m(f) (cf member of building society BE)

member of building society

member of building society (BE) FIN Bausparer(in) m(f) (cf member of savings and loan association AE)

member of savings and loan association

member of savings and loan association (AE) FIN Bausparer(in) m(f) (cf member of building society BE)

share account

Fin [m1]1. in the United States, an account with a credit union that pays dividends rather than interest

2. in the United Kingdom, an account at a building society where the account holder is a member of the society. Building societies usually offer another type of account, a deposit account, where the account holder is not a member. A share account is generally paid a better rate of interest but in the event of the society going into liquidation, deposit account holders are given preference.

cooperative

1. adjective

kooperativ; (helpful) hilfsbereit

2. noun

Genossenschaft, die; Kooperative, die (bes. in der ehemaligen DDR); (shop) Genossenschaftsladen, der

workers' cooperative — Produktivgenossenschaft, die

* * *

co·opera·tive

[kəʊˈɒp^ərətɪv, AM koʊˈɑ:pɚət̬ɪv]

I. n Genossenschaft f, Kooperative f

farming \cooperative landwirtschaftliche Genossenschaft

member of a \cooperative Genosse, Genossin m, f

II. adj

1. attr, inv ECON genossenschaftlich, kooperativ

\cooperative business Unternehmen nt auf genossenschaftlicher Basis

\cooperative farm landwirtschaftliche Genossenschaft

\cooperative society Konsumgenossenschaft f

\cooperative store Konsum[laden] m

2. (willing) kooperativ

to be very \cooperative sehr kooperativ [o entgegenkommend] sein

* * *

[k\@U'ɒpərətIv]

1. adj

1) (= prepared to comply) kooperativ; (= prepared to help) hilfsbereit

if any member does not have a cooperative attitude — wenn ein Mitglied nicht bereit ist mitzumachen

2) firm auf Genossenschaftsbasis

cooperative farm — Bauernhof m auf Genossenschaftsbasis

2. n

Genossenschaft f, Kooperative f; (also cooperative farm) Bauernhof m auf Genossenschaftsbasis

* * *

cooperative [-rətıv; US -ˌreıtıv]

A adj (adv cooperatively)

1. kooperierend, zusammenarbeitend

2. mitarbeitend, -wirkend

3. kooperativ, zur Mitarbeit bereit, hilfsbereit

4. WIRTSCH

a) Gemeinschafts…

b) genossenschaftlich, Genossenschafts…:

cooperative advertising Gemeinschaftswerbung f;

cooperative bank Genossenschaftsbank f;

cooperative building society Br Bau(spar)genossenschaft f;

cooperative buying (marketing, selling) association Einkaufs-(Absatz-, Verkaufs)genossenschaft f;

cooperative society → B 1;

cooperative store → B 2

B s

1. Co-op m:

a) Genossenschaft f

b) Konsumverein m

2. Co-op m, Konsumladen m

co-op, coop [ˈkəʊɒp; US ˈkəʊˌɑp; kəʊˈɑp] s abk cooperative (cooperative society) umg Co-op m (Genossenschaft und Laden)

* * *

1. adjective

kooperativ; (helpful) hilfsbereit

2. noun

Genossenschaft, die; Kooperative, die (bes. in der ehemaligen DDR); (shop) Genossenschaftsladen, der

workers' cooperative — Produktivgenossenschaft, die

* * *

adj.

entgegenkommend adj.

kooperativ adj.

zusammen arbeitend adj.

zusammen wirkend adj.

zusammenarbeitend (alt.Rechtschreibung) adj.

zusammenwirkend (alt.Rechtschreibung) adj.

Yeoman, Thomas

SUBJECT AREA: Civil engineering

[br]

b. c. 1700 probably near Northampton, England

d. 24 January 1781 London, England

[br]

English surveyor and civil engineer.

[br]

Very little is known of his early life, but he was clearly a skilful and gifted engineer who had received comprehensive practical training, for in 1743 he erected the machinery in the world's first water-powered cotton mill at Northampton on the river Nene. In 1748 he invented a weighing machine for use by turnpike trusts for weighing wagons. Until 1757 he remained in Northampton, mainly surveying enclosures and turnpike roads and making agricultural machinery. He also gained a national reputation for building and installing very successful ventilating equipment (invented by Dr Stephen Hales) in hospitals, prisons and ships, including some ventilators of Yeoman's own design in the Houses of Parliament.

Meanwhile he developed an interest in river improvements, and in 1744 he made his first survey of the River Nene between Thrapston and Northampton; he repeated the survey in 1753 and subsequently gave evidence in parliamentary proceedings in 1756. The following year he was in Gloucestershire surveying the line of the Stroudwater Canal, an operation that he repeated in 1776. Also in 1757, he was appointed Surveyor to the River Ivel Navigation in Bedfordshire. In 1761 he was back on the Nene. During 1762–5 he carried out surveys for the Chelmer \& Blackwater Navigation, although the work was not undertaken for another thirty years. In 1765 he reported on land-drainage improvements for the Kentish Sour. It was at this time that he became associated with John Smeaton in a major survey in 1766 of the river Lea for the Lee Navigation Trustees, having already made some surveys with Joseph Nickalls near Waltham Abbey in 1762. Yeoman modified some of Smeaton's proposals and on 1 July 1767 was officially appointed Surveyor to the Lee Navigation Trustees, a post he retained until 1771. He also advised on the work to create the Stort Navigation, and at the official opening on 24 October 1769 he made a formal speech announcing: "Now is Bishops Stortford open to all the ports of the world." Among his other works were: advice on Ferriby Sluice on the River Ancholme (1766); reports on the Forth \& Clyde Canal, the North Level and Wisbech outfall on the Nene, the Coventry Canal, and estimates for the Leeds and Selby Canal (1768–71); estimates for the extension of the Medway Navigation from Tonbridge to Edenbridge (1771); and between 1767 and 1777 he was consulted, with other engineers, by the City of London on problems regarding the Thames.

He joined the Northampton Philosophical Society shortly after its formation in 1743 and was President several times before he moved to London. In 1760 he became a member of the Society for the Encouragement of Arts, Manufactures and Commerce, and in 1763 he was chosen as joint Chairman of the Committee on Mechanics—a position he held until 1778. He was elected a Fellow of the Royal Society on 12 January 1764. On the formation of the Smeatonian Society of Civil Engineers, the forerunner of the present Institution of Civil Engineers, he was elected first President in 1771, remaining as such until his illness in 1780.

[br]

Principal Honours and Distinctions

FRS 1764. President, Smeatonian Society of Civil Engineers 1771–80; Treasurer 1771–7.

JHB

Lodge, Sir Oliver Joseph

SUBJECT AREA: Electronics and information technology, Telecommunications

[br]

b. 12 June 1851 Penkhull, Staffordshire, England

d. 22 August 1940 Lake, near Salisbury, Wiltshire, England

[br]

English physicist who perfected Branly's coherer; said to have given the first public demonstration of wireless telegraphy.

[br]

At the age of 8 Lodge entered Newport Grammar School, and in 1863–5 received private education at Coombs in Suffolk. He then returned to Staffordshire, where he assisted his father in the potteries by working as a book-keeper. Whilst staying with an aunt in London in 1866–7, he attended scientific lectures and became interested in physics. As a result of this and of reading copies of English Mechanic magazine, when he was back home in Hanley he began to do experiments and attended the Wedgewood Institute. Returning to London c. 1870, he studied initially at the Royal College of Science and then, from 1874, at University College, London (UCL), at the same time attending lectures at the Royal Institution.

In 1875 he obtained his BSc, read a paper to the British Association on "Nodes and loops in chemical formulae" and became a physics demonstrator at UCL. The following year he was appointed a physics lecturer at Bedford College, completing his DSc in 1877. Three years later he became Assistant Professor of Mathematics at UCL, but in 1881, after only two years, he accepted the Chair of Experimental Physics at the new University College of Liverpool. There began a period of fruitful studies of electricity and radio transmission and reception, including development of the lightning conductor, discovery of the "coherent" effect of sparks and improvement of Branly's coherer, and, in 1894, what is said to be the first public demonstration of the transmission and reception (using a coherer) of wireless telegraphy, from Lewis's department store to the clock tower of Liverpool University's Victoria Building. On 10 May 1897 he filed a patent for selective tuning by self-in-ductance; this was before Marconi's first patent was actually published and its priority was subsequently upheld.

In 1900 he became the first Principal of the new University of Birmingham, where he remained until his retirement in 1919. In his later years he was increasingly interested in psychical research.

[br]

Principal Honours and Distinctions

Knighted 1902. FRS 1887. Royal Society Council Member 1893. President, Society for Psychical Research 1901–4, 1932. President, British Association 1913. Royal Society Rumford Medal 1898. Royal Society of Arts Albert Medal 1919. Institution of Electrical Engineers Faraday Medal 1932. Fourteen honorary degrees from British and other universities.

Bibliography

1875, "The flow of electricity in a plane", Philosophical Magazine (May, June and December).

1876, "Thermo-electric phenomena", Philosophical Magazine (December). 1888, "Lightning conductors", Philosophical Magazine (August).

1889, Modern Views of Electricity (lectures at the Royal Institution).

10 May 1897, "Improvements in syntonized telegraphy without line wires", British patent no. 11,575, US patent no. 609,154.

1898, "Radio waves", Philosophical Magazine (August): 227.

1931, Past Years, An Autobiography, London: Hodder \& Stoughton.

Further Reading

W.P.Jolly, 1974, Sir Oliver Lodge, Psychical Resear cher and Scientist, London: Constable.

E.Hawks, 1927, Pioneers of Wireless, London: Methuen.

See also: Hertz, Heinrich Rudolph

KF

Adam, Robert

SUBJECT AREA: Architecture and building

[br]

b. 3 July 1728 Kirkcaldy, Scotland

d. 3 March 1792 London, England

[br]

Scottish architect, active mostly in England, who led the neo-classical movement between 1760 and 1790.

[br]

Robert Adam was a man of outstanding talent, immense energy dedicated to his profession, and of great originality, who utilized all sources of classical art from ancient Greece and Rome as well as from the Renaissance and Baroque eras in Italy. He was also a very practical exponent of neo-classicism and believed in using the latest techniques to produce fine craftsmanship.

Of particular interest to him was stucco, the material needed for elegant, finely crafted ceiling and wall designs. Stucco, though the Italian word for plaster, refers architecturally to a specific form of the material. Known as Stucco duro (hard plaster), its use and composition dates from the days of ancient Rome. Giovanni da Udine, a pupil of Raphael, having discovered some fine stucco antico in the ruins of the Palace of Titus in Rome, carried out extensive research during the Italian Renaissance in order to discover its precise composition; it was a mixture of powdered crystalline limestone (travertine), river sand, water and powdered white marble. The marble produced an exceptionally hard stucco when set, thereby differentiating it from plaster-work, and was a material fine enough to make delicate relief and statuary work possible.

In the 1770s Robert Adam's ceiling and wall designs were characterized by low-relief, delicate, classical forms. He and his brothers, who formed the firm of Adam Brothers, were interested in a stucco which would be especially fine grained and hard setting. A number of new products then appearing on the market were easier to handle than earlier ones. These included a stucco by Mr David Wark, patented in 1765, and another by a Swiss clergyman called Liardet in 1773; the Adam firm purchased both patents and obtained an Act of Parliament authorizing them to be the sole vendors and makers of this stucco, which they called "Adam's new invented patent stucco". More new versions appeared, among which was one by a Mr Johnson, who claimed it to be an improvement. The Adam Brothers, having paid a high price for their rights, took him to court. The case was decided in 1778 by Lord Mansfield, a fellow Scot and a patron (at Kenwood), who,

[br]

Principal Honours and Distinctions

Member of the Society of Arts 1758. FRS 1761. Architect to the King's Works 1761.

Bibliography

1764, Ruins of the Palace of the Emperor Diocletian at Spalatro.

1773, Works in Architecture of Robert and James Adam.

Further Reading

A.T.Bolton, 1922, The Architecture of Robert and James Adam, 1758–1794, 2 vols, Country Life.

J.Fleming, 1962, Robert Adam and his Circle, Murray. J.Lees-Milne, 1947, The Age of Adam, Batsford.

J.Rykwert and A.Rykwert, 1985, The Brothers Adam, Collins. D.Yarwood, 1970, Robert Adam, Dent.

DY

Wren, Sir Christopher

SUBJECT AREA: Architecture and building

[br]

b. 20 October 1632 East Knoyle, Wiltshire, England

d. 25 February 1723 London, England

[br]

English architect whose background in scientific research and achievement enhanced his handling of many near-intractable architectural problems.

[br]

Born into a High Church and Royalist family, the young Wren early showed outstanding intellectual ability and at Oxford in 1654 was described as "that miracle of a youth". Educated at Westminster School, he went up to Oxford, where he graduated at the age of 19 and obtained his master's degree two years later. From this time onwards his interests were in science, primarily astronomy but also physics, engineering and meteorology. While still at college he developed theories about and experimentally solved some fifty varied problems. At the age of 25 Wren was appointed to the Chair of Astronomy at Gresham College in London, but he soon returned to Oxford as Savilian Professor of Astronomy there. At the same time he became one of the founder members of the Society of Experimental Philosophy at Oxford, which was awarded its Royal Charter soon after the Restoration of 1660; Wren, together with such men as Isaac Newton, Robert Hooke, John Evelyn and Robert Boyle, then found himself a member of the Royal Society.

Wren's architectural career began with the classical chapel that he built, at the request of his uncle, the Bishop of Ely, for Pembroke College, Cambridge (1663). From this time onwards, until he died at the age of 91, he was fully occupied with a wide and taxing variety of architectural problems which he faced in the execution of all the great building schemes of the day. His scientific background and inventive mind stood him in good stead in solving such difficulties with an often unusual approach and concept. Nowhere was this more apparent than in his rebuilding of fifty-one churches in the City of London after the Great Fire, in the construction of the new St Paul's Cathedral and in the grand layout of the Royal Hospital at Greenwich.

The first instance of Wren's approach to constructional problems was in his building of the Sheldonian Theatre in Oxford (1664–9). He based his design upon that of the Roman Theatre of Marcellus (13–11 BC), which he had studied from drawings in Serlio's book of architecture. Wren's reputation as an architect was greatly enhanced by his solution to the roofing problem here. The original theatre in Rome, like all Roman-theatres, was a circular building open to the sky; this would be unsuitable in the climate of Oxford and Wren wished to cover the English counterpart without using supporting columns, which would have obscured the view of the stage. He solved this difficulty mathematically, with the aid of his colleague Dr Wallis, the Professor of Geometry, by means of a timber-trussed roof supporting a painted ceiling which represented the open sky.

The City of London's churches were rebuilt over a period of nearly fifty years; the first to be completed and reopened was St Mary-at-Hill in 1676, and the last St Michael Cornhill in 1722, when Wren was 89. They had to be rebuilt upon the original medieval sites and they illustrate, perhaps more clearly than any other examples of Wren's work, the fertility of his imagination and his ability to solve the most intractable problems of site, limitation of space and variation in style and material. None of the churches is like any other. Of the varied sites, few are level or possess right-angled corners or parallel sides of equal length, and nearly all were hedged in by other, often larger, buildings. Nowhere is his versatility and inventiveness shown more clearly than in his designs for the steeples. There was no English precedent for a classical steeple, though he did draw upon the Dutch examples of the 1630s, because the London examples had been medieval, therefore Roman Catholic and Gothic, churches. Many of Wren's steeples are, therefore, Gothic steeples in classical dress, but many were of the greatest originality and delicate beauty: for example, St Mary-le-Bow in Cheapside; the "wedding cake" St Bride in Fleet Street; and the temple diminuendo concept of Christ Church in Newgate Street.

In St Paul's Cathedral Wren showed his ingenuity in adapting the incongruous Royal Warrant Design of 1675. Among his gradual and successful amendments were the intriguing upper lighting of his two-storey choir and the supporting of the lantern by a brick cone inserted between the inner and outer dome shells. The layout of the Royal Hospital at Greenwich illustrates Wren's qualities as an overall large-scale planner and designer. His terms of reference insisted upon the incorporation of the earlier existing Queen's House, erected by Inigo Jones, and of John Webb's King Charles II block. The Queen's House, in particular, created a difficult problem as its smaller size rendered it out of scale with the newer structures. Wren's solution was to make it the focal centre of a great vista between the main flanking larger buildings; this was a masterstroke.

[br]

Principal Honours and Distinctions

Knighted 1673. President, Royal Society 1681–3. Member of Parliament 1685–7 and 1701–2. Surveyor, Greenwich Hospital 1696. Surveyor, Westminster Abbey 1699.

Surveyor-General 1669–1712.

Further Reading

R.Dutton, 1951, The Age of Wren, Batsford.

M.Briggs, 1953, Wren the Incomparable, Allen \& Unwin. M.Whinney, 1971, Wren, Thames \& Hudson.

K.Downes, 1971, Christopher Wren, Allen Lane.

G.Beard, 1982, The Work of Sir Christopher Wren, Bartholomew.

DY

Hodgkinson, Eaton

SUBJECT AREA: Architecture and building, Civil engineering

[br]

b. 26 February 1789 Anderton, Cheshire, England

d. 18 June 1861 near Manchester, England

[br]

English engineer who devised d new form of cast-iron girder.

[br]

Eaton Hodgkinson's father, a farmer, died when he was 6 years old, but his mother was a resourceful woman who set up a business in Salford and ensured that her son received a sound schooling. Most important for his education, however, was his friendship with the Manchester scientific luminary Dr. Dalton, who instructed him in practical mathematics. These studies led Hodgkinson to devise a new form of cast-iron girder, carefully tested by experiments and which was widely adopted for fire-proof structures in the nineteenth century. Following Dalton, Hodgkinson became an active member of the Manchester Philosophical Society, of which he was elected President in 1848. He also became an active member of the British Association for the Advancement of Science. Hodgkinson's work on cast-iron girders secured him a Fellowship of the Royal Society, and the Royal Medal of the Society, in 1841. It was Hodgkinson also who verified the mathematical value of the pioneering experiments carried out by William Fairbairn for Robert Stephenson's proposed wrought-iron tube structure which, in 1849, became the Britannia Bridge over the Menai Straits. He received a Silver Medal for this work at the Paris Exhibition of 1858. Hodgkinson served as a member of the Royal Commission appointed to enquire into the application of iron to railway structures. In 1847 he was appointed Professor of the Mechanical Principles of Engineering at University College, London, but his health began to fail shortly after. He was elected an Honorary Member of the Institution of Civil Engineers in 1851. Described as "singularly simple and guileless", he was widely admired and respected.

[br]

Principal Honours and Distinctions

President, Manchester Philosophical Society 1848. FRS 1841. Royal Society Medal 1841.

Further Reading

Dictionary of National Biography, London.

Proceedings of the Institution of Civil Engineers 21:542–5.

AB

Roberts, Richard

SUBJECT AREA: Mechanical, pneumatic and hydraulic engineering, Textiles

[br]

b. 22 April 1789 Carreghova, Llanymynech, Montgomeryshire, Wales

d. 11 March 1864 London, England

[br]

Welsh mechanical engineer and inventor.

[br]

Richard Roberts was the son of a shoemaker and tollkeeper and received only an elementary education at the village school. At the age of 10 his interest in mechanics was stimulated when he was allowed by the Curate, the Revd Griffith Howell, to use his lathe and other tools. As a young man Roberts acquired a considerable local reputation for his mechanical skills, but these were exercised only in his spare time. For many years he worked in the local limestone quarries, until at the age of 20 he obtained employment as a pattern-maker in Staffordshire. In the next few years he worked as a mechanic in Liverpool, Manchester and Salford before moving in 1814 to London, where he obtained employment with Henry Maudslay. In 1816 he set up on his own account in Manchester. He soon established a reputation there for gear-cutting and other general engineering work, especially for the textile industry, and by 1821 he was employing about twelve men. He built machine tools mainly for his own use, including, in 1817, one of the first planing machines.

One of his first inventions was a gas meter, but his first patent was obtained in 1822 for improvements in looms. His most important contribution to textile technology was his invention of the self-acting spinning mule, patented in 1825. The normal fourteen-year term of this patent was extended in 1839 by a further seven years. Between 1826 and 1828 Roberts paid several visits to Alsace, France, arranging cottonspinning machinery for a new factory at Mulhouse. By 1826 he had become a partner in the firm of Sharp Brothers, the company then becoming Sharp, Roberts \& Co. The firm continued to build textile machinery, and in the 1830s it built locomotive engines for the newly created railways and made one experimental steam-carriage for use on roads. The partnership was dissolved in 1843, the Sharps establishing a new works to continue locomotive building while Roberts retained the existing factory, known as the Globe Works, where he soon after took as partners R.G.Dobinson and Benjamin Fothergill (1802–79). This partnership was dissolved c. 1851, and Roberts continued in business on his own for a few years before moving to London as a consulting engineer.

During the 1840s and 1850s Roberts produced many new inventions in a variety of fields, including machine tools, clocks and watches, textile machinery, pumps and ships. One of these was a machine controlled by a punched-card system similar to the Jacquard loom for punching rivet holes in plates. This was used in the construction of the Conway and Menai Straits tubular bridges. Roberts was granted twenty-six patents, many of which, before the Patent Law Amendment Act of 1852, covered more than one invention; there were still other inventions he did not patent. He made his contribution to the discussion which led up to the 1852 Act by publishing, in 1830 and 1833, pamphlets suggesting reform of the Patent Law.

In the early 1820s Roberts helped to establish the Manchester Mechanics' Institute, and in 1823 he was elected a member of the Literary and Philosophical Society of Manchester. He frequently contributed to their proceedings and in 1861 he was made an Honorary Member. He was elected a Member of the Institution of Civil Engineers in 1838. From 1838 to 1843 he served as a councillor of the then-new Municipal Borough of Manchester. In his final years, without the assistance of business partners, Roberts suffered financial difficulties, and at the time of his death a fund for his aid was being raised.

[br]

Principal Honours and Distinctions

Member, Institution of Civil Engineers 1838.

Further Reading

There is no full-length biography of Richard Roberts but the best account is H.W.Dickinson, 1945–7, "Richard Roberts, his life and inventions", Transactions of the Newcomen Society 25:123–37.

W.H.Chaloner, 1968–9, "New light on Richard Roberts, textile engineer (1789–1864)", Transactions of the Newcomen Society 41:27–44.

RTS

club

1. noun

1) (a heavy stick etc used as a weapon.) porra

2) (a bat or stick used in certain games (especially golf): Which club will you use?) palo

3) (a number of people meeting for study, pleasure, games etc: the local tennis club.) club

4) (the place where these people meet: He goes to the club every Friday.) club

5) (one of the playing-cards of the suit clubs.) trébol

2. verb

(to beat or strike with a club: They clubbed him to death.) aporrear

- clubs

club n

1. club

a football club un club de fútbol

2. porra

he hit the snake with a club golpeó la serpiente con una porra

club sustantivo masculino (pl

◊ clubs or -es) club;

club juvenil youth club; club nocturno nightclub
club sustantivo masculino club ' club' also found in these entries: Spanish: asociada - asociado - cuota - entrar - escalabrar - estaca - estatuto - garrote - gorila - haber - hípica - hípico - ingresar - inobservancia - inscribirse - invicta - invicto - palo - peña - sala - socia - socio - tablao - teleclub - trébol - videoclub - asociar - atlético - baja - bandera - boite - cachiporra - campestre - carné - casino - cineclub - deportivo - elitista - exclusividad - exclusivo - fichar - garrotazo - macana - mazo - selecto - sociedad - tranca - vestidor - vestier - vestuario English: AA - belong - bouncer - by-law - clientele - club - club sandwich - clubhouse - country club - due - exclude - fan club - fraternity - golf club - hostess - initiation - join - nightclub - nightly - Rotary Club - yacht club - ban - committee - dive - entrance - establishment - exclusive - fan - get - go - golf - guild - hot - iron - keen - meet - member - membership - night - putter - RAC - senior - society - spa - swing - yacht - youth

club

tr[klʌb]

noun

1 (group, society) club nombre masculino

■ sports club club deportivo

■ youth club club juvenil

2 (nightclub) club nombre masculino nocturno

3 (stick) porra, garrote nombre masculino

4 SMALLSPORT/SMALL (in golf) palo

5 (in cards - English pack) trébol nombre masculino; (- Spanish pack) basto

transitive verb (pt & pp clubbed, ger clubbing)

1 aporrear, dar garrotazos a, pegar garrotazos a

\

SMALLIDIOMATIC EXPRESSION/SMALL

to be in the club estar en estado, estar embarazada

to club somebody to death aporrear a alguien hasta matarlo

club car SMALLAMERICAN ENGLISH/SMALL vagón nombre masculino de primera

club foot SMALLMEDICINE/SMALL pie nombre masculino zopo, pie nombre masculino deforme

club sandwich SMALLAMERICAN ENGLISH/SMALL sándwich nombre masculino de dos pisos

club soda SMALLAMERICAN ENGLISH/SMALL soda

club ['klʌb] vt, clubbed ; clubbing : aporrear, dar garrotazos a

club n

1) cudgel: garrote m, porra f

2) : palo m

golf club: palo de golf

3) : trébol m (naipe)

4) association: club m

club (Golf)

n.

• palo (Golf) (•Deporte•) s.m.

adj.

• garrote adj.

n.

• agrupación s.f.

• ateneo s.m.

• cachiporra s.f.

• casino s.m.

• clava s.f.

• club s.m.

• círculo s.m.

• estaca s.f.

• garrote s.m.

• peña s.f.

• porra s.f.

v.

• achocar v.

• aporrear v.

• unirse para el mismo fin v.

klʌb
I

noun

1)

a) ( cudgel) garrote m, cachiporra f

b) ( golf club) palo m de golf

2) (society, association) club m

sports club — club deportivo

to join a club — hacerse* socio de un club

I'm fed up - join the club! — estoy harto - no eres el único! or ya somos dos!

3)

a) ( Games) clubs pl ( suit) (+ sing or pl vb) tréboles mpl; ( in Spanish pack) bastos mpl

b) ( for dancing) discoteca f

II
1.

- bb- transitive verb aporrear, darle* garrotazos a

2.

club vi ( visit dancing venues)

to go clubbing — ir* de discoteca, ir* de marcha (Esp fam), carretear (Chi fam)

Phrasal Verbs:

- club together

[klʌb]

1. N

1) (=stick) porra f, cachiporra f

2) (=golf club) palo m

3) clubs (Cards) (in Spanish pack) bastos mpl ; (in conventional pack) tréboles mpl

4) (=association) club m ; (=gaming club) casino m ; (=building) centro m, club m

a golf club — un club de golf

the youth club — el club juvenil

join the club! — (fig) ¡ya somos dos!

to be in the club — hum estar en estado

he put her in the club — él la dejó en estado

5) (=disco) discoteca f

2.

VT [+ person] aporrear, dar porrazos a

to club sb to death — matar a algn a porrazos

3.

VI

to club together — (esp Brit) (=join forces) unir fuerzas

we all clubbed together to buy him a present — le compramos un regalo entre todos

4.

CPD

club car N — (US) (Rail) coche m club

club class N — clase f club

club foot N — pie m zopo

club member N — socio(-a) m / f del club

club sandwich N — bocadillo vegetal con pollo y beicon

club soda N — (US) agua f de soda

club steak N — (US) bistec m culer

* * *

[klʌb]
I

noun

1)

a) ( cudgel) garrote m, cachiporra f

b) ( golf club) palo m de golf

2) (society, association) club m

sports club — club deportivo

to join a club — hacerse* socio de un club

I'm fed up - join the club! — estoy harto - no eres el único! or ya somos dos!

3)

a) ( Games) clubs pl ( suit) (+ sing or pl vb) tréboles mpl; ( in Spanish pack) bastos mpl

b) ( for dancing) discoteca f

II
1.

- bb- transitive verb aporrear, darle* garrotazos a

2.

club vi ( visit dancing venues)

to go clubbing — ir* de discoteca, ir* de marcha (Esp fam), carretear (Chi fam)

Phrasal Verbs:

- club together

admission

see admit

admission n

1. reconocimiento / confesión

an admission of guilt un reconocimiento de cupabilidad

2. entrada / admisión

"admission free" "entrada libre"

3. ingreso

she's ready for admission to hospital está lista para ingresar en el hospital

admission

tr[əd'mɪʃən]

noun

1 (gen) admisión nombre femenino; (to hospital) ingreso

2 (price) entrada

3 (acknowledgement) reconocimiento; (confession) confesión nombre femenino

\

SMALLIDIOMATIC EXPRESSION/SMALL

by one's own admission por confesión propia

admission [æd'mɪʃən] n

1) admittance: entrada f, admisión f

2) acknowledgment: reconocimiento m, admisión f

admission

n.

• admisión s.f.

• entrada s.f.

• ingreso s.m.

• precio de entrada s.m.

• recepción s.f.

əd'mɪʃən

noun

1)

a) u (to building, exhibition) entrada f, admisión f; ( price) (precio m de) entrada f

b) u (into college, society) ingreso m, admisión f

c) c ( into hospital) ingreso m

2) c u ( confession) admisión f, reconocimiento m

he was, on o by his own admission, a poor father — él mismo admitía or reconocía que no era un buen padre

[ǝd'mɪʃǝn]

1. N

1) (to building) entrada f

admission is free on Sundays — la entrada es gratuita los domingos

admission free — entrada gratis

no admission — prohibida la entrada, se prohíbe la entrada

we gained admission by a window — logramos entrar por una ventana

2) (to institution as member) ingreso m (to en)

3) (=acknowledgement) confesión f, reconocimiento m

it would be an admission of defeat — sería un reconocimiento de la derrota, sería reconocer la derrota

by or on his own admission — él mismo lo reconoce

he made an admission of guilt — hizo una confesión de culpabilidad, se confesó culpable

2.

CPD

admission charge N — (to club) cuota f de admisión; (to museum, concert) precio m de entrada

admission fee N — cuota f de entrada

admission price N — (to club, organization) cuota f de admisión; (to museum, concert) precio m de entrada

admissions form N — (US) (Univ) impreso m de matrícula

admissions office N — (US) (Univ) secretaría f

admissions tutor N — [of university] ≈ persona responsable de las admisiones a una facultad o universidad

* * *

[əd'mɪʃən]

noun

1)

a) u (to building, exhibition) entrada f, admisión f; ( price) (precio m de) entrada f

b) u (into college, society) ingreso m, admisión f

c) c ( into hospital) ingreso m

2) c u ( confession) admisión f, reconocimiento m

he was, on o by his own admission, a poor father — él mismo admitía or reconocía que no era un buen padre

sociedad

sociedad sustantivo femenino 1 (Sociol) society;

◊ sociedad de consumo consumer society

2 (asociación, club) society 3 (Der, Fin) company;

◊ sociedad anónima ≈ public corporation ( in US), ≈ public limited company ( in UK);

sociedad de responsabilidad limitada limited corporation ( in US), (private) limited company ( in UK); sociedad inmobiliaria (Esp) ( que construye) construction company; ( que administra) real estate (AmE) o (BrE) property management company;

◊ sociedad mercantil trading company

4 ( clase alta) (high) society
sociedad sustantivo femenino
1 society
sociedad industrial/medieval, industrial/medieval society
2 Fin company
sociedad anónima, public limited company
sociedad cooperativa, co-operative
sociedad limitada, limited company
2 (asociación) society
3 alta sociedad, (high) society Locuciones: presentarse en sociedad, to have one's coming out
sociedad civil, civil society
sociedad de consumo, consumer society ' sociedad' also found in these entries: Spanish: agruparse - alta - alto - anónima - anónimo - apreciarse - baile - clasista - consumo - eco - estratificación - gratuidad - limitada - limitado - marginar - protector - protectora - reintegrar - S.A. - S.L. - academia - agrario - capa - concientizar - construir - corromper - corrompido - crónica - desmoronarse - ejido - elitista - engranaje - escoria - espejo - estamento - evolución - evolucionado - evolucionar - jai - justo - modernizar - ojo - posición - regir - retrasado - secretario - situación English: affluent - association - cliquey - club - consumer society - corp. - corporation - dissolve - drop out - dropout - fabric - golf club - HMO - incorporated - limited - Ltd - member - monogamous - partnership - PLC - progress - Rotary Club - scum - section - socialite - society - whole - building - consumer - cream - dregs - element - finishing - fringe - gossip - high - incorporate - joint - parent - reintegrate - savings - stock

Perkins, Jacob

SUBJECT AREA: Architecture and building, Paper and printing

[br]

b. 9 July 1766 Newburyport, Massachusetts, USA

d. 30 July 1849 London, England

[br]

American inventor of a nail-making machine and a method of printing banknotes, investigator of the use of steam at very high pressures.

[br]

Perkins's occupation was that of a gold-and silversmith; while he does not seem to have followed this after 1800, however, it gave him the skills in working metals which he would continue to employ in his inventions. He had been working in America for four years before he patented his nail-making machine in 1796. At the time there was a great shortage of nails because only hand-forged ones were available. By 1800, other people had followed his example and produced automatic nail-making machines, but in 1811 Perkins' improved machines were introduced to England by J.C. Dyer. Eventually Perkins had twenty-one American patents for a range of inventions in his name.

In 1799 Perkins invented a system of engraving steel plates for printing banknotes, which became the foundation of modern siderographic work. It discouraged forging and was adopted by many banking houses, including the Federal Government when the Second United States Bank was inaugurated in 1816. This led Perkins to move to Philadelphia. In the intervening years, Perkins had improved his nail-making machine, invented a machine for graining morocco leather in 1809, a fire-engine in 1812, a letter-lock for bank vaults and improved methods of rolling out spoons in 1813, and improved armament and equipment for naval ships from 1812 to 1815.

It was in Philadelphia that Perkins became interested in the steam engine, when he met Oliver Evans, who had pioneered the use of high-pressure steam. He became a member of the American Philosophical Society and conducted experiments on the compressibility of water before a committee of that society. Perkins claimed to have liquified air during his experiments in 1822 and, if so, was the real discoverer of the liquification of gases. In 1819 he came to England to demonstrate his forgery-proof system of printing banknotes, but the Bank of England was the only one which did not adopt his system.

While in London, Perkins began to experiment with the highest steam pressures used up to that time and in 1822 took out his first of nineteen British patents. This was followed by another in 1823 for a 10 hp (7.5 kW) engine with only 2 in. (51 mm) bore, 12 in. (305 mm) stroke but a pressure of 500 psi (35 kg/cm²), for which he claimed exceptional economy. After 1826, Perkins abandoned his drum boiler for iron tubes and steam pressures of 1,500 psi (105 kg/cm²), but the materials would not withstand such pressures or temperatures for long. It was in that same year that he patented a form of uniflow cylinder that was later taken up by L.J. Todd. One of his engines ran for five days, continuously pumping water at St Katherine's docks, but Perkins could not raise more finance to continue his experiments.

In 1823 one his high-pressure hot-water systems was installed to heat the Duke of Wellington's house at Stratfield Saye and it acquired a considerable vogue, being used by Sir John Soane, among others. In 1834 Perkins patented a compression ice-making apparatus, but it did not succeed commercially because ice was imported more cheaply from Norway as ballast for sailing ships. Perkins was often dubbed "the American inventor" because his inquisitive personality allied to his inventive ingenuity enabled him to solve so many mechanical challenges.

[br]

Further Reading

Historical Society of Pennsylvania, 1943, biography which appeared previously as a shortened version in the Transactions of the Newcomen Society 24.

D.Bathe and G.Bathe, 1943–5, "The contribution of Jacob Perkins to science and engineering", Transactions of the Newcomen Society 24.

D.S.L.Cardwell, 1971, From Watt to Clausius. The Rise of Thermodynamics in the Early Industrial Age, London: Heinemann (includes comments on the importance of Perkins's steam engine).

A.F.Dufton, 1940–1, "Early application of engineering to warming of buildings", Transactions of the Newcomen Society 21 (includes a note on Perkins's application of a high-pressure hot-water heating system).

RLH

Kompfner, Rudolph

SUBJECT AREA: Broadcasting, Electronics and information technology, Telecommunications

[br]

b. 16 May 1909 Vienna, Austria

d. 3 December 1977 Stanford, California, USA

[br]

Austrian (naturalized English in 1949, American in 1957) electrical engineer primarily known for his invention of the travelling-wave tube.

[br]

Kompfner obtained a degree in engineering from the Vienna Technische Hochschule in 1931 and qualified as a Diplom-Ingenieur in Architecture two years later. The following year, with a worsening political situation in Austria, he moved to England and became an architectural apprentice. In 1936 he became Managing Director of a building firm owned by a relative, but at the same time he was avidly studying physics and electronics. His first patent, for a television pick-up device, was filed in 1935 and granted in 1937, but was not in fact taken up. In June 1940 he was interned on the Isle of Man, but as a result of a paper previously sent by him to the Editor of Wireless Engineer he was released the following December and sent to join the group at Birmingham University working on centimetric radar. There he worked on klystrons, with little success, but as a result of the experience gained he eventually invented the travelling-wave tube (TWT), which was based on a helical transmission line. After disbandment of the Birmingham team, in 1946 Kompfner moved to the Clarendon Laboratory at Oxford and in 1947 he became a British subject. At the Clarendon Laboratory he met J.R. Pierce of Bell Laboratories, who worked out the theory of operation of the TWT. After gaining his DPhil at Oxford in 1951, Kompfner accepted a post as Principal Scientific Officer at Signals Electronic Research Laboratories, Baldock, but very soon after that he was invited by Pierce to work at Bell on microwave tubes. There, in 1952, he invented the backward-wave oscillator (BWO). He was appointed Director of Electronics Research in 1955 and Director of Communications Research in 1962, having become a US citizen in 1957. In 1958, with Pierce, he designed Echo 1, the first (passive) satellite, which was launched in August 1960. He was also involved with the development of Telstar, the first active communications satellite, which was launched in 1962. Following his retirement from Bell in 1973, he continued to pursue research, alternately at Stanford, California, and Oxford, England.

[br]

Principal Honours and Distinctions

Physical Society Duddell Medal 1955. Franklin Institute Stuart Ballantine Medal 1960. Institute of Electrical and Electronics Engineers David Sarnoff Award 1960. Member of the National Academy of Engineering 1966. Member of the National Academy of Science 1968. Institute of Electrical and Electronics Engineers Medal of Honour 1973. City of Philadelphia John Scott Award 1974. Roentgen Society Silvanus Thompson Medal 1974. President's National medal of Science 1974. Honorary doctorates Vienna 1965, Oxford 1969.

Bibliography

1944, "Velocity modulated beams", Wireless Engineer 17:262.

1942, "Transit time phenomena in electronic tubes", Wireless Engineer 19:3. 1942, "Velocity modulating grids", Wireless Engineer 19:158.

1946, "The travelling-wave tube", Wireless Engineer 42:369.

1964, The Invention of the TWT, San Francisco: San Francisco Press.

Further Reading

J.R.Pierce, 1992, "History of the microwave tube art", Proceedings of the Institute of Radio Engineers: 980.

KF

Whipple, Squire

SUBJECT AREA: Civil engineering

[br]

b. 1804 Hardwick, Massachusetts, USA

d. 15 March 1888 Albany, New York, USA

[br]

American civil engineer, author and inventor.

[br]

The son of James and Electa Whipple, his father was a farmer and later the owner of a small cotton mil at Hardwick, Massachusetts. In 1817 Squire Whipple moved with his family to Otego County, New York. He helped on the farm and attended the academy at Fairfield, Herkimer County. For a time he taught school pupils, and in 1829 he entered Union College, Schenectady, where he received the degree of AB in 1830; his interest in engineering was probably aroused by the construction of the Erie Canal near his home during his boyhood. He was first employed in a minor capacity in surveys for the Baltimore and Ohio Railroad and for the Erie Canal. In 1836–7 he was resident engineer for a division of the New York and Erie Railroad and was also employed in a number of other railroad and canal surveys, making surveying instruments in the intervals between these appointments; in 1840, he completed a lock for weighing canal boats.

Whipple received his first bridge patent on 24 April 1841; this was for a truss of arched upper chord made of cast and wrought iron. Five years later, he devised a trapezoidal truss which was used in the building of many bridges over the succeeding generation. In 1852–3 Whipple used his truss in an iron railroad bridge of 44.5 m (146 ft) span on the Rensselaer and Saratoga Railroad. He also built a number of bridges with lifting spans.

Whipple's main contribution to bridge engineering was the publication in 1847 of A Work on Bridge Building. In 1869 he issued a continuation of this treatise, and a fourth edition of both was published in 1883.

[br]

Principal Honours and Distinctions

Honorary Member, American Society of Civil Engineers.

IMcN

Russell, John Scott

SUBJECT AREA: Ports and shipping

[br]

b. 9 May 1808 Parkhead, near Glasgow, Scotland

d. 8 June 1882 Isle of Wight, England

[br]

Scottish engineer, naval architect and academic.

[br]

A son of the manse, Russell was originally destined for the Church and commenced studies at the University of St Andrews, but shortly afterwards he transferred to Glasgow, graduating MA in 1825 when only 17 years old. He began work as a teacher in Edinburgh, working up from a school to the Mechanics Institute and then in 1832 to the University, where he took over the classes in natural philosophy following the death of the professor. During this period he designed and advised on the application of steam power to road transport and to the Forth and Clyde Canal, thereby awakening his interest in ships and naval architecture.

Russell presented papers to the British Association over several years, and one of them, The Wave Line Theory of Ship Form (although now superseded), had great influence on ship designers of the time and helped to establish the formal study of hydromechanics. With a name that was becoming well known, Russell looked around for better opportunities, and on narrowly missing appointment to the Chair of Mathematics at Edinburgh University he joined the upand-coming Clyde shipyard of Caird \& Co., Greenock, as Manager in 1838.

Around 1844 Russell and his family moved to London; following some business problems he was in straitened circumstances. However, appointment as Secretary to the Committee setting up the Great Exhibition of 1851 eased his path into London's intellectual society and allowed him to take on tasks such as, in 1847, the purchase of Fairbairn's shipyard on the Isle of Dogs and the subsequent building there of I.K. Brunel's Great Eastern steamship. This unhappy undertaking was a millstone around the necks of Brunel and Russell and broke the health of the former. With the yard failing to secure the order for HMS Warrior, the Royal Navy's first ironclad, Russell pulled out of shipbuilding and for the remainder of his life was a designer, consultant and at times controversial, but at all times polished and urbane, member of many important committees and societies. He is remembered as one of the founders of the Institution of Naval Architects in 1860. His last task was to design a Swiss Lake steamer for Messrs Escher Wyss, a company that coincidentally had previously retained Sir William Fairbairn.

[br]

Principal Honours and Distinctions

FRS 1847.

Bibliography

John Scott Russell published many papers under the imprint of the British Association, the Royal Society of Arts and the Institution of Naval Architects. His most impressive work was the mammoth three-volume work on shipbuilding published in London in 1865 entitled The Modern System of Naval Architecture. Full details and plans of the Great Eastern are included.

Further Reading

G.S.Emmerson, 1977, John Scott Russell, a Great Victorian Engineer and Naval Architect, London: Murray

FMW

standing

Adj

1. स्थायी

Russia is one of the standing member of UN.

2. इज्जत

He has a good standing in the society.

3. एकदम से किसी चीज़ की शुरुवात

He had a standing jump from Ist floor of the building.

4. रहने का समय

My friendship with you should be long standing.

Barry, Sir Charles

SUBJECT AREA: Architecture and building

[br]

b. 23 May 1795 Westminster, London, England

d. 12 May 1860 Clapham, London, England

[br]

English architect who was a leader in the field between the years 1830 and 1860.

[br]

Barry was typical of the outstanding architects of this time. His work was eclectic, and he suited the style—whether Gothic or classical—to the commission and utilized the then-traditional materials and methods of construction. He is best known as architect of the new Palace of Westminster; he won the competition to rebuild it after the disastrous fire of the old palace in 1834. Bearing this in mind in the rebuilding, Barry utilized that characteristic nineteenth-century material, iron for joists and roofing plates.

[br]

Principal Honours and Distinctions

Knighted 1852. Member of the Royal Academy; the Royal Society; the Academies of St Luke, Rome; St Petersburg (and others); and the American Institute of Architects. RIBA Gold Medal 1850.

Further Reading

Marcus Whiffen, The Architecture of Sir Charles Barry in Manchester and Neighbourhood, Royal Manchester Institution.

H.M.Port (ed.), 1976, The Houses of Parliament, Yale University Press.

H.M.Colvin (ed.), The History of the King's Works, Vol. 6, HMSO.

DY

Salomans, Sir David Lionel

SUBJECT AREA: Automotive engineering, Domestic appliances and interiors, Electricity, Land transport

[br]

b. 1851

d. 1925

[br]

English pioneer of electricity and the automobile in England.

[br]

Salomans inherited his baronetcy from his uncle, Sir David Salomans (1797–1873), who had been Member of Parliament for Greenwich and the first Jewish Lord Mayor of London. He was the archetypal amateur engineer and inventor of the Victorian age, indulging in such interests as photography, motoring, electricity, woodworking, polariscopy and astronomy. His house, "Broomhill", near Tun bridge Wells in Kent, was one of the first to be lit by electricity and is said to have been the first to use electricity for cooking. He acted as architect for the building of the stables, the water tower and the 150-seat theatre at his home. In 1874 he was granted a patent for an automatic railway signalling system. He was the founder in 1895 of the first motoring organization in Great Britain, the Self Propelled Traffic Association, forerunner of the Royal Automobile Club (RAC). He was also the organizer of the first motor show to be held in Britain, on 15 October 1895. It is said that, in spite of being the Mayor of Tunbridge Wells, Salomans defied the law and drove without the obligatory pedestrian with a red flag preceding his vehicle; this requirement was removed with the later Light (Road) Locomotives Act, which raised the speed limit to 12 mph (19 km/h).

[br]

Further Reading

Various papers may be consulted from the Sir David Salomans Society. See also Simms, Frederick.

IMcN