Revett's Antiquities of Athens in 1789, and many copies were made from the original Coade model; Soane used them more than once, for example on the Bank of England and his own houses in London.Eleanor Coade was a remarkable woman, and was important and influential on the neo-classical scene. She had close and amicable relations with leading architects of the day, notably Robert Adam and James Wyatt. The Coade factory was enlarged and altered over the years, but the site was finally cleared during 1949–50 in preparation for the establishment of the 1951 Festival of Britain.[br]Further ReadingA.Kelly, 1990, Mrs Coade's Stone, pub. in conjunction with the Georgian Group (an interesting, carefully written history; includes a detailed appendix on architects who used Coade stone and buildings where surviving work may be seen).DY -
6 Crookes, Sir William
SUBJECT AREA: Electricity[br]b. 17 June 1832 London, Englandd. 4 April 1919 London, England[br]English chemist and physicist who carried out studies of electrical discharges and cathode rays in rarefied gases, leading to the development of the cathode ray tube; discoverer of the element thallium and the principle of the Crookes radiometer.[br]Crookes entered the Royal College of Chemistry at the age of 15, and from 1850 to 1854 held the appointment of Assistant at the college. In 1854 he became Superintendent of the Meteorological Department at the Radcliffe Observatory in Oxford. He moved to a post at the College of Science in Chester the following year. Soon after this he inherited a large fortune and set up his own private laboratory in London. There he studied the nature of electrical discharges in gases at low pressure and discovered the dark space (later named after him) that surrounds the negative electrode, or cathode. He also established that the rays produced in the process (subsequently shown by J.J.Thompson to be a stream of electrons) not only travelled in straight lines, but were also capable of producing heat and/or light upon impact with suitable anode materials. Using a variety of new methods to investigate these "cathode" rays, he applied them to the spectral analysis of compounds of selenium and, as a result, in 1861 he discovered the element thallium, finally establishing its atomic weight in 1873. Following his discovery of thallium, he became involved in two main lines of research: the properties of rarified gases, and the investigation of the elements of the "rare earths". It was also during these experiments that he discovered the principle of the Crookes radiometer, a device in which light is converted into rotational motion and which used to be found frequently in the shop windows of English opticians. Also among the fruits of this work were the Crookes tubes and the development of spectacle lenses with differential ranges of radiational absorption. In the 1870s he became interested in spiritualism and acquired a reputation for his studies of psychic phenomena, but at the turn of the century he returned to traditional scientific investigations. In 1892 he wrote about the possibility of wireless telegraphy. His work in the field of radioactivity led to the invention of the spinthariscope, an early type of detector of alpha particles. In 1900 he undertook investigations into uranium which led to the study of scintillation, an important tool in the study of radioactivity.While the theoretical basis of his work has not stood the test of time, his material discoveries, observations and investigations of new facts formed a basis on which others such as J.J. Thomson were to develop subatomic theory. His later involvement in the investigation of spiritualism led to much criticism, but could be justified on the basis of a belief in the duty to investigate all phenomena.[br]Principal Honours and DistinctionsKnighted 1897. Order of Merit 1910. FRS 1863. President, Royal Society 1913–15. Honorary LLD Birmingham. Honorary DSc Oxon, Cambridge, Sheffield, Durham, Ireland and Cape of Good Hope.Bibliography1874, On Attraction and Repulsion Resulting from Radiation.1874, "Researches in the phenomenon of spiritualism", Society of Metaphysics; reprinted in facsimile, 1986.For many years he was also Proprietor and Editor of Chemical News.Further ReadingE.E.Fournier D'Albe, 1923, Life of Sir William Crookes. Who Was Who II, 1916–28, London: A. \& C. Black. T.I.Williams, 1969, A Biographical Dictionary of Scientists. See also Braun, Karl Ferdinand.KF / MG -
7 Héroult, Paul Louis Toussaint
SUBJECT AREA: Metallurgy[br]b. 1863 Thury-Harcourt, Caen, Franced. 9 May 1914 Antibes, France[br]French metallurigst, inventor of the process of aluminium reduction by electrolysis.[br]Paul Héroult, the son of a tanner, at the age of 16, while still at school in Caen, read Deville's book on aluminium and became obsessed with the idea of developing a cheap way of producing this metal. After his family moved to Gentillysur-Bièvre he studied at the Ecole Sainte-Barbe in Paris and then returned to Caen to work in the laboratory of his father's tannery. His first patent, filed in February and granted on 23 April 1886, described an invention almost identical to that of C.M. Hall: "the electrolysis of alumina dissolved in molten cryolite into which the current is introduced through suitable electrodes. The cryolite is not consumed." Early in 1887 Héroult attempted to obtain the support of Alfred Rangod Pechiney, the proprietor of the works at Salindres where Deville's process for making sodium-reduced aluminium was still being operated. Pechiney persuaded Héroult to modify his electrolytic process by using a cathode of molten copper, thus making it possible produce aluminium bronze rather than pure aluminium. Héroult then approached the Swiss firm J.G.Nehe Söhne, ironmasters, whose works at the Falls of Schaffhausen obtained power from the Rhine. They were looking for a new metallurgical process requiring large quantities of cheap hydroelectric power and Héroult's process seemed suitable. In 1887 they established the Société Metallurgique Suisse to test Héroult's process. Héroult became Technical Director and went to the USA to defend his patents against those of Hall. During his absence the Schaffhausen trials were successfully completed, and on 18 November 1888 the Société Metallurgique combined with the German AEG group, Oerlikon and Escher Wyss, to establish the Aluminium Industrie Aktiengesellschaft Neuhausen. In the early electrolytic baths it was occasionally found that arcs between the bath surface and electrode could develop if the electrodes were inadvertently raised. From this observation, Héroult and M.Killiani developed the electric arc furnace. In this, arcs were intentionally formed between the surface of the charge and several electrodes, each connected to a different pole of the AC supply. This furnace, the prototype of the modern electric steel furnace, was first used for the direct reduction of iron ore at La Praz in 1903. This work was undertaken for the Canadian Government, for whom Héroult subsequently designed a 5,000-amp single-phase furnace which was installed and tested at Sault-Sainte-Marie in Ontario and successfully used for smelting magnetite ore.[br]Further ReadingAluminium Industrie Aktiengesellschaft Neuhausen, 1938, The History of the Aluminium-Industrie-Aktien-Gesellschaft Neuhausen 1888–1938, 2 vols, Neuhausen.C.J.Gignoux, Histoire d'une entreprise française. "The Hall-Héroult affair", 1961, Metal Bulletin (14 April):1–4.ASDBiographical history of technology > Héroult, Paul Louis Toussaint
См. также в других словарях:
Amb (princely state) — This article is part of the series Former administrative units of Pakistan Original provinces … Wikipedia
MITCHELL, Sir William Henry Fancourt (1810-1884) — politician son of the Rev. George Mitchell of Leicester, England, was born in 1810. He came to Tasmania in January 1833, entered the government service, and in 1839 was assistant colonial secretary. He crossed to Victoria in 1842, and taking up… … Dictionary of Australian Biography
William Henry Fancourt Mitchell — Sir William Henry Fancourt Mitchell KB (1811 – 24 February 1884) was an Australian politician.Mitchell was the son of the Rev. George Mitchell of Leicester, England. He came to Tasmania in January 1833 on the Sir Thomas Munro and entered the… … Wikipedia
Hardgate — 1) HARDGATE, a village, in that part of the parish of Old Kilpatrick which formed the quoad sacra parish of Duntocher, county of Dumbarton, 2 miles (E.) from Old Kilpatrick; containing 467 inhabitants. This is one of numerous thriving villages … A Topographical dictionary of Scotland
publishing, history of — Introduction an account of the selection, preparation, and marketing of printed matter from its origins in ancient times to the present. The activity has grown from small beginnings into a vast and complex industry responsible for the… … Universalium
Property — • The person who enjoys the full right to dispose of it insofar as is not forbidden by law Catholic Encyclopedia. Kevin Knight. 2006. Property Property … Catholic encyclopedia
japan — japanner, n. /jeuh pan /, n., adj., v., japanned, japanning. n. 1. any of various hard, durable, black varnishes, originally from Japan, for coating wood, metal, or other surfaces. 2. work varnished and figured in the Japanese manner. 3. Japans,… … Universalium
Japan — /jeuh pan /, n. 1. a constitutional monarchy on a chain of islands off the E coast of Asia: main islands, Hokkaido, Honshu, Kyushu, and Shikoku. 125,716,637; 141,529 sq. mi. (366,560 sq. km). Cap.: Tokyo. Japanese, Nihon, Nippon. 2. Sea of, the… … Universalium
United States — a republic in the N Western Hemisphere comprising 48 conterminous states, the District of Columbia, and Alaska in North America, and Hawaii in the N Pacific. 267,954,767; conterminous United States, 3,022,387 sq. mi. (7,827,982 sq. km); with… … Universalium
Josias Fendall — Gov. Josias Fendall, Lt. Gen., Esq. (c. 1628–1687), was fourth proprietary and colonial Governor of Maryland. He was born in England, and came to the Province of Maryland. He was the progenitor of the Fendall family in America.Early Maryland life … Wikipedia
Mount Carroll Seminary — The Mount Carroll Seminary was the name of Shimer College from 1853 to 1896. The Seminary was located in Mount Carroll, Illinois, in the United States. A pioneering institution in its time and place, the Mount Carroll Seminary served as a center… … Wikipedia