technical+experience

непосредственно связанный с

Непосредственно связанный с-- Nothing was found in the technical literature describing experimental experience directly related to the use of a reactive working fluid in regenerative engines.

подниматься на новую ступень технического развития

Подниматься на новую ступень технического развития-- In the 80's, the steel industry in general will experience greater technical development.

техническое совершенство

Техническое совершенство

 This engineering excellence is backed up by the 90 years of compressor manufacturing experience.

 We have reached a degree of technical sophistication in which we can begin to predict the dynamic response of mechanical components in the design stage.

трудность трудност·ь

difficulty; pitfall разг.

бороться с трудностями — to contend with difficulties

встретиться с трудностью (на переговорах) — to bit a snag

встретиться с трудностями — to encounter difficulties

выпутаться из трудностей — to extricate (oneself) from difficulties

избегать трудностей — to shirk difficulties

испытывать трудности — to suffer / to experience difficulties, to be at a low ebb

натолкнуться на трудности — to meet with difficulties

осознавать все трудности — to realize the difficulties

пасовать перед трудностями — to back down before difficulties

переносить трудности — to suffer hardships преодолевать трудности to overcome / to bring over / to bridge over / to win difficulties

пытаться преодолеть трудность — to tackle a difficulty

создавать трудности — to create difficulties

справиться с трудностями — to cope with difficulties

столкнуться с большими трудностями — to face great difficulties

усиливать трудности — to exacerbate difficulties

возникли трудности — difficulties arose, snag developed

бюджетные трудности — budget difficulties

внешнеполитические трудности — foreign-policy difficulties

значительные трудности — formidable difficulties

непреодолимые трудности — insuperable / insurmountable difficulties

объективные трудности — objective difficulties

огромные трудности — grinding difficulties

политические трудности — political difficulties

углублять политические трудности — to deepen political difficulties

технические / формальные трудности — technical difficulties

финансовые трудности — financial difficulties

экономические трудности — economic difficulties

переживать экономические трудности — to suffer economic troubles

трудности сбыта — marketing difficulties

трудности субъективного порядка — subjective difficulties

навык

сущ. experience, skill ( в практической работе), (acquired) habit; practice; attainment

навык медицинский medical art

навык технический technical skill

навык ухода за больными nursing art

Cross, Charles Frederick

SUBJECT AREA: Chemical technology, Synthetic materials, Textiles

[br]

b. 11 December 1855 Brentwood, Middlesex, England

d. 15 April 1935 Hove, England

[br]

English chemist who contributed to the development of viscose rayon from cellulose.

[br]

Cross was educated at the universities of London, Zurich and Manchester. It was at Owens College, Manchester, that Cross first met E.J. Bevan and where these two first worked together on the nature of cellulose. After gaining some industrial experience, Cross joined Bevan to set up a partnership in London as analytical and consulting chemists, specializing in the chemistry and technology of cellulose and lignin. They were at the Jodrell laboratory, Kew Gardens, for a time and then set up their own laboratory at Station Avenue, Kew Gardens. In 1888, the first edition of their joint publication A Textbook of Paper-making, appeared. It went into several editions and became the standard reference and textbook on the subject. The long introductory chapter is a discourse on cellulose.

In 1892, Cross, Bevan and Clayton Beadle took out their historic patent on the solution and regeneration of cellulose. The modern artificial-fibre industry stems from this patent. They made their discovery at New Court, Carey Street, London: wood-pulp (or another cheap form of cellulose) was dissolved in a mixture of carbon disulphide and aqueous alkali to produce sodium xanthate. After maturing, it was squirted through fine holes into dilute acid, which set the liquid to give spinnable fibres of "viscose". However, it was many years before the process became a commercial operation, partly because the use of a natural raw material such as wood involved variations in chemical content and each batch might react differently. At first it was thought that viscose might be suitable for incandescent lamp filaments, and C.H.Stearn, a collaborator with Cross, continued to investigate this possibility, but the sheen on the fibres suggested that viscose might be made into artificial silk. The original Viscose Spinning Syndicate was formed in 1894 and a place was rented at Erith in Kent. However, it was not until some skeins of artificial silk (a term to which Cross himself objected) were displayed in Paris that textile manufacturers began to take an interest in it. It was then that Courtaulds decided to investigate this new fibre, although it was not until 1904 that they bought the English patents and developed the first artificial silk that was later called "rayon". Cross was also concerned with the development of viscose films and of cellulose acetate, which became a rival to rayon in the form of "Celanese". He retained his interest in the paper industry and in publishing, in 1895 again collaborating with Bevan and publishing a book on Cellulose and other technical articles. He was a cultured man and a good musician. He was elected a Fellow of the Royal Society in 1917.

[br]

Principal Honours and Distinctions

FRS 1917.

Bibliography

1888, with E.J.Bevan, A Text-book of Papermaking. 1892, British patent no. 8,700 (cellulose).

Further Reading

Obituary Notices of the Royal Society, 1935, London. Obituary, 1935, Journal of the Chemical Society 1,337. Chambers Concise Dictionary of Scientists, 1989, Cambridge.

Edwin J.Beer, 1962–3, "The birth of viscose rayon", Transactions of the Newcomen Society 35 (an account of the problems of developing viscose rayon; Beer worked under Cross in the Kew laboratories).

C.Singer (ed.), 1978, A History of Technology, Vol. VI, Oxford: Clarendon Press.

RLH

Deering, William

SUBJECT AREA: Agricultural and food technology

[br]

b. 1826 USA

d. 1913 USA

[br]

American entrepreneur who invested in the developing agricultural machinery manufacturing industry and became one of the founders of the International Harvester Company.

[br]

Deering began work in his father's woollen mill and, with this business experience, developed Deering, Milliken \& Co., a wholesale dry goods business. Deering invested $40,000 in the Marsh reaper business in 1870, and became a partner in 1872. In 1880 he gained full control of the company and took up residence in Chicago, where he set up a factory. In 1878 he saw the Appleby binders, and in November of that year he negotiated a licence agreement for their manufacture. Deering was aware that with only two twine manufacturers operating in the US, the high price of twine was discouraging sales of binders. He therefore entered into an agreement with Edwin H.Fitler of Philadelphia for the production of very large quantities of twine, and in so doing dramatically reduced its price. In 1880 Deering released onto the market 3,000 binders and ten cartloads of twine that he had manufactured secretly. By 1890 McCormick and Deering were market leaders; Deering anticipated McCormick in a number of technical areas and also diversified his business into ore, timber, and a rolling and casting mill. After several false starts, a merger between the two companies took place on 12 August 1902 to form the International Harvester Company, with Deering as chairman of the voting trust which was established to control it. The company expanded into Canada in 1903 and into Europe in 1905. It began its first experiments with tractors in that same year and produced the first production models in 1906. The company went into truck production in 1907.

[br]

Further Reading

C.H.Wendell, 1981, 150 Years of International Harvester, Crestlink Publishing (though more concerned with the machinery produced by International Harvester, this gives an account of its originating companies, and the personalities behind them).

H.N.Casson, 1908, The Romance of the Reaper, Doubleday Page (deals with McCormick, Deering and the formation of International Harvester).

AP

Forrester, George

SUBJECT AREA: Land transport, Railways and locomotives

[br]

b. 1780/1 Scotland

d. after 1841

[br]

Scottish locomotive builder and technical innovator.

[br]

George Forrester \& Co. built locomotives at the Vauxhall Foundry, Liverpool, between 1834 and c.1847. The first locomotives built by them, in 1834, were three for the Dublin \& Kingstown Railway and one for the Liverpool \& Manchester Railway; they were the first locomotives to have outside horizontal cylinders and the first to have four fixed eccentrics to operate the valves, in place of two loose eccentrics. Two locomotives built by Forrester in 1835 for the Dublin \& Kingstown Railway were the first tank locomotives to run regularly on a public railway, and two more supplied in 1836 to the London \& Greenwich Railway were the first such locomotives in England. Little appears to be known about Forrester himself. In the 1841 census his profession is shown as "civil engineer, residence 1 Lord Nelson Street". Directories for Liverpool, contemporary with Forrester \& Co.'s locomotive building period, describe the firm variously as engineers, iron founders and boilermakers, located at (successively) 234,224 and 40 Vauxhall Road. Works Manager until 1840 was Alexander Allan, who subsequently used the experience he had gained with Forrester in the design of his "Crewe Type" outside-cylinder locomotive, which became widely used.

[br]

Further Reading

E.L.Ahrons, 1927, The British Steam Railway Locomotive 1825–1925, The Locomotive Publishing Co., pp. 29, 43, 50 and 83.

J.Lowe, 1975, British Steam Locomotive Builders, Cambridge: Goose \& Son.

R.H.G.Thomas, 1986, London's First Railway: The London \& Greenwich, B.T.Batsford, p. 176.

PJGR

Griffith, Alan Arnold

SUBJECT AREA: Aerospace, Steam and internal combustion engines

[br]

b. 13 June 1893 London, England

d. 13 October 1963 Farnborough, England

[br]

English research engineer responsible for many original ideas, including jet-lift aircraft.

[br]

Griffith was very much a "boffin", for he was a quiet, thoughtful man who shunned public appearances, yet he produced many revolutionary ideas. During the First World War he worked at the Royal Aircraft Factory, Farnborough, where he carried out research into structural analysis. Because of his use of soap films in solving torsion problems, he was nicknamed "Soap-bubble".

During the 1920s Griffith carried out research into gas-turbine design at the Royal Aircraft Establishment (RAE; as the Royal Aircraft Factory had become). In 1929 he made proposals for a gas turbine driving a propeller (a turboprop), but the idea was shelved. In the 1930s he was head of the Engine Department of the RAE and developed multi-stage axial compressors, which were later used in jet engines. This work attracted the attention of E.W. (later Lord) Hives of Rolls-Royce who persuaded Griffith to join Rolls-Royce in 1939. His first major project was a "contra-flow" jet engine, which was a good idea but a practical failure. However, Griffith's axial-flow compressor experience played an important part in the success of Rolls-Royce jet engines from the Avon onwards. He also proposed the bypass principle used for the Conway.

Griffith experimented with suction to control the boundary layer on wings, but his main interest in the 1950s centred on vertical-take-off and -landing aircraft. He developed the remarkable "flying bedstead", which consisted of a framework (the bedstead) in which two jet engines were mounted with their jets pointing downwards, thus lifting the machine vertically. It first flew in 1954 and provided much valuable data. The Short SC1 aircraft followed, with four small jets providing lift for vertical take-off and one conventional jet to provide forward propulsion. This flew successfully in the late 1950s and early 1960s. Griffith proposed an airliner with lifting engines, but the weight of the lifting engines when not in use would have been a serious handicap. He retired in 1960.

[br]

Principal Honours and Distinctions

CBE 1948. FRS 1941. Royal Aeronautical Society Silver Medal 1955; Blériot Medal 1962.

Bibliography

Griffith produced many technical papers in his early days; for example: 1926, Aerodynamic Theory of Turbine Design, Farnborough.

Further Reading

D.Eyre, 1966, "Dr A.A.Griffith, CBE, FRS", Journal of the Royal Aeronautical Society (June) (a detailed obituary).

F.W.Armstrong, 1976, "The aero engine and its progress: fifty years after Griffith", Aeronautical Journal (December).

O.Stewart, 1966, Aviation: The Creative Ideas, London (provides brief descriptions of Griffith's many projects).

JDS

Humfrey, William

SUBJECT AREA: Metallurgy

[br]

b. c.1515

d. 14 July 1579

[br]

English goldsmith and Assay Master of the Royal Mint who attempted to introduce brass production to England.

[br]

William Humfrey, goldsmith of the parish of St Vedast, was appointed Assay Master of the Royal Mint in 1561. At the Tower of London he assumed responsibility for the weight of silver and for production standards at a time of intense activity in recoining the debased coinage of the realm. Separation of copper from the debased silver involved liquation techniques which enabled purification of the recovered silver and copper. German co-operation in introducing these methods to England developed their interest in English copper mining, resulting in the formation of the Mines Royal Company. Shareholders in this government-led monopoly included Humfrey, whose assay of Keswick copper ore, mined with German expertise, was bitterly disputed. As a result of this dispute, Humfrey promoted the formation of a smaller monopoly, the Company of Mineral Battery Works, with plans to mine lead and especially the zinc carbonate ore, calamine, using it to introduce brassmaking and wire manufacture into England. Humfrey acquired technical assistance from further skilled German immigrants, relying particularly on Christopher Schutz of Annaberg in Saxony, who claimed experience in such matters. However, the brassmaking project set up at Tintern was abandoned by 1569 after failure to make a brass suitable for manufacturing purposes. The works changed its production to iron wire. Humfrey had meanwhile been under suspicion of embezzlement at the Tower in connection with his work there. He died intestate while involved in litigation regarding infringement of rights and privileges claimed from his introduction of new techniques in later lead-mining activities under the auspices of the Company of Mineral and Battery Works.

[br]

Further Reading

M.B.Donald, 1961, Elizabethan Monopolies, London: Oliver \& Boyd (the most detailed account).

——1955, Elizabethan Copper, reprinted 1989, Michael Moon.

JD

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]

Bibliography

1993, with M.Wilson and W.A.M.Cutting, "Osmotic production of sterile oral rehydration solutions", Tropical Doctor 23:69–72.

LRD

Murray, Matthew

SUBJECT AREA: Land transport, Mechanical, pneumatic and hydraulic engineering, Railways and locomotives, Steam and internal combustion engines

[br]

b. 1765 near Newcastle upon Tyne, England

d. 20 February 1826 Holbeck, Leeds, England

[br]

English mechanical engineer and steam engine, locomotive and machine-tool pioneer.

[br]

Matthew Murray was apprenticed at the age of 14 to a blacksmith who probably also did millwrighting work. He then worked as a journeyman mechanic at Stockton-on-Tees, where he had experience with machinery for a flax mill at Darlington. Trade in the Stockton area became slack in 1788 and Murray sought work in Leeds, where he was employed by John Marshall, who owned a flax mill at Adel, located about 5 miles (8 km) from Leeds. He soon became Marshall's chief mechanic, and when in 1790 a new mill was built in the Holbeck district of Leeds by Marshall and his partner Benyon, Murray was responsible for the installation of the machinery. At about this time he took out two patents relating to improvements in textile machinery.

In 1795 he left Marshall's employment and, in partnership with David Wood (1761– 1820), established a general engineering and millwrighting business at Mill Green, Holbeck. In the following year the firm moved to a larger site at Water Lane, Holbeck, and additional capital was provided by two new partners, James Fenton (1754–1834) and William Lister (1796–1811). Lister was a sleeping partner and the firm was known as Fenton, Murray \& Wood and was organized so that Fenton kept the accounts, Wood was the administrator and took charge of the workshops, while Murray provided the technical expertise. The factory was extended in 1802 by the construction of a fitting shop of circular form, after which the establishment became known as the "Round Foundry".

In addition to textile machinery, the firm soon began the manufacture of machine tools and steam-engines. In this field it became a serious rival to Boulton \& Watt, who privately acknowledged Murray's superior craftsmanship, particularly in foundry work, and resorted to some industrial espionage to discover details of his techniques. Murray obtained patents for improvements in steam engines in 1799, 1801 and 1802. These included automatic regulation of draught, a mechanical stoker and his short-D slide valve. The patent of 1801 was successfully opposed by Boulton \& Watt. An important contribution of Murray to the development of the steam engine was the use of a bedplate so that the engine became a compact, self-contained unit instead of separate components built into an en-gine-house.

Murray was one of the first, if not the very first, to build machine tools for sale. However, this was not the case with the planing machine, which he is said to have invented to produce flat surfaces for his slide valves. Rather than being patented, this machine was kept secret, although it was apparently in use before 1814.

In 1812 Murray was engaged by John Blenkinsop (1783–1831) to build locomotives for his rack railway from Middleton Colliery to Leeds (about 3 1/2 miles or 5.6 km). Murray was responsible for their design and they were fitted with two double-acting cylinders and cranks at right angles, an important step in the development of the steam locomotive. About six of these locomotives were built for the Middleton and other colliery railways and some were in use for over twenty years. Murray also supplied engines for many early steamboats. In addition, he built some hydraulic machinery and in 1814 patented a hydraulic press for baling cloth.

Murray's son-in-law, Richard Jackson, later became a partner in the firm, which was then styled Fenton, Murray \& Jackson. The firm went out of business in 1843.

[br]

Principal Honours and Distinctions

Society of Arts Gold Medal 1809 (for machine for hackling flax).

Further Reading

L.T.C.Rolt, 1962, Great Engineers, London (contains a good short biography).

E.Kilburn Scott (ed.), 1928, Matthew Murray, Pioneer Engineer, Leeds (a collection of essays and source material).

C.F.Dendy Marshall, 1953, A History of Railway Locomotives Down to the End of the

Year 1831, London.

L.T.C.Rolt, 1965, Tools for the Job, London; repub. 1986 (provides information on Murray's machine-tool work).

Some of Murray's correspondence with Simon Goodrich of the Admiralty has been published in Transactions of the Newcomen Society 3 (1922–3); 6(1925–6); 18(1937– 8); and 32 (1959–60).

RTS

Whitworth, Sir Joseph

SUBJECT AREA: Mechanical, pneumatic and hydraulic engineering, Metallurgy, Weapons and armour

[br]

b. 21 December 1803 Stockport, Cheshire, England

d. 22 January 1887 Monte Carlo, Monaco

[br]

English mechanical engineer and pioneer of precision measurement.

[br]

Joseph Whitworth received his early education in a school kept by his father, but from the age of 12 he attended a school near Leeds. At 14 he joined his uncle's mill near Ambergate, Derbyshire, to learn the business of cotton spinning. In the four years he spent there he realized that he was more interested in the machinery than in managing a cotton mill. In 1821 he obtained employment as a mechanic with Crighton \& Co., Manchester. In 1825 he moved to London and worked for Henry Maudslay and later for the Holtzapffels and Joseph Clement. After these years spent gaining experience, he returned to Manchester in 1833 and set up in a small workshop under a sign "Joseph Whitworth, Tool Maker, from London".

The business expanded steadily and the firm made machine tools of all types and other engineering products including steam engines. From 1834 Whitworth obtained many patents in the fields of machine tools, textile and knitting machinery and road-sweeping machines. By 1851 the company was generally regarded as the leading manufacturer of machine tools in the country. Whitworth was a pioneer of precise measurement and demonstrated the fundamental mode of producing a true plane by making surface plates in sets of three. He advocated the use of the decimal system and made use of limit gauges, and he established a standard screw thread which was adopted as the national standard. In 1853 Whitworth visited America as a member of a Royal Commission and reported on American industry. At the time of the Crimean War in 1854 he was asked to provide machinery for manufacturing rifles and this led him to design an improved rifle of his own. Although tests in 1857 showed this to be much superior to all others, it was not adopted by the War Office. Whitworth's experiments with small arms led on to the construction of big guns and projectiles. To improve the quality of the steel used for these guns, he subjected the molten metal to pressure during its solidification, this fluid-compressed steel being then known as "Whitworth steel".

In 1868 Whitworth established thirty annual scholarships for engineering students. After his death his executors permanently endowed the Whitworth Scholarships and distributed his estate of nearly half a million pounds to various educational and charitable institutions. Whitworth was elected an Associate of the Institution of Civil Engineers in 1841 and a Member in 1848 and served on its Council for many years. He was elected a Member of the Institution of Mechanical Engineers in 1847, the year of its foundation.

[br]

Principal Honours and Distinctions

Baronet 1869. FRS 1857. President, Institution of Mechanical Engineers 1856, 1857 and 1866. Hon. LLD Trinity College, Dublin, 1863. Hon. DCL Oxford University 1868. Member of the Smeatonian Society of Civil Engineers 1864. Légion d'honneur 1868. Society of Arts Albert Medal 1868.

Bibliography

1858, Miscellaneous Papers on Mechanical Subjects, London; 1873, Miscellaneous Papers on Practical Subjects: Guns and Steel, London (both are collections of his papers to technical societies).

1854, with G.Wallis, The Industry of the United States in Machinery, Manufactures, and

Useful and Ornamental Arts, London.

Further Reading

F.C.Lea, 1946, A Pioneer of Mechanical Engineering: Sir Joseph Whitworth, London (a short biographical account).

A.E.Musson, 1963, "Joseph Whitworth: toolmaker and manufacturer", Engineering Heritage, Vol. 1, London, 124–9 (a short biography).

D.J.Jeremy (ed.), 1984–6, Dictionary of Business Biography, Vol. 5, London, 797–802 (a short biography).

W.Steeds, 1969, A History of Machine Tools 1700–1910, Oxford (describes Whitworth's machine tools).

RTS

Yourkevitch, Vladimir Ivanovitch

SUBJECT AREA: Ports and shipping

[br]

b. 17 June 1885 Moscow, Russia

d. 14 December 1964 USA

[br]

Russian (naturalized American) naval architect who worked in Russia, Western Europe and the United States and who profoundly influenced the hull design of large ships.

[br]

Yourkevitch came from an academic family, but one without any experience or tradition of sea service. Despite this he decided to become a naval architect, and after secondary education at Moscow and engineering training at the St Petersburg Polytechnic, he graduated in 1909. For the following ten years he worked designing battleships and later submarines, mostly at the Baltic Shipyard in St Petersburg. Around 1910 he became a full member of the Russian Naval Constructors Corps, and in 1915 he was a founder member and first Scientific Secretary of the Society of Naval Engineers.

Using the published data of the American Admiral D.W. Taylor and taking advantage of access to the Norddeutscher Lloyd Testing Tank at Bremerhaven, Yourkevitch proposed a new hull form with bulbous bow and long entrances and runs. This was the basis for the revolutionary battleships then laid down at St Petersburg, the "Borodino" class. Owing to the war these ships were launched but never completed. At the conclusion of the war Yourkevitch found himself in Constantinople, where he experienced the life of a refugee, and then he moved to Paris where he accepted almost any work on offer. Fortunately in 1928, through an introduction, he was appointed a draughtsman at the St Nazaire shipyard. Despite his relatively lowly position, he used all his personality to persuade the French company to alter the hull form of the future record breaker Normandie. The gamble paid off and Yourkevitch was able to set up his own naval architecture company, BECNY, which designed many well-known liners, including the French Pasteur.

In 1939 he settled in North America, becoming a US citizen in 1945. On the night of the fire on the Normandie, he was in New York but was prevented from going close to the ship by the police, and the possibility of saving the ship was thrown away. He was involved in many projects as well as lecturing at Ann Arbor, Michigan, and at the Massachusetts Institute of Technology. He maintained connections with his technical colleagues in St Petersburg in the later years of his life. His unfulfilled dream was the creation of a superliner to carry 5,000 passengers and thus able to make dramatic cuts in the cost of transatlantic travel. Yourkevitch was a fine example of a man whose vision enabled him to serve science and engineering without consideration of inter-national boundaries.

[br]

Principal Honours and Distinctions

Order of St Stanislav and Order of St Anna c. 1910.

AK/FMW

условие

условие сущ

condition

условия сущ

media

аварийные условия

1. emergency conditions

2. accident conditions акт о нарушении условий

irregularity report

атмосферные условия

atmospheric conditions

благоприятные условия

favorable conditions

взлет в условиях плохой видимости

low visibility takeoff

визуальные метеорологические условия

visual meteorological conditions

время налета в ночных условиях

night flying time

в соответствии с техническими условиями

in conformity with the specifications

в условиях обтекания

airflow conditions

входить в условия

penetrate conditions

выполнять полет в определенных условиях

fly under conditions

выполнять условия

fulfil the conditions

граничные условия

boundary conditions

данные об условиях полета

flight environment data

действовать согласно условиям

act as conditions dictate

заданные условия

predetermined conditions

заданные условия полета

given conditions of flight

запрашивать условия

request instructions

заход на посадку в условиях ограниченной видимости

low-visibility approach

заявленные условия

declared conditions

изменение атмосферных условий

atmospheric variation

имитатор условий полета

flight simulator

имитация полета в натуральных условиях

full-scale flight

инструктаж по условиям полета по маршруту

route briefing

информация по условиям посадки

landing instruction

испытание вертолета в условиях снежного и пыльного вихрей

rotocraft snow and dust test

испытание в реальных условиях

direct test

испытания на соответствие заданным техническим условиям

1. proof-of-compliance tests

2. functional tests исходные условия

datum conditions

исходные условия сертификации

certification reference conditions

исходные условия сертификации по шуму

noise certification reference conditions

летная подготовка в условиях, приближенных к реальным

line oriental flight training

механизм для создания условий полета в нестабильной атмосфере

rough air mechanism

моделирование условий полета

flight simulation

наземные условия

ground conditions

наиболее неблагоприятные погодные условия

lowest weather conditions

неблагоприятные погодные условия

adverse weather conditions

неблагоприятные условия

unfavorable conditions

нерасчетные условия

off-design conditions

ночные условия

night-time conditions

ожидаемые условия

expected conditions

ожидаемые условия эксплуатации

anticipated operating conditions

опасные погодные условия

hazardous weather conditions

опасные условия полета

hazardous flight conditions

основные условия перевозки

general conditions of carriage

особые условия

special conditions

отклонение от технических условий

departure from specifications

перевозчик на договорных условиях

contract carrier

погодные условия

weather conditions

полет в условиях болтанки

1. bumpy-air flight

2. turbulent flight полет в условиях отсутствия видимости

nonvisual flight

полет в условиях плохой видимости

low-visibility flight

полетные условия

flight conditions

порядок эксплуатации в зимних условиях

snow plan

предупреждение опасных условий полета

avoidance of hazardous conditions

при благоприятных условиях

under fair conditions

приборные метеорологические условия

instrument meteorological conditions

при любых метеорологических условиях

in all meteorological conditions

расчетные условия

1. reference conditions

2. design conditions расчетные условия торможения

reference friction conditions

реальные условия полета

actual flight conditions

реальные условия эксплуатации

field conditions

скорость в условиях турбулентности

1. rough-air speed

2. rough airspeed сложные условия

severe environment

соблюдать технические условия

meet the specifications

соблюдать условия

observe the conditions

способность выполнять посадку в сложных метеорологических условиях

all-weather landing capability

технические условия

technical specification

указания по условиям эксплуатации в полете

inflight operational instructions

условия без радиолокационного контроля

nonradar environment

условия взлета

takeoff conditions

условия видимости

visibility conditions

условия вне зоны аэродрома

off-field conditions

условия в полете

in-flight conditions

условия в районе аэродрома

aerodrome environment

условия в районе ВПП

runway environment

условия вылета

departure requirements

условия выполнения воздушных перевозок

air traffic environment

условия контракта

contract conditions

условия, моделируемые на тренажере

simulated conditions

условия нагружения

loading conditions

условия нагружения в полете

flight loading conditions

условия над океаном

oceanic environment

условия на маршруте

en-route environment

условия обледенения крыла

wing icing conditions

условия обтекания воздушным потоком

airflow conditions

условия ограниченной видимости

low visibility conditions

условия перевозок

conditions of carriage

условия плохой видимости

poor visibility conditions

условия по заданному маршруту

conditions on the route

условия посадки

landing conditions

условия посадки на воду

ditching conditions

условия, по сложности превосходящие квалификацию пилота

conditions beyond the experience

условия при высокой плотности воздушного движения

high density traffic environment

условия проведения испытаний

test environment

условия пролета

overflight conditions

условия работы экипажа

crew environment

условия свободного потока

free-stream conditions

условия сертификационных испытаний по шуму

noise certification test conditions

условия с использованием радиолокационного контроля

radar environment

условия у земли

ground reference

условия хранения

storage conditions

условия эксплуатации

1. in-service environment

2. service conditions установившиеся условия

steady conditions

эксплуатировать в заданных условиях

operate under the conditions

βαπτίζω

βαπτίζω fut. βαπτίσω; 1 aor. ἐβάπτισα. Mid.: ἐβαπτισάμην. Pass.: impf. ἐβαπτιζόμην; fut. βαπτισθήσομαι; 1 aor. ἐβαπτίσθην; pf. ptc. βεβαπτισμένος (Hippocr., Pla., esp. Polyb.+; UPZ 70, 13 [152/151 B.C.]; PGM 5, 69; LXX; ApcSed 14:7 [p. 136, 8f Ja.]; Philo; Joseph.; SibOr 5, 478; Just.; Mel., Fgm. 8, 1 and 2 Goodsp.=8b, 4 and 14 P.—In Gk. lit. gener. to put or go under water in a variety of senses, also fig., e.g. ‘soak’ Pla., Symp. 176b in wine) in our lit. only in ritual or ceremonial sense (as Plut.; Herm. Wr. [s. 2a below]; PGM 4, 44; 7, 441 λουσάμενος κ. βαπτισάμενος; 4 Km 5:14; Sir 34:25; Jdth 12:7; cp. Iren. 1, 21, 3 [Harv. I 183, 83]).

① wash ceremonially for purpose of purification, wash, purify, of a broad range of repeated ritual washing rooted in Israelite tradition (cp. Just., D. 46, 2) Mk 7:4; Lk 11:38; Ox 840, 15.—WBrandt, Jüd. Reinheitslehre u. ihre Beschreibg. in den Ev. 1910; ABüchler, The Law of Purification in Mk 7:1–23: ET 21, 1910, 34–40; JDöller, D. Reinheits-u. Speisegesetze d. ATs 1917; JJeremias, TZ 5, ’49, 418–28. See 1QS 5:8–23; 2:25–3:12; 4:20–22.

② to use water in a rite for purpose of renewing or establishing a relationship w. God, plunge, dip, wash, baptize. The transliteration ‘baptize’ signifies the ceremonial character that NT narratives accord such cleansing, but the need of qualifying statements or contextual coloring in the documents indicates that the term β. was not nearly so technical as the transliteration suggests.

ⓐ of dedicatory cleansing associated w. the ministry of John the Baptist (Orig., C. Cels. 1, 47, 4), abs. J 1:25, 28; 3:23a; 10:40; hence John is called ὁ βαπτίζων Mk 1:4; 6:14, 24 (Goodsp., Probs. 50–52).—Pass. Mt 3:16; ISm 1:1; oft. have oneself baptized, get baptized Mt 3:13f; Lk 3:7, 12, 21; 7:30; J 3:23b; GEb 18, 35f; IEph 18:2 al. (B-D-F §314; s. §317).—(ἐν) ὕδατι w. water Mk 1:8a; Lk 3:16a; Ac 1:5a; 11:16a; ἐν (τῷ) ὕδατι J 1:26, 31, 33; ἐν τῷ Ἰορδ. (4 Km 5:14) Mt 3:6; Mk 1:5; εἰς τὸν Ἰορδ. (cp. Plut., Mor. 166a βάπτισον σεαυτὸν εἰς θάλασσαν; Herm. Wr. 4, 4 βάπτισον σεαυτὸν εἰς τὸν κρατῆρα) Mk 1:9.—W. the external element and purpose given ἐν ὕδατι εἰς μετάνοιαν Mt 3:11a (AOliver, Is β. used w. ἐν and the Instrumental?: RevExp 35, ’38, 190–97).—βαπτίζεσθαι τὸ βάπτισμα Ἰωάννου undergo John’s baptism Lk 7:29. εἰς τί ἐβαπτίσθητε; Ac 19:3 means, as the answer shows, in reference to what (baptism) were you baptized? i.e. what kind of baptism did you receive (as the context indicates, John’s baptism was designed to implement repentance as a necessary stage for the reception of Jesus; with the arrival of Jesus the next stage was the receipt of the Holy Spirit in connection with apostolic baptism in the name of Jesus, who was no longer the ‘coming one’, but the arrived ‘Lord’)? β. βάπτισμα μετανοίας administer a repentance baptism vs. 4; GEb 13, 74.—S. the lit. on Ἰωάν(ν)ης 1, and on the baptism of Jesus by John: JBornemann, D. Taufe Christi durch Joh. 1896; HUsener, D. Weihnachtsfest² 1911; DVölter, D. Taufe Jesu durch Joh.: NThT 6, 1917, 53–76; WBundy, The Meaning of Jesus’ Baptism: JR 7, 1927, 56–75; MJacobus, Zur Taufe Jesu bei Mt 3:14, 15: NKZ 40, 1929, 44–53; SHirsch, Taufe, Versuchung u. Verklärung Jesu ’32; DPlooij, The Baptism of Jesus: RHarris Festschr. (Amicitiae Corolla), ed. HWood ’33, 239–52; JKosnetter, D. Taufe Jesu ’36; HRowley, TManson memorial vol., ed. Higgins ’59, 218–29 (Qumran); JSchneider, Der historische Jesus u. d. kerygmatische Christus ’61, 530–42; HKraft, TZ 17, ’61, 399–412 (Joel); FLentzen-Dies, D. Taufe Jesu nach den Synoptikern, ’70. More reff. s.v. περιστερά.

ⓑ of cleansing performed by Jesus J 3:22, 26; 4:1; difft. 4:2 with disclaimer of baptismal activity by Jesus personally.

ⓒ of the Christian sacrament of initiation after Jesus’ death (freq. pass.; s. above 2a; Iren. 3, 12, 9 [Harv. II 63, 3]) Mk 16:16; Ac 2:41; 8:12f, 36, 38; 9:18; 10:47; 16:15, 33; 18:8; 22:16; 1 Cor 1:14–17; D 7 (where baptism by pouring is allowed in cases of necessity); ISm 8:2.—β. τινὰ εἰς (τὸ) ὄνομά τινος (s. ὄνομα 1dγב) baptize in or w. respect to the name of someone: (τοῦ) κυρίου Ac 8:16; 19:5; D 9:5; Hv 3, 7, 3. Cp. 1 Cor 1:13, 15. εἰς τ. ὄν. τ. πατρὸς καὶ τ. υἱοῦ καὶ τ. ἁγίου πνεύματος Mt 28:19 (on the original form of the baptismal formula see FConybeare, ZNW 2, 1901, 275–88; ERiggenbach, BFCT VII/1, 1903; VIII/4, 1904; HHoltzmann, Ntl. Theologie² I 1911, 449f; OMoe: RSeeberg Festschr. 1929, I 179–96; GOngaro, Biblica 19, ’38, 267–79; GBraumann, Vorpaulinische christl. Taufverkündigung bei Paulus ’62); D 7:1, 4. Likew. ἐν τῷ ὀν. Ἰ. Χριστοῦ Ac 2:38 v.l.; 10:48; ἐπὶ τῷ ὀν. Ἰ. Χρ. Ac 2:38 text; more briefly εἰς Χριστόν Gal 3:27; Ro 6:3a. To be baptized εἰς Χρ. is for Paul an involvement in Christ’s death and its implications for the believer εἰς τὸν θάνατον αὐτοῦ ἐβαπτίσθημεν vs. 3b (s. Ltzm. ad loc.; HSchlier, EvTh ’38, 335–47; GWagner, D. relgeschichtliche Problem von Rö 6:1–11, ’62, tr. Pauline Bapt. and the Pagan Mysteries, by JSmith, ’67; RSchnackenburg, Baptism in the Thought of St. Paul ’64, tr. of D. Heilsgeschehen b. d. Taufe nach dem Ap. Paulus ’50). The effect of baptism is to bring all those baptized εἰς ἓν σῶμα 1 Cor 12:13 (perh. wordplay: ‘plunged into one body’).—W. the purpose given εἰς ἄφεσιν τ. ἁμαρτιῶν Ac 2:38 (IScheftelowitz, D. Sündentilgung durch Wasser: ARW 17, 1914, 353–412).—Diod S 5, 49, 6: many believe that by being received into the mysteries by the rites (τελεταί) they become more devout, more just, and better in every way.—ὑπὲρ τ. νεκρῶν 1 Cor 15:29a, s. also vs. * 29b, is obscure because of our limited knowledge of a practice that was evidently obvious to the recipients of Paul’s letter; it has been interpr. (1) in place of the dead, i.e. vicariously; (2) for the benefit of the dead, in var. senses; (3) locally, over (the graves of) the dead; (4) on account of the dead, infl. by their good ex.; of these the last two are the least probable. See comm. and HPreisker, ZNW 23, 1924, 298–304; JZingerle, Heiliges Recht: JÖAI 23, 1926; Rtzst., Taufe 43f; AMarmorstein, ZNW 30, ’31, 277–85; AOliver, RevExp 34, ’37, 48–53; three articles: Kirchenblatt 98, ’42 and six: ET 54, ’43; 55, ’44; MRaeder, ZNW 46, ’56, 258–60; BFoschini, 5 articles: CBQ 12, ’50 and 13, ’51.—On the substitution of a ceremony by another person cp. Diod S 4, 24, 5: the boys who do not perform the customary sacrifices lose their voices and become as dead persons in the sacred precinct. When someone takes a vow to make the sacrifice for them, their trouble disappears at once.

③ to cause someone to have an extraordinary experience akin to an initiatory water-rite, to plunge, baptize. Cp. ‘take the plunge’ and s. OED ‘Plunge’ II 5 esp. for the rendering of usage 3c, below.

ⓐ typologically of Israel’s passage through the Red Sea εἰς τὸν Μωϋσῆν ἐβαπτίσαντο they got themselves plunged/ baptized for Moses, thereby affirming his leadership 1 Cor 10:2 v.l. (if the pass. ἐβαπτίσθησαν is to be read with N. the point remains the same; but the mid. form puts the onus, as indicated by the context, on the Israelites).

ⓑ of the Holy Spirit (fire) β. τινὰ (ἐν) πνεύματι ἁγίῳ Mk 1:8 (v.l. + ἐν); J 1:33; Ac 1:5b; 11:16b; cp. 1 Cor 12:13 (cp. Just., D. 29, 1). ἐν πν. ἁγ. καὶ πυρί Mt 3:11b; Lk 3:16b (JDunn, NovT 14, ’72, 81–92). On the oxymoron of baptism w. fire: REisler, Orphischdionysische Mysterienged. in d. christl. Antike: Vortr. d. Bibl. Warburg II/2, 1925, 139ff; CEdsman, Le baptême de feu (ASNU 9) ’40. JATRobinson, The Baptism of John and Qumran, HTR 50, ’57, 175–91; cp. 1QS 4:20f.

ⓒ of martyrdom (s. the fig. uses in UPZ 70, 13 [152/151 B.C.]; Diod S 1, 73, 6; Plut., Galba 1062 [21, 3] ὀφλήμασι βεβ. ‘overwhelmed by debts’; Chariton 2, 4, 4, βαπτιζόμενος ὑπὸ τ. ἐπιθυμίας; Vi. Aesopi I c. 21 p. 278, 4 λύπῃ βαπτιζόμενος; Achilles Tat. 3, 10, 1 πλήθει βαπτισθῆναι κακῶν; Herm. Wr. 4, 4 ἐβαπτίσαντο τοῦ νοός; Is 21:4; Jos., Bell. 4, 137 ἐβάπτισεν τ. πόλιν ‘he drowned the city in misery’) δύνασθε τὸ βάπτισμα ὸ̔ ἐγὼ βαπτίζομαι βαπτισθῆναι; Mk 10:38 (perh. the stark metaph. of impending personal disaster is to be rendered, ‘are you prepared to be drowned the way I’m going to be drowned?’); cp. vs. 39; Mt 20:22 v.l.; in striking contrast to fire Lk 12:50 (GDelling, Novum Testamentum 2, ’57, 92–115).—PAlthaus, Senior, D. Heilsbedeutung d. Taufe im NT 1897; WHeitmüller, Im Namen Jesu 1903, Taufe u. Abendmahl b. Paulus 1903, Taufe u. Abendmahl im Urchristentum 1911; FRendtorff, D. Taufe im Urchristentum 1905; HWindisch, Taufe u. Sünde im ältesten Christentum 1908; ASeeberg, D. Taufe im NT² 1913; AvStromberg, Studien zu Theorie u. Praxis der Taufe 1913; GottfrKittel, D. Wirkungen d. chr. Wassertaufe nach d. NT: StKr 87, 1914, 25ff; WKoch, D. Taufe im NT³ 1921; JLeipoldt, D. urchr. Taufe im Lichte der Relgesch. 1928; RReitzenstein, D. Vorgesch. d. christl. Taufe 1929 (against him HSchaeder, Gnomon 5, 1929, 353–70, answered by Rtzst., ARW 27, 1929, 241–77); FDölger, Ac I 1929, II 1930; HvSoden, Sakrament u. Ethik bei Pls: ROtto Festschr., Marburger Theologische Studien ’31, no. 1, 1–40; MEnslin, Crozer Quarterly 8, ’31, 47–67; BBacon, ATR 13, ’31, 155–74; CBowen: RHutcheon, Studies in NT, ’36, 30–48; GBornkamm, ThBl 17, ’38, 42–52; 18, ’39, 233–42; HSchlier, EvTh ’38, 335–47 ( Ro 6); EBruston, La notion bibl. du baptême: ÉTLR ’38, 67–93; 135–50; HMarsh, The Origin and Signif. of the NT Baptism ’41; KBarth, D. kirchl. Lehre v. d. Taufe² ’43 (Eng. tr., The Teaching of the Church Regarding Baptism, EPayne ’48); FGrant, ATR 27, ’45, 253–63; HSchlier, D. kirchl. Lehre v. d. Taufe: TLZ 72, ’47, 321–26; OCullmann, Baptism in the NT (tr. JReid) ’50; MBarth, D. Taufe ein Sakrament? ’51; RBultmann, Theology of the NT, tr. KGrobel ’51, I 133–44; JSchneider, D. Taufe im NT ’52; DStanley, TS 18, ’57, 169–215; EFascher, Taufe: Pauly-W. 2. Reihe IV 2501–18 (’32); AOepke, TW I ’33, 527–44; GBeasley-Murray, Baptism in the NT ’62; MQuesnel, Baptisés dans l’Esprit ’85 (Acts); DDaube, The NT and Rabbinic Judaism ’56, 106–40; NMcEleney, Conversion, Circumstance and the Law: NTS 20, ’74, 319–41; HBraun, Qumran u. d. NT II ’66, 1–29; OBetz, D. Proselytentaufe der Qumransekte u. d. NT: RevQ 1, ’58, 213–34; JYsebaert, Gk. Baptismal Terminology, ’62. S. τέκνον 1aα.—B. 1482. DELG s.v. βάπτω. M-M. EDNT. TW. Sv.

νέος

νέος, α, ον (Hom.+; ins, pap, LXX, TestSol; TestAbr A 2 p. 78, 27 [Stone p. 4]; Test12Patr; JosAs 29:11 cod. A [p. 85, 15 Bat. comp.]; ApcEsdr 5:5 p. 29, 29 Tdf.; ApcSed 16:2; AscIs 3:3 [comp.]; Philo, Joseph.; apolog. exc. Ar.) comp. νεώτερος.

① pert. to being in existence but a relatively short time, new, fresh

ⓐ of things ν. φύραμα fresh dough w. no leaven in it; symbolically of Christians 1 Cor 5:7 (s. φύραμα, ζύμη). Also ν. ζύμη of Christ IMg 10:2. οἶνος ν. new wine (Simonides 49 D.; Diocles 141 p. 184, 14; POxy 729, 19; 92, 2; 3; Sir 9:10), which is still fermenting Mt 9:17; Mk 2:22; Lk 5:37f; (opp. παλαιὸς οἶ. old, aged wine: schol. on Pind., O. 9, 74f [49]) vs. 39.—HImmerwahr, New Wine in Ancient Wineskins: Hesperia 61, ’92, 121–32.

ⓑ fig., of Christ πάντοτε νέος ἐν ἁγίων καρδίαις γεννώμενος he is ever born anew in the hearts of God’s people Dg 11:4 (Diod S 3, 62, 6 of Dionysus, who was torn to pieces but later joined together again by Demeter: ἐξ ἀρχῆς νέον γεννηθῆναι).

② pert. to being superior in quality or state to what went before, new of pers. ἐνδύσασθαι τὸν ν. (ἄνθρωπον) put on the new person Col 3:10. διαθήκη ν. the new covenant (διαθήκη 2; λόγος Mel., P. 6, 44) Hb 12:24.

③ pert. to being in the early stages of life, young

ⓐ as adj.

α. positive (Appian, Bell. Civ. 5, 136 §566 νέος ἀνήρ; PsSol 2:8; 17:11; Philo, Post. Cai. 109; Jos., Ant. 8, 23; Jerus. ins: SEG VIII, 209 [I A.D.]) ὁλοτελῶς νέον εἶναι be completely young Hv 3, 13, 4. Also of animals μόσχος νέος a young ox or calf 1 Cl 52:2 (Ps 68:32).

β. mostly comp.: ὁ νεώτερος υἱός the younger son (Gen 27:15; cp. Philo, Sacr. Abel. 42; Jos., Ant. 12, 235, in all these pass. in contrast to πρεσβύτερος as Lk 15:25) Lk 15:13; cp. vs. 12; 13:5 (Gen 48:14). τὴν ὄψιν νεωτέραν ἔχειν have a more youthful face Hv 3, 10, 4; 3, 12, 1. ὡσεὶ νεώτερος ἐγεγόνειν I felt young again Hs 9, 11, 5. On the other hand, the comp. sense is scarcely felt any longer 3, 10, 5; 3, 13, 1. Likew. in νεώτεραι χῆραι 1 Ti 5:11; cp. vs. 14, where the noun is to be supplied fr. context. Sim. J 21:18 (cp. Ps 36:25).

ⓑ as subst.

α. positive (οἱ) νέοι the young people (X., Cyr. 5, 1, 25; Diod S 14, 115, 3; 2 Macc 5:13; 6:28; 15:17; Jos., C. Ap. 2, 206; Just., A I, 54, 1; Tat. 32, 2; Ath. 34, 1; on the non-technical sense s. CForbes, NEOI ’33, 5 n. 17) w. οἱ πρεσβύτεροι (s. πρεσβύτερος 1a) 1 Cl 1:3; 3:3; 21:6. σκοπὸν πᾶσι τοῖς νέοις τιθέναι set a goal for all the young people 2 Cl 19:1 (οἱ νέοι for young people of both sexes: Nicetas Eugen. 8, 187 H.). AcPl Ox 6, 23 (restored=Aa 1, 242, 2)—αἱ νέαι the young women Tit 2:4.

β. comp., mostly with little comp. force (POxy 298, 29; TestSol 1:2 L, 3 L, 4 L; Jos., Ant. 15, 407): οἱ νεώτεροι young men (Diod S 14, 113, 3 [alternating with οἱ νέοι, and with no difference in mng. 14, 115, 3, as 18, 46, 3 οἱ πρεσβύτεροι … οἱ νεώτεροι beside 4 οἱ πρεσβύτεροι … οἱ νέοι]; 2 Macc 5:24; Just., D. 131, 6; MartIs 3:3 [Denis p. 112, Amh.] sg.) Ac 5:6; 1 Ti 5:1 (s. on πρεσβύτερος 1a); Tit 2:6; Pol 5:3. Opp. πρεσβύτεροι 1 Pt 5:5 (X., An. 7, 4, 5; Timaeus Hist.: 566 Fgm. 11a Jac. διακονεῖν τοὺς νεωτέρους τοῖς πρεσβυτέροις; Dio Chrys. 78 [29], 21; Demosth., Ep. 2, 10; EpArist 14; Philo, Spec. Leg. 2, 226; Jos., Ant. 3, 47; PParis 66, 24 πρεσβύτεροι καὶ ἀδύνατοι καὶ νεώτεροι; Plut., Mor. 486 F. On the other hand, also the ins of Ptolemais APF 1, 1901, 202 no. 4, 15 οἱ νεώτεροι καὶ οἱ ἄλλοι πολῖται. On νεώτεροι as t.t. s. Forbes, [α above] 60f; Schürer III 103). (αἱ) νεώτεραι young(er) women 1 Ti 5:2.—ὁ νεώτερος beside ὁ μείζων Lk 22:26 has the force of a superlative (cp. Gen 42:20); this is influenced by the consideration that the youngest was obliged to perform the lowliest service (cp. Ac 5:6).

④ a person beginning to experience someth., novice, subst. νέοι ἐν τῇ πίστει Hv 3, 5, 4.

⑤ The well-known city name (quotable Hdt.et al.) is prob. to be written Νέα πόλις (cp. SIG 107, 35 [410/409 B.C.] ἐν Νέαι πόληι; Meisterhans³-Schw. p. 137; PWarr 5, 8 [154 A.D.]; Diod S 20, 17, 1 Νέαν πόλιν; 20, 44, 1 ἐν Νέᾳ πόλει; Jos., Bell. 4, 449. Even in 247 A.D. τῆς Νέας πόλεως is found in pap [PViereck, Her 27, 1892, 516 II, 29f]; W-S. §5, 7i; Mlt-H. 278; Hemer, Acts 113) acc. Νέαν πόλιν Ac 16:11 (v.l. Νεάπολιν); IPol 8:1 (where, nevertheless, Νεάπολιν is attested and customarily printed). In both places our lit. means by Neapolis (New City, mod. Kavala) the harbor of Philippi in Macedonia (Ptolem. 3, 13; Strabo 7, Fgm. 36 p. 331; Appian, Bell. Civ. 4, 106 §446; Pliny, NH 4, 42 p. 58 Detl.; s. PECS 614; PCollart, Philippes ’37, 102–32, esp. p. 104).—RHarrisville s.v. καινός; Kl. Pauly IV 29f; B. 957f. Schhmidt, Syn. II 94–123 (Syn. of καινός). DELG. M-M. EDNT. TW.

ἀκούω

ἀκούω fut. ἀκούσω SibOr 4, 175; Mt 12:19; 13:14 (Is 6:9); J 5:25, 28; 10:16, ἀκούσομαι EpArist 5; Ac 3:22 (Dt 18:15); 28:28 (freq. w. vv.ll.); 1 aor. ἤκουσα; pf. ἀκήκοα; ptc. ἠκουκώς Hs 5, 4, 2. Pass.: fut. ἀκουσθήσομαι; 1 aor. ἠκούσθην; pf. 3 sg. ἤκουσται Dt 4:32 (Hom.+) ‘hear’, as a passive respondent to λέγω.

① lit. to have or exercise the faculty of hearing, hear

ⓐ abs. τὰ ὦτα ἀκούουσιν Mt 13:16; κωφοὶ ἀ. 11:5; cp. Mk 7:37; Lk 7:22; τοῖς ὠσὶν βαρέως ἀ. be hard of hearing Mt 13:15 (Is 6:10); ἀκοῇ ἀ. Mt 13:14; Ac 28:26 (both Is 6:9). ἀκούοντες οὐκ ἀκούουσιν they hear and yet do not hear Mt 13:13 (s. Aeschyl., Prom. 448 κλύοντες οὐκ ἤκουον; Demosth. 25 [Against Aristogeiton 1], 89, citing the maxim ὁρῶντας μὴ ὁρᾶν καὶ ἀκούοντας μὴ ἀκούειν), cp. Mk 8:18 (Ezk 12:2) and s. 7 below. In the protasis of a challenge to hearers, by which their attention is drawn to a special difficulty: ὁ ἔχων ὦτα (οὖς) ἀκούειν ἀκουέτω, w. variations (Arrian, Ind. 5, 1 ὅστις ἐθέλει φράζειν …, φραζέτω) Mt 11:15 v.l.; 13:9 v.l., 43 v.l.; Mk 4:9, 23; 7:15 [16] v.l.; Lk 8:8; 14:35 (EBishop, BT 7, ’56, 38–40); Rv 2:7, 11, 17, 29; 3:6, 13, 22; 13:9. Cp. Ox 1081 verso, 6–8; s. 7 below for the restored text. For the sense of the impv. in these challenges also s. 7. S. οὖς 2.

ⓑ w. obj. (on the syntax B-D-F §173; 416, 1; Rob. 506f; on the LXX s. Johannessohn, Kasus, 36; Helbing, Kasussyntax 150ff).

α. foll. by a thing as obj. in acc. (Diod S 8, 32, 1 τὶ something) Mt 11:4; 13:17ff; Lk 7:22; 1J 1:1, 3. τὴν φωνήν (UPZ 77 I, 25) Mt 12:19; J 3:8; Ac 22:9 (but see 7 below); 1 Cl 39:3 (Job 4:16); (pass. Mt 2:18 [Jer 38:15]; Rv 18:22). τὸν λόγον Mt 13:20ff; J 5:24. τοὺς λόγους, τὰ ῥήματα Mt 10:14; J 8:47 s. 4 below; Ac 2:22. πολέμους καὶ ἀκοὰς πολέμων Mt 24:6. τὴν βλασφημίαν 26:65. τὸν ἀσπασμόν Lk 1:41. ἄρρητα ῥήματα 2 Cor 12:4. τὸν ἀριθμόν Rv 9:16. τὴν ἀποκάλυψιν Hv 3, 12, 2. Pass. τὰ ἀκουσθέντα what has been heard i.e. the message Hb 2:1. ἠκούσθη ὁ λόγος εἰς τὰ ὦτα τῆς ἐκκλησίας … ἐν Ἰερουσαλήμ the report reached the ears of the church in Jerusalem Ac 11:22. Oft. the obj. is to be supplied fr. context Mt 13:17; Mk 4:15; J 6:60a; Ac 2:37; 8:30; 9:21; Ro 10:14. καθὼς ἀκούω = ἃ ἀ. J 5:30.

β. τί τινος hear someth. fr. someone τὴν ἐπαγγελίαν, ἣν ἠκούσατέ μου the promise which you heard from me Ac 1:4. Still other constrs. occur, which are also poss. when the hearing is not directly fr. the mouth of the informant, but involves a report which one has received fr. the pers. in any way at all (s. below 3d). τὶ ἔκ τινος (Od. 15, 374; Hdt. 3, 62 ἐκ τοῦ κήρυκος) 2 Cor 12:6. τὶ παρά τινος (Soph., Oed. R. 7 παρʼ ἀγγέλων; Pla., Rep. 6, 506d; Demosth. 6, 26; Jer 30:8; Jos., Bell. 1, 529) J 8:26, 40 (τὴν ἀλήθειαν ἀ. as Diod S 16, 50, 2); 15:15; Ac 10:22; 28:22; 2 Ti 2:2; w. attraction of the relative λόγων ὧν παρʼ ἐμοῦ ἤκουσας teachings which you have heard from me 1:13; τὶ ἀπό τινος (Thu. 1, 125, 1) 1J 1:5. Hebraistically ἀπὸ τ. στόματός τινος Lk 22:71 (cp. ἐκ τ. στόμ. τ. Ex 23:13; Ezk 3:17; 33:7).

γ. foll. by a thing as obj. in gen. (Hdt. 8, 135; X., Cyr. 3, 1, 8; Demosth. 18, 3; B-D-F §173, 2; Rob. 507) hear someth. τῆς βλασφημίας (= τὴν βλ. Mt 26:65) Mk 14:64. συμφωνίας καὶ χορῶν Lk 15:25; τῆς φωνῆς (BGU 1007, 11 [III B.C.] ἀκούσαντες φωνῆς) J 5:25, 28; Ac 9:7 (on the experience of Paul and his companions cp. Maximus Tyr. 9, 7d–f: some see a divine figure, others see nothing but hear a voice, still others both see and hear); 11:7; 22:7 (HMoehring, NovT 3, ’59, 80–99; s. Rob. 506). τῶν λόγων Lk 6:47. τῶν ῥημάτων J 12:47.

ⓒ hear, listen to w. gen. of the pers. and a ptc. (Pla., Prot. 320b; X., Symp. 3, 13; Herm. Wr. 12, 8; Jos., Ant. 10, 105 ἤκουσε τοῦ προφήτου ταῦτα λέγοντος): ἠκούσαμεν αὐτοῦ λέγοντος we have heard him say Mk 14:58; ἀκοῦσαι προσευχομένου Παύλου AcPl Ha 2, 12. ἤκουον εἷς ἕκαστος … λαλούντων αὐτῶν each one heard them speaking Ac 2:6, 11; Rv 16:5, 7 (in vs. 7 the altar speaks); Hv 1, 3, 3. W. acc. instead of gen. πᾶν κτίσμα … καὶ τὰ ἐν αὐτοῖς πάντα ἤκουσα λέγοντας (v.l. λέγοντα) Rv 5:13. Used without ptc. w. pronoun only: μου (Dio Chrys. 79 [28], 14) Mk 7:14; Ac 26:3. αὐτῶν Lk 2:46. αὐτοῦ vs. 47; 15:1; 19:48; 21:38; J 3:29 etc. ἡμῶν Ac 24:4.—ἀ. τινὸς περί τινος (since Hdt. 7, 209; IG II, 168 [338 B.C.]) hear someone (speak) about someth. Ac 17:32. ἤκουσεν αὐτοῦ περὶ τῆς … πίστεως he heard him speak about faith Ac 24:24, cp. Hm 11:7.—W. ὅτι foll. (X., Cyr. 3, 3, 18) J 14:28; Ac 22:2.—Abs. οἱ ἀκούοντες the hearers (Diod S 4, 7, 4) Lk 6:27; MPol 7:3. Esp. impv. ἄκουε listen! Mk 12:29 (Dt 6:4); Hs 5, 1, 3; pl. Mk 4:3. ἀκούσατε Ac 7:2; 13:16; AcPl Ha 8, 10. W. συνίετε listen and try to understand Mt 15:10.

② legal t.t. to hear a legal case, grant a hearing to someone (X., Hell. 1, 7, 9 al.; PAmh 135, 14; PIand 9, 10; 15; BGU 511 II, 2; POxy 1032, 59) w. παρά τινος: ἐὰν μὴ ἀκούσῃ πρῶτον παρʼ αὐτοῦ without first giving him a hearing J 7:51 (SPancaro, Biblica 53, ’72, 340–61).—Ac 25:22.

③ to receive news or information about someth., learn about someth.

ⓐ abs. ἀκούσας δὲ ὁ Ἰησοῦς when Jesus learned about it (the death of J. Bapt.) Mt 14:13.—Mk 3:21; 6:14 (s. HLjungvik, ZNW 33, ’34, 90–92); Ro 10:18. W. ἀναγγέλλειν 15:21 (Is 52:15).

ⓑ w. gen. of person οὗ οὐκ ἤκουσαν of whom they have not heard Ro 10:14a.—W. acc. of thing (X., Cyr. 1, 1, 4; Diod S 19, 8, 4; Chion, Ep. 12 ἀκ. τὴν τυραννίδα; Herodian 4, 4, 8) learn of τὴν ἀγάπην Phlm 5. τὴν ἀναστροφήν Gal 1:13. τὰ ἔργα τοῦ Χριστοῦ Mt 11:2. τὴν ἐνέδραν the ambush Ac 23:16: Χριστιανισμὸν ἀ. hear Christianity IPhld 6:1; τὴν οἰκονομίαν Eph 3:2. τὴν πίστιν 1:15; Col 1:4. τὴν ὑπομονήν Js 5:11.—Pass. ἀκούεται ἐν ὑμῖν πορνεία it is reported that there is immorality among you 1 Cor 5:1 (schol. on Nicander, Ther. 139 τοῦτο ἐξακούεται=this report is heard). ἐὰν ἀκουσθῇ τοῦτο ἐπὶ τοῦ ἡγεμόνος if this should come to the prefect’s ears Mt 28:14.

ⓒ ἀ. τι περί τινος (since Hdt. 2, 43) learn someth. about someone Lk 9:9; 16:2.—ἀ. περί τινος (Jos., Vi. 246) Lk 7:3.

ⓓ w. prep., to denote the author or source of the information (s. 1bβ) ἀ. τι παρά τινος: τῶν ἀκουσάντων παρὰ Ἰωάννου who had learned fr. John (who Jesus was) J 1:40, cp. 6:45 (Simplicius in Epict. p. 110, 35 τὸ ἀκοῦσαι παρὰ θεοῦ, ὅτι ἀθάνατός ἐστιν ἡ ψυχή); ἀ. τι ἔκ τινος: ἠκούσαμεν ἐκ τοῦ νόμου we have heard from the law (when it was read in the synagogue) J 12:34, where ἀ. approaches the technical sense learn (a body of authoritative teaching), as 1J 1:5 (s. above); 2:7, 24 et al. (OPiper, JBL 66, ’47, 437 n. 1). ἀ. ἀπό τινος περί τινος Ac 9:13.

ⓔ w. ὅτι foll. (SIG 370, 21; PTebt 416, 8; BGU 246, 19; Josh l0:1; Da 5:14 Theod.; 1 Macc 6:55; 4 Macc 4:22; cp. the constr. ἀ. τινὰ ὅτι Od. 3, 193; X., Mem. 4, 2, 33) Mt 2:22; 4:12 al.—Pass. ἠκούσθη ὅτι ἐν οἴκῳ ἐστίν it became known that he was in the house Mk 2:1 (s. B-D-F §405, 2). οὐκ ἠκούσθη ὅτι it is unheard of that J 9:32.

ⓕ w. acc. and inf. foll. (Hom. et al.; Jos., Ant. 11, 165; 13, 292) J 12:18; 1 Cor 11:18. W. acc. and ptc. (X., Cyr. 2, 4, 12; Herodian 2, 12, 4) Ac 7:12; 3J 4.

④ to give careful attention to, listen to, heed ἀ. τινός someone (Hom. et al.) ἀκούετε αὐτοῦ Mt 17:5; Lk 9:35; Ac 3:22 (all three Dt 18:15); cp. Mt 18:15; Lk 16:29, 31; J 10:8; Ac 4:19. W. acc. of thing J 8:47 (s. 1bα); PEg² 53f (restored).—Abs. (PsSol 2:8) obey, listen αὐτοὶ καὶ ἀκούσονται Ac 28:28; cp. Mt 18:16; J 5:25b; agree 9:27a.

⑤ to pay attention to by listening, listen to ἀ. τινός someone/someth. (Mitt-Wilck. I/2, 14 I, 18; 461, 6) Mk 6:11; J 6:60b. Of God (Hom.+) Ac 7:34 (Ex 3:7); J 9:31; 11:41f; 1J 5:14f; AcPt Ox 849, 27.—Abs. καθὼς ἠδύναντο ἀ. as they were able to listen Mk 4:33 (EMolland, SymbOsl 8, 1929, 83–91; s. also 7 below).

⑥ to be given a nickname or other identifying label, be called (Demosth. 18, 46 κόλακες ἀκούουσι; Diog. L. 2, 111 a derisive nickname; 2, 140) ἤκουσαν προδόται γονέων they were called betrayers of their parents Hv 2, 2, 2.

⑦ to hear and understand a message, understand (Teles p. 47, 12; Galen: CMG Suppl. I p. 12, 29; Aelian, VH 13, 46; Apollon. Dysc., Syntax p. 295, 25 [Gramm. Gr. II/2 p. 424, 5 U.] ἀκούειν= συνιέναι τῶν ἠκουσμένων; Sext. Emp., Math. 1, 37 τὸ μὴ πάντας πάντων ἀκούειν; Julian, Orat. 4 p. 147a; PGM 3, 453 ἀκούσεις τὰ ὄρνεα λαλοῦντα; Philo, Leg. All. 2, 35) abs. (Is 36:11) 1 Cor 14:2. Perh. also Mk 4:33 (s. 5 above, and cp. Epict. 1, 29, 66 τ. δυναμένοις αὐτὰ ἀκοῦσαι). On the form of Lk 6:27a cp. Cleopatra 16, 57 ὑμῖν δὲ λέγω τοῖς εὖ φρονοῦσιν. W. acc. τὸν νόμον understand the law Gal 4:21; perh. Ac 22:9; 26:14 (s. 1bα above) belong here. Cp. also the play on words (1a above) ἀκούοντες οὐκ ἀκούουσιν Mt 13:13; cp. Mk 8:18. Here belong also the imperatives in Mt 11:15; 13:9, 43; Mk 4:9, 23; 7:15 [16] v.l.; Lk 8:8; 14:35; Rv 2:7, 11, 17, 29; 3:6, 13, 22; 13:9; also ὁ ἔχων ὦ[τ]α τ[ῶν ἀ]|περάντων [ἀ]κο[ύει?]ν ἀ|κουέτω one who has ears to hear the things that are without limits let him hear Ox 1081, 6–8, rev. on the basis of the Coptic, s. SJCh 89, 5f; cp. Borger, GGA 122.—ἀκούω is occasionally used as a perfective present: I hear= I have heard (so as early as Il. 24, 543; Aristoph., Frogs 426; X., An. 2, 5, 13, Mem. 2, 4, 1; 3, 5, 26; Pla., Rep. 583d; Theocr. 15, 23) Lk 9:9; 1 Cor 11:18; 2 Th 3:11. B-D-F §322.—B. 1037; 1339. DELG. M-M. TW. Sv.

группы участников

1. constituent groups

 

группы участников
В Олимпийских и Паралимпийских играх задействовано множество различных групп участников, каждая из которых имеет различные функции, задачи, ожидания и вовлечена в разные виды деятельности. Для того чтобы обеспечить представительные Игры, ОКОИ должен предоставить всем группам участников доступ к полному набору услуг и возможность получения высококачественного опыта. К участникам Игр относятся:
• жители города-организатора;
• зрители на Играх;
• туристы, посещающие город до, во время и после Игр;
• спортсмены и официальные лица команд;
• технические официальные лица;
• представители СМИ;
• члены Олимпийской и Паралимпийской Семьи и высокопоставленные лица;
• спонсоры и корпоративные партнеры;
• персонал ОКОИ и муниципальных, региональных и государственных учреждений;
• волонтеры.
[Департамент лингвистических услуг Оргкомитета «Сочи 2014». Глоссарий терминов]

EN

constituent groups
Olympic and Paralympic Games involve many different constituent groups, each one with different function, roles, set of activities and expectations. In order to ensure accessible Games, the OCOG needs to ensure that every constituent has access to a full range of services and a high quality experience. Games' constituents include:
• Host City's residents
• Games spectators
• tourists, prior, during and after the Games
• athletes and team officials
• technical officials
• media representatives
• Olympic and Paralympic Families and VIPs
• sponsors and corporate partners
• staff of the OCOG and of municipal/regional/state agencies
• volunteers.
[Департамент лингвистических услуг Оргкомитета «Сочи 2014». Глоссарий терминов]

Тематики

• спорт (управление Играми)

EN

• constituent groups

официальные документы МОК

1. IOC official guidelines

 

официальные документы МОК
Документы, в которых приводятся указания по проведению Игр, в том числе Олимпийская хартия,Контракт о городе-организаторе, Технические руководства и мастер-план. В вышеперечисленные документы включены политика МОК, главные основополагающие принципы, точные указания, ожидаемая роль ОКОИ, контрактные требования ОКОИ и рекомендации МОК, основанные на опыте проведения прошлых Олимпийских игр.
[Департамент лингвистических услуг Оргкомитета «Сочи 2014». Глоссарий терминов]

EN

IOC official guidelines
Documents which set the Games delivery guidelines including the Olympic Charter, Host City Contract, Technical Manuals and master schedule. The IOC's policies, the main guiding principles, the precise guidelines, the expected OCOG role, contractual requirements of the OCOG and IOC recommendations based on experience gained from the past Olympic Games, are included in the above documents.
[Департамент лингвистических услуг Оргкомитета «Сочи 2014». Глоссарий терминов]

Тематики

• спорт (управление Играми)

EN

• IOC official guidelines