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21 Socialist Party / Partido Socialista
(PS)Although the Socialist Party's origins can be traced back to the 1850s, its existence has not been continuous. The party did not achieve or maintain a large base of support until after the Revolution of 25 April 1974. Historically, it played only a minor political role when compared to other European socialist parties.During the Estado Novo, the PS found it difficult to maintain a clandestine existence, and the already weak party literally withered away. Different groups and associations endeavored to keep socialist ideals alive, but they failed to create an organizational structure that would endure. In 1964, Mário Soares, Francisco Ramos da Costa, and Manuel Tito de Morais established the Portuguese Socialist Action / Acção Socialista Português (ASP) in Geneva, a group of individuals with similar views rather than a true political party. Most members were middle-class professionals committed to democratizing the nation. The rigidity of the Portuguese Communist Party (PCP) led some to join the ASP.By the early 1970s, ASP nuclei existed beyond Portugal in Paris, London, Rome, Brussels, Frankfurt, Sweden, and Switzerland; these consisted of members studying, working, teaching, researching, or in other activities. Extensive connections were developed with other foreign socialist parties. Changing conditions in Portugal, as well as the colonial wars, led several ASP members to advocate the creation of a real political party, strengthening the organization within Portugal, and positioning this to compete for power once the regime changed.The current PS was founded clandestinely on 19 April 1973, by a group of 27 exiled Portuguese and domestic ASP representatives at the Kurt Schumacher Academy of the Friedrich Ebert Stiftung in Bad Munstereifel, West Germany. The founding philosophy was influenced by nondogmatic Marxism as militants sought to create a classless society. The rhetoric was to be revolutionary to outflank its competitors, especially the PCP, on its left. The party hoped to attract reform-minded Catholics and other groups that were committed to democracy but could not support the communists.At the time of the 1974 revolution, the PS was little more than an elite faction based mainly among exiles. It was weakly organized and had little grassroots support outside the major cities and larger towns. Its organization did not improve significantly until the campaign for the April 1975 constituent elections. Since then, the PS has become very pragmatic and moderate and has increasingly diluted its socialist program until it has become a center-left party. Among the party's most consistent principles in its platform since the late 1970s has been its support for Portugal's membership in the European Economic Community (EEC) and the European Union (EU), a view that clashed with those of its rivals to the left, especially the PCP. Given the PS's broad base of support, the increased distance between its leftist rhetoric and its more conservative actions has led to sharp internal divisions in the party. The PS and the Social Democratic Party (PSD) are now the two dominant parties in the Portuguese political party system.In doctrine and rhetoric the PS has undergone a de-Marxification and a movement toward the center as a means to challenge its principal rival for hegemony, the PSD. The uneven record of the PS in general elections since its victory in 1975, and sometimes its failure to keep strong legislative majorities, have discouraged voters. While the party lost the 1979 and 1980 general elections, it triumphed in the 1983 elections, when it won 36 percent of the vote, but it still did not gain an absolute majority in the Assembly of the Republic. The PSD led by Cavaco Silva dominated elections from 1985 to 1995, only to be defeated by the PS in the 1995 general elections. By 2000, the PS had conquered the commanding heights of the polity: President Jorge Sampaio had been reelected for a second term, PS prime minister António Guterres was entrenched, and the mayor of Lisbon was João Soares, son of the former socialist president, Mário Soares (1986-96).The ideological transformation of the PS occurred gradually after 1975, within the context of a strong PSD, an increasingly conservative electorate, and the de-Marxification of other European Socialist parties, including those in Germany and Scandinavia. While the PS paid less attention to the PCP on its left and more attention to the PSD, party leaders shed Marxist trappings. In the 1986 PS official program, for example, the text does not include the word Marxism.Despite the party's election victories in the mid- and late-1990s, the leadership discovered that their grasp of power and their hegemony in governance at various levels was threatened by various factors: President Jorge Sampaio's second term, the constitution mandated, had to be his last.Following the defeat of the PS by the PSD in the municipal elections of December 2001, Premier Antônio Guterres resigned his post, and President Sampaio dissolved parliament and called parliamentary elections for the spring. In the 17 March 2002 elections, following Guterres's resignation as party leader, the PS was defeated by the PSD by a vote of 40 percent to 38 percent. Among the factors that brought about the socialists' departure from office was the worsening post-September 11 economy and disarray within the PS leadership circles, as well as charges of corruption among PS office holders. However, the PS won 45 percent of the vote in parliamentary elections of 2005, and the leader of the party, José Sócrates, a self-described "market-oriented socialist" became prime minister.Historical dictionary of Portugal > Socialist Party / Partido Socialista
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22 Radcliffe, William
SUBJECT AREA: Textiles[br]b. 1761 Mellor, Cheshire, Englandd. 1842 Mellor, Cheshire, England[br]English inventor of the sizing machine.[br]Radcliffe was brought up in the textile industry and learned carding and spinning as a child. When he was old enough, he became a weaver. It was a time when there were not enough weavers to work up all the yarn being spun on the recently invented spinning machines, so some yarn was exported. Radcliffe regarded this as a sin; meetings were held to prohibit the export, and Radcliffe promised to use his best endeavours to discover means to work up the yarn in England. He owned a mill at Mellor and by 1801 was employing over 1,000 hand-loom weavers. He wanted to improve their efficiency so they could compete against power looms, which were beginning to be introduced at that time.His first step was to divide up as much as possible the different weaving processes, not unlike the plan adopted by Arkwright in spinning. In order to strengthen the warp yarns made of cotton and to reduce their tendency to fray during weaving, it was customary to apply an adhesive substance such as starch paste. This was brushed on as the warp was unwound from the back beam during weaving, so only short lengths could be treated before being dried. Instead of dressing the warp in the loom as was hitherto done, Radcliffe had it dressed in a separate machine, relieving the weaver of the trouble and saving the time wasted by the method previously used. Radcliffe employed a young man names Thomas Johnson, who proved to be a clever mechanic. Radcliffe patented his inventions in Johnson's name to avoid other people, especially foreigners, finding out his ideas. He took out his first patent, for a dressing machine, in March 1803 and a second the following year. The combined result of the two patents was the introduction of a beaming machine and a dressing machine which, in addition to applying the paste to the yarns and then drying them, wound them onto a beam ready for the loom. These machines enabled the weaver to work a loom with fewer stoppages; however, Radcliffe did not anticipate that his method of sizing would soon be applied to power looms as well and lead to the commercial success of powered weaving. Other manufacturers quickly adopted Radcliffe's system, and Radcliffe himself soon had to introduce power looms in his own business.Radcliffe improved the hand looms themselves when, with the help of Johnson, he devised a cloth taking-up motion that wound the woven cloth onto a roller automatically as the weaver operated the loom. Radcliffe and Johnson also developed the "dandy loom", which was a more compact form of hand loom and was also later adapted for weaving by power. Radcliffe was among the witnesses before the Parliamentary Committee which in 1808 awarded Edmund Cartwright a grant for his invention of the power loom. Later Radcliffe was unsuccessfully to petition Parliament for a similar reward for his contributions to the introduction of power weaving. His business affairs ultimately failed partly through his own obstinacy and his continued opposition to the export of cotton yarn. He lived to be 81 years old and was buried in Mellor churchyard.[br]Bibliography1811, Exportation of Cotton Yarn and Real Cause of the Distress that has Fallen upon the Cotton Trade for a Series of Years Past, Stockport.1828, Origin of the New System of Manufacture, Commonly Called "Power-Loom Weaving", Stockport (this should be read, even though it is mostly covers Radcliffe's political aims).Further ReadingA.Barlow, 1870, The History and Principles of Weaving by Hand and by Power, London (provides an outline of Radcliffe's life and work).W.English, 1969, The Textile Industry, London (a general background of his inventions). R.L.Hills, 1970, Power in the Industrial Revolution, Manchester (a general background).D.J.Jeremy, 1981, Transatlantic Industrial Revolution. The Diffusion of Textile Technologies Between Britain and America, 1790–1830s, Oxford (discusses the spread of the sizing machine in America).RLH -
23 Guterres, António Manuel de
(1949-)Socialist Party leader, engineer, and politician, prime minister of Portugal (19952002). Born in Lisbon in a lower-middle-class family with roots in Beira Alta district (central Portugal), Guterres was trained as an electrical engineer and physicist. In his twenties, he abandoned academic pursuits to enter politics and was active in the university Catholic youth movement. Following the Revolution of 25 April 1974, Guterres became active in the Socialist Party (PS) leadership and joined several administrations' ministries during provisional governments (1974-75). From 1976 to 1983, he was an elected deputy for the Assembly of the Republic and was reelected to the same body as a deputy in 1985, serving until 1988. In the late 1980s, he reached the top rungs of the PS leadership. He directed the PS's electoral campaign of 1987. When the PS defeated the Social Democratic Party (PSD) in both the general legislative elections of 1995 and 1999, Guterres was named and served as prime minister.Following the PSD's defeat of the PS in the December 2001 municipal elections, Guterres unexpectedly resigned as chief of the PS and became a caretaker prime minister as President Jorge Sampaio called for parliamentary elections in March 2002. Guterres was replaced as PS leader and candidate for prime minister by Ferro Rodrigues. In the 17 March 2002 elections, the PSD defeated the PS, but only by a slim margin. Guterres left the premiership and withdrew from active politics.Historical dictionary of Portugal > Guterres, António Manuel de
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24 primo
1. adj firstprimo piano m first floorin prima visione film just out2. m, prima f firstai primi del mese at the beginning of the monthsulle prime in the beginning, at first3. m gastronomy first course, starter* * *primo agg.num.ord.1 first: il primo mese dell'anno, giorno della settimana, the first month of the year, day of the week; è il suo primo figlio, he's her first son; il suo primo libro è stato un successo, his first book was a success; è sul primo scaffale a destra, it's on the first shelf on the right; è sul primo scaffale in alto, in basso, it's on the top, the bottom shelf // Atto I, Scena II, Act one, Scene two // Carlo primo, Elisabetta prima, re Enrico primo, Charles the First, Elizabeth the First, King Henry the First // di prima mano, firsthand // di prim'ordine, first-class (o first-rate): un mascalzone di prim'ordine, a first-class scoundrel // un diamante, una perla di prim'acqua, di prima purezza, a diamond, a pearl of the first water // in primo luogo, in the first place (o first of all) // in un primo tempo, at first // per prima cosa, first thing: fallo per prima cosa domani, do it first thing tomorrow; per prima cosa gli ho chiesto..., first I asked him... // sulle prime, at first // è la prima e l'ultima volta che ti do retta, this is the first and last time I'll pay attention to you2 ( principale, più importante) chief, principal, main; ( migliore) best: i primi cittadini del paese, the leading (o first) citizens of the country; appartiene a una delle prime famiglie della città, he belongs to one of the most prominent families in town; è uno dei primi ristoranti, it's one of the best restaurants; ecco la ragione prima per cui non vengo, that's the main (o chief o principal) reason why I don't come // (teatr.): prima donna, leading lady; ( d'opera) prima donna; prima parte, lead; leading rôle (anche fig.) // primo violino, violoncello, first violin (o leader), first cello // Primo Ministro, Prime Minister (o Premier)3 ( iniziale; più lontano nel tempo) early, first: i primi Cristiani, the early Christians; i primi giorni della rivoluzione, the early days of the revolution; la prima infanzia, giovinezza, early childhood, youth; le prime leggende, the earliest (o first) legends; le prime ore del mattino, the early hours of the morning; la prima parte dell'anno, del secolo, the early part of the year, of the century; fin dalla sua prima infanzia, from a very early age; nei primi mesi dell'anno, in the early months of the year; i nostri primi poeti, our early poets; uno dei primi Vittoriani, an early Victorian // di primo mattino, pomeriggio, early in the morning, in the afternoon4 ( prossimo) next: glielo porterò la prima volta che andrò da lui, I'll take it to him the next time I go to his house; ho perso il treno delle dieci; prenderò il primo treno in partenza, I have missed the ten o'clock train; I'll get the next one.primo s.m.1 ( primo di una graduatoria o serie) first: chi è arrivato ( per) primo?, who arrived first?; chi è il primo?, who is first?; ti riceverò per primo domani, I'll see you first tomorrow // primo venuto, just anybody: non si deve accordare fiducia al primo venuto, you can't trust just anybody (o strangers); non sono il primo venuto, I'm not just anybody (o a stranger) // il primo che capita, (just) anyone; lo venderò al primo che capita, I'll sell it to the first person who comes along2 (il primo citato, nominato) ( tra due) the former; ( tra molti) the first: Piero e Giovanni sono amici; il primo è avvocato, il secondo dottore, Peter and John are friends; the former is a lawyer, the latter is a doctor; ''Preferisci Virgilio, Orazio o Lucrezio?'' ''Preferisco il primo'', ''Do you prefer Virgil, Horace or Lucretius?'' ''I prefer the first''3 ( più importante; migliore) the best; the top: è dei primi, he is one of the best; essere il primo della classe, to be top of the form4 ( il primo giorno) the first; pl. first days: il primo di febbraio, di marzo, 1st February, 1st March; ci rivedremo ai primi di dicembre, we'll meet again at the beginning of December; il pagamento va effettuato entro i primi di aprile, payment is due within the first days of April // ai primi dell'Ottocento, in the early nineteenth century5 ( primo piatto) first course: prendo solo un primo, I'll just have a first course; come primi oggi abbiamo..., the first course today includes...6 ( minuto primo) minute: 2 ore, 20 primi e 10 secondi, two hours, twenty minutes and ten seconds.primo avv. first: quell'appartamento non mi piace, primo perché è troppo grande e poi perché è rumoroso, I don't like that flat, first because it's too big and then because it's noisy.* * *['primo] primo (-a)1. aggin prima pagina Stampa; i suoi primi quadri — his early paintings
2) (in un ordine) firstessere primo in classifica — (squadra) to be top of the league, (disco) to be number one in the charts
sul primo scaffale in alto/in basso — on the top/bottom shelf
di prim'ordine o prima qualità — first-class, first-rate
3) (prossimo) first, nextprendi la prima (strada) a destra — take the first o next (street) on the right
4) (principale) main, principal5)per prima cosa — firstlyin primo luogo — in the first place, first of all
in un primo tempo o momento — at first
2. sm/f3. sm(gen) first, (piano) first floor Brit, second floor Am, Culin first course* * *['primo] 1.1) (in una serie, in un gruppo) first; (tra due) formerle -e tre pagine — the first three pages, the three first pages
"libro primo" — "book one"
arrivare primo — (in una gara) to come (in) o finish first
il primo esercizio è semplice, il secondo è complesso — the former exercise is simple, the latter is complex
- a pagina — front page
2) (nel tempo) earlynel primo pomeriggio — in the early afternoon, early in the afternoon
un Picasso -a maniera — an early Picasso, an example of Picasso's early work
3) (prossimo) first, nextprendere il primo treno, volo — to leave on the first train, flight
5) ling.-a persona singolare, plurale — first person singular, plural
7) telev.8) in primo luogo to begin with, firstly, in the first instance o place9) sulle prime at first, initially10) in primo piano in the foreground2.mettere qcs. in primo piano — to bring sth. to the fore, to foreground sth., to bring sth. into sharp focus
sostantivo maschile (f. -a)1) (in una successione) first; (tra due) formerfu tra i -i ad arrivare — he was one of o among the first to arrive
il primo dei miei figli — (tra due) my elder son; (tra più di due) my eldest son
2) (in una classifica) first3) (giorno iniziale) firstai — -
4) (minuto primo) minute5) (prima portata) first course6) telev. (canale) channel one7) per primo first3.avverbio firstci sono due ragioni: primo... — there are two reasons: first...
non ci andrò, primo perché non ho tempo e poi perché non ho voglia — I'm not going first because I'm busy and then because I don't feel like it
primo attore — teatr. principal
primo ministro — prime minister, premier
primo violino — first o lead violin
* * *primo/'primo/ ⇒ 261 (in una serie, in un gruppo) first; (tra due) former; le -e tre pagine the first three pages, the three first pages; i -i gradini della scala the first few steps of the stairs; "libro primo" "book one"; arrivare primo (in una gara) to come (in) o finish first; essere tra i -i tre to be in the top three; il primo esercizio è semplice, il secondo è complesso the former exercise is simple, the latter is complex; per la -a volta for the first time; non era la -a volta che lo avvertivo che I warned him not for the first time; lo incontrai a Oxford per la -a volta I first met him in Oxford; per -a cosa domani telefono I'll ring first thing tomorrow; - a pagina front page; finire in -a pagina to hit the headlines; essere una notizia da -a pagina to be front page news2 (nel tempo) early; nel primo pomeriggio in the early afternoon, early in the afternoon; i -i romanzi dell'autore the author's early novels; un Picasso -a maniera an early Picasso, an example of Picasso's early work; nei -i tempi andava tutto bene at first things went well; nei -i anni '60 in the early 60's3 (prossimo) first, next; scendere alla -a fermata to get off at the next stop; prendere il primo treno, volo to leave on the first train, flight4 (per superiorità) il primo produttore mondiale di vino the world leading wine producer5 ling. -a persona singolare, plurale first person singular, plural6 (nelle parentele) cugino primo first cousin7 telev. il primo canale channel one8 in primo luogo to begin with, firstly, in the first instance o place; in primo luogo non avrei dovuto dirglielo I wish I hadn't told her to begin with9 sulle prime at first, initially10 in primo piano in the foreground; mettere qcs. in primo piano to bring sth. to the fore, to foreground sth., to bring sth. into sharp focus(f. -a)1 (in una successione) first; (tra due) former; sei il primo a dirmelo you are the first to tell me; fu tra i -i ad arrivare he was one of o among the first to arrive; preferisco il primo I prefer the first one; il primo dei miei figli (tra due) my elder son; (tra più di due) my eldest son2 (in una classifica) first; essere il primo della classe to be top of the class3 (giorno iniziale) first; il primo (di) maggio the first of May; ai- i del mese at the beginning of the month; il primo dell'anno New Year's Day4 (minuto primo) minute5 (prima portata) first course6 telev. (canale) channel one7 per primo first; arrivare per primo to get there firstIII avverbiofirst; ci sono due ragioni: primo... there are two reasons: first...; non ci andrò, primo perché non ho tempo e poi perché non ho voglia I'm not going first because I'm busy and then because I don't feel like itprimo attore teatr. principal; primo ballerino principal dancer; - a comunione First Communion; primo ministro prime minister, premier; primo violino first o lead violin. -
25 in
1. a расположенный внутри, внутренний2. a направленный вовнутрь3. adv внутри4. adv с внутренней стороны5. v диал. окружать, огораживать6. prep внутрь; вin the daytime — в дневное время, днём
in the days of, in the time of — во времена
in good time — незамедлительно; своевременно; заблаговременно
act in pais — акт, совершённый вне судебного заседания
7. prep др. в, на8. prep (указывает на причину или цель) в, отin answer, in reply — в ответ
in haste — в спешке, второпях
in accordance with — в соответствии с, согласно
books packed in dozens — книги, упакованные по двенадцать штук
in cases — указывает на сферу проявления признака или область действия в, на, по
he is advanced in years — он уже в годах, он уже не молод
9. prep (указывает на количественное соотношение) на, в, изone in ten — каждый десятый, один из десяти
Синонимический ряд:1. stylish (adj.) a la mode; chic; dashing; exclusive; fashionable; modish; posh; sharp; smart; snappy; stylish; swank; swish; tonish; tony; trig; ultrafashionable; with-it2. pull (noun) clout; influence; pull3. during (other) at; during; during the process of; in the act of; meanwhile; occupied with; while; whilst; within the period4. inside of (other) enclosed in; in the midst of; inside of; located in; not out of; pertaining to; surrounded by; within; within the boundaries of -
26 Camacho, Manuel Brito
(1862-1934)A leading political figure of the First Republic, leader-founder of a principal pre-1919 party and high commissioner of Portuguese East Africa in the l920s. Brito Camacho was trained as a medical doctor, but became noteworthy first as the editor of a fighting republican newspaper, A Luta (The Struggle), which played a role in the republican propaganda era in the years before the 5 October 1910 republican revolution. Camacho became one of the principal republican leaders during 1906-12 and, when he dissented from the radical line of the Portuguese Republican Party (PRP), he split from that party and formed his own Republican Union (UR) party, which lasted from 1912 to 1918.A major policy issue for Camacho and his UR followers was opposition to Portugal's active intervention in World War I on the Allied side. When Portugal did enter the war in March 1916, Camacho lent his political influence through his newspaper and his following to opposition to the PRP's policy of war intervention. Camacho played an important role in the preparation of political and military support for Sidônio Pais's December 1917 coup, which succeeded in overthrowing the PRP and ousting Afonso Costa. After the assassination of Sidónio Pais and the brief civil war of early 1919, Brito Camacho withdrew from domestic politics and sought rest and escape abroad. In a brief but important period (1921-23), Camacho served as the republic's high commissioner in Mozambique. He spent much of the remainder of his life in research and writing. -
27 Cavaco Silva, Aníbal Antônio
(1939-)Leading figure in post-1974 Portugal, Social Democrat leader, prime minister (1985-95), president of the Republic since 2006. Born in the Algarve in 1939, Cavaco Silva was educated in Faro and Lisbon and, in 1964, obtained a degree in finance at the University of Lisbon. Like many of the younger leaders of post-1974 Portugal, Cavaco Silva underwent an important part of his professional training abroad; in December 1973, he received a doctorate in economics from York University, Great Britain. He entered academic life as an economics and finance professor in 1974 and taught until he entered politics full-time in 1980, when he was named minister of finance in the sixth constitutional government of Social Democratic Party (PSD) leader and prime minister Sá Carneiro. He was elected a PSD deputy to the Republican Assembly in October 1980. Following the general legislative elections of October 1985, Cavaco Silva was named prime minister of the 10th constitutional government. His party, the PSD, strengthened its hold on the legislature yet again in the 1987 election when, for the first time since the Revolution of 25 April 1974, Portugal was ruled by a party with a clear majority of seats in the legislature.Cavaco Silva, who has emphasized a strong free-enterprise and denationalization policy in the framework of economic rejuvenation, served as prime minister (1985-95) and, in the elections of 1987 and 1991, his party won a clear majority of seats in the Assembly of the Republic (more than 50 percent), which encouraged stability and economic progress in postrevolutionary Portugal. In the 1995 general elections, the Socialist Party (PS) defeated the PSD; he ran for the presidency of the republic in 1995 and lost to Jorge Sampaio. Cavaco Silva retired briefly from politics to teach at the Catholic University. In October 2005, he announced his return to politics and became a candidate for the upcoming presidential election. On 22 January 2006, he received 50.5 percent of the vote and was sworn in on 9 March 2006.Historical dictionary of Portugal > Cavaco Silva, Aníbal Antônio
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28 Durão Barroso, José Manuel
(1952-)Academic, scholar, and politician who rose to prominence after the Revolution of 25 April 1974. Trained as an academic in the field of political science and law, Durão Barroso received a master's degree in political science at a Swiss university in the 1980s and continued to a doctorate in Portugal. For some years, he taught political science at the University of Geneva. A student of Portuguese government and politics, he entered academic life in Lisbon at various universities, including the Faculty of Law, University of Lisbon, and spent terms abroad as a visiting political science professor at Georgetown University in the United States.A leading member of the Social Democratic Party (PSD) after 1993, he was minister of foreign affairs in the Cavaco Silva government in the mid-1990s. When Marcello Rebelo de Sousa withdrew from politics in 1999, Durão Barroso was elected in his place as chief of the PSD; he led the party in the October 1999 elections, won by the Socialist Party (PS) under Guterres. The defeat of the PSD in this election, whose final results were closer than predicted, cast a shadow on the leadership position of Durão Barroso, whose brittle style and manner of public speaking aroused controversy. The position of the PSD, however, still retained some strength; the results of the October 1999 elections were disappointing to the PS, which expected to win an overall majority in the Assembly of the Republic. Instead, the PS fell one seat short. The electoral results in seats were PS (115) to PSD (81). As the PS's hold on the electorate weakened during 2001, and the party was defeated in municipal elections in December 2001, the PSD's leader came into his own as party chief.In the parliamentary elections of 17 March 2002, the PSD won the largest number of seats, and Durão Barroso was appointed prime minister. To have a majority, he governed in coalition with the Popular Party (PP), formerly known as the Christian Democratic Party (CDS). Durão Barroso reduced government spending, which affected the budgets of local governments and civil service recruitment. These measures, as well as plans to accelerate privatization and introduce labor reforms, resulted in a public-sector worker's strike in November 2002, the first such strike in 10 years. Durão Barroso decided to press ahead with budget-cutting measures and imposed a freeze on the wages of employees earning more than €1,000, which affected more than 50 percent of the workforce.In 2004, he became president of the Commission, European Union (EU). He took up the office on 23 November 2004, and Pedro Santana Lopes, then the PSD mayor of Lisbon, became prime minister. Portugal has held the six-month rotating presidency of the EU three times, in 1992, 2000, and 2007.Historical dictionary of Portugal > Durão Barroso, José Manuel
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29 Clerk, Sir Dugald
[br]b. 31 March 1854 Glasgow, Scotlandd. 12 November 1932 Ewhurst, Surrey, England[br]Scottish mechanical engineer, inventor of the two-stroke internal combustion engine.[br]Clerk began his engineering training at about the age of 15 in the drawing office of H.O.Robinson \& Company, Glasgow, and in his father's works. Meanwhile, he studied at the West of Scotland Technical College and then, from 1871 to 1876, at Anderson's College, Glasgow, and at the Yorkshire College of Science, Leeds. Here he worked under and then became assistant to the distinguished chemist T.E.Thorpe, who set him to work on the fractional distillation of petroleum, which was to be useful to him in his later work. At that time he had intended to become a chemical engineer, but seeing a Lenoir gas engine at work, after his return to Glasgow, turned his main interest to gas and other internal combustion engines. He pursued his investigations first at Thomson, Sterne \& Company (1877–85) and then at Tangyes of Birmingham (1886–88. In 1888 he began a lifelong partnership in Marks and Clerk, consulting engineers and patent agents, in London.Beginning his work on gas engines in 1876, he achieved two patents in the two following years. In 1878 he made his principal invention, patented in 1881, of an engine working on the two-stroke cycle, in which the piston is powered during each revolution of the crankshaft, instead of alternate revolutions as in the Otto four-stroke cycle. In this engine, Clerk introduced supercharging, or increasing the pressure of the air intake. Many engines of the Clerk type were made but their popularity waned after the patent for the Otto engine expired in 1890. Interest was later revived, particularly for application to large gas engines, but Clerk's engine eventually came into its own where simple, low-power motors are needed, such as in motor cycles or motor mowers.Clerk's work on the theory and design of gas engines bore fruit in the book The Gas Engine (1886), republished with an extended text in 1909 as The Gas, Petrol and Oil Engine; these and a number of papers in scientific journals won him international renown. During and after the First World War, Clerk widened the scope of his interests and served, often as chairman, on many bodies in the field of science and industry.[br]Principal Honours and DistinctionsKnighted 1917; FRS 1908; Royal Society Royal Medal 1924; Royal Society of Arts Alber Medal 1922.Further ReadingObituary Notices of Fellows of the Royal Society, no. 2, 1933.LRD -
30 Cobbett, William
SUBJECT AREA: Agricultural and food technology[br]b. 9 March 1762 Farnham, Surrey, Englandd. 17 June 1835 Guildford, Surrey, England[br]English political writer and activist; writer on rural affairs, with a particular concern for the conditions of the agricultural worker; a keen experimental farmer who claimed responsibility for the import of Indian maize to Britain.[br]The son of a smallholder farmer and self-taught surveyor, William Cobbett was brought up to farm work from an early age. In 1783 he took employment as an attorney's clerk in London, but not finding this to his liking he travelled to Chatham with the intention of joining the Navy. A mistake in "taking the King's shilling" found him in an infantry regiment. After a year's training he was sent out to Nova Scotia and quickly gained the rank of sergeant major. On leaving the Army he brought corruption charges against three officers in his regiment, but did not press with the prosecution. England was not to his taste, and he returned to North America with his wife.In America Cobbett taught English to the growing French community displaced by the French Revolution. He found American criticism of Britain ill-balanced and in 1796 began to publish a daily newspaper under the title Porcupine's Gazetteer, in which he wrote editorials in defence of Britain. His writings won him little support from the Americans. However, on returning to London in 1800 he was offered, but turned down, the management of a Government newspaper. Instead he began to produce a daily paper called the Porcupine, which was superseded in 1802 by Cobbett's Political Register, this publication continued on a weekly basis until after his death. In 1803 he also began the Parliamentary Debates, which later merged into Hansard, the official report of parliamentary proceedings.In 1805 Cobbett took a house and 300-acre (120-hectare) farm in Hampshire, from which he continued to write, but at the same time followed the pursuits he most enjoyed. In 1809 his criticism of the punishment given to mutineers in the militia at Ely resulted in his own imprisonment. On his release in 1812 he decided that the only way to remain an independent publisher was to move back to the USA. He bought a farm at Hampstead, Long Island, New York, and published A Year's Residence in America, which contains, amongst other things, an interesting account of a farmer's year.Returning to Britain in the easier political climate of the 1820s, Cobbett bought a small seed farm in Kensington, then outside London. From there he made a number of journeys around the country, publishing accounts of them in his famous Rural Rides. His experiments and advice on the sowing and cultivation of crops, particularly turnips and swedes, and on forestry, were an important mechanism for the spread of ideas within the UK. He also claimed that he was the first to introduce the acacia and Indian maize to Britain. Much of his writing expresses a concern for the rural poor and he was firmly convinced that only parliamentary reform would achieve the changes needed. His political work and writing led to his election as Member of Parlaiment for Oldham in the 1835 election, which followed the Reform Act of 1832. However, by this time his energy was failing rapidly and he died peacefully at Normandy Farm, near Guildford, at the age of 73.[br]BibliographyCobbett's Observations on Priestley's Emigration, published in 1794, was the first of his pro-British tracts written in America. On the basis of his stay in that country he wrote A Year's Residence in America. His books on agricultural practice included Woodlands (1825) and Treatise on Cobbett's Corn (1828). Dealing with more social problems he wrote an English Grammar for the use of Apprentices, Plough Boys, Soldiers and Sailors in 1818, and Cottage Economy in 1821.Further ReadingAlbert Pell, 1902, article in Journal of the Royal Agricultural Society of England 63:1–26 (describes the life and writings of William Cobbett).James Sambrook, 1973, William Cobbett, London: Routledge (a more detailed study).AP -
31 Donkin, Bryan I
[br]b. 22 March 1768 Sandoe, Northumberland, Englandd. 27 February 1855 London, England[br]English mechanical engineer and inventor.[br]It was intended that Bryan Donkin should follow his father's profession of surveyor and land agent, so he spent a year or so in that occupation before he was apprenticed to John Hall, millwright of Dartford, Kent. Donkin remained with the firm after completing his apprenticeship, and when the Fourdrinier brothers in 1802 introduced from France an invention for making paper in continuous lengths they turned to John Hall for help in developing the machine: Donkin was chosen to undertake the work. In 1803 the Fourdriniers established their own works in Bermondsey, with Bryan Donkin in charge. By 1808 Donkin had acquired the works, but he continued to manufacture paper-making machines, paying a royalty to the patentees. He also undertook other engineering work including water-wheels for driving paper and other mills. He was also involved in the development of printing machinery and the preservation of food in airtight containers. Some of these improvements were patented, and he also obtained patents relating to gearing, steel pens, paper-making and railway wheels. Other inventions of Bryan Donkin that were not patented concerned revolution counters and improvements in accurate screw threads for use in graduating mathematical scales. Donkin was elected a member of the Society of Arts in 1803 and was later Chairman of the Society's Committee of Mechanics and a Vice-President of the society. He was also a member of the Royal Astronomical Society. In 1818 a group of eight young men founded the Institution of Civil Engineers; two of them were apprentices of Bryan Donkin and he encouraged their enterprise. After a change in the rules permitted the election of members over the age of 35, he himself became a member in 1821. He served on the Council and became a Vice- President, but he resigned from the Institution in 1848.[br]Principal Honours and DistinctionsFRS 1838. Vice-President, Institution of Civil Engineers 1826–32, 1835–45. Member, Smeatonian Society of Civil Engineers 1835; President 1843. Society of Arts Gold Medal 1810, 1819.Further ReadingS.B.Donkin, 1949–51, "Bryan Donkin, FRS, MICE 1768–1855", Transactions of the Newcomen Society 27:85–95.RTS -
32 Marrison, Warren Alvin
[br]b. 21 May 1896 Inverary, Canadad. 27 March 1980 Palo Verdes Estates, California, USA[br]Canadian (naturalized American) electrical engineer, pioneer of the quartz clock.[br]Marrison received his high-school education at Kingston Collegiate Institute, Ontario, and in 1914 he entered Queen's University in Kingston. He graduated in Engineering Physics in 1920, his college career having been interrupted by war service in the Royal Flying Corps. During his service in the Flying Corps he worked on radio, and when he returned to Kingston he established his own transmitter. This interest in radio was later to influence his professional life.In 1921 he entered Harvard University, where he obtained an MA, and shortly afterwards he joined the Western Electric Company in New York to work on the recording of sound on film. In 1925 he transferred to Western Electric's Bell Laboratory, where he began what was to become his life's work: the development of frequency standards for radio transmission. In 1922 Cady had used the elastic vibration of a quartz crystal to control the frequency of a valve oscillator, but at that time there was no way of counting and displaying the number of vibrations as the frequency was too high. In 1927 Marrison succeeded in dividing the frequency electronically until it was low enough to drive a synchronous motor. Although his purpose was to determine the frequency accurately by counting the number of vibrations that occurred in a given time, he had incidentally produced the first quartz-crystal -ontrolled clock. The results were sufficiently encouraging for him to build an improved version the following year, specifically as a time and frequency standard.[br]Principal Honours and DistinctionsBritish Horological Institute Gold Medal 1947. Clockmakers' Company Tompion Medal 1955.Bibliography1928, with J.W.Horton, "Precision measurement of frequency", Proceedings of the Institute of Radio Engineers 16:137–54 (provides details of the original quartz clock, although it was not described as such).1930, "The crystal clock", Proceedings of the National Academy of Sciences 16:496–507 (describes the second clock).Further ReadingW.R.Topham, 1989, "Warren A.Marrison—pioneer of the quartz revolution", NAWCC Bulletin 31(2):126–34.J.D.Weaver, 1982, Electrical and Electronic Clocks and Watches, London (a technical assessment of his work on the quartz clock).DV -
33 Meikle, Andrew
SUBJECT AREA: Agricultural and food technology[br]b. 1719 Scotlandd. 27 November 1811[br]Scottish millwright and inventor of the threshing machine.[br]The son of the millwright James Meikle, who is credited with the introduction of the winnowing machine into Britain, Andrew Meikle followed in his father's footsteps. His inventive inclinations were first turned to developing his father's idea, and together with his own son George he built and patented a double-fan winnowing machine.However, in the history of agricultural development Andrew Meikle is most famous for his invention of the threshing machine, patented in 1784. He had been presented with a model of a threshing mill designed by a Mr Ilderton of Northumberland, but after failing to make a full-scale machine work, he developed the concept further. He eventually built the first working threshing machine for a farmer called Stein at Kilbagio. The patent revolutionized farming practice because it displaced the back-breaking and soul-destroying labour of flailing the grain from the straw. The invention was of great value in Scotland and in northern England when the land was becoming underpopulated as a result of heavy industrialization, but it was bitterly opposed in the south of England until well into the nineteenth century. Although the introduction of the threshing machine led to the "Captain Swing" riots of the 1830s, in opposition to it, it shortly became universal.Meikle's provisional patent in 1785 was a natural progression of earlier attempts by other millwrights to produce such a machine. The published patent is based on power provided by a horse engine, but these threshing machines were often driven by water-wheels or even by windmills. The corn stalks were introduced into the machine where they were fed between cast-iron rollers moving quite fast against each other to beat the grain out of the ears. The power source, whether animal, water or wind, had to cause the rollers to rotate at high speed to knock the grain out of the ears. While Meikle's machine was at first designed as a fixed barn machine powered by a water-wheel or by a horse wheel, later threshing machines became mobile and were part of the rig of an agricultural contractor.In 1788 Meikle was awarded a patent for the invention of shuttered sails for windmills. This patent is part of the general description of the threshing machine, and whilst it was a practical application, it was superseded by the work of Thomas Cubitt.At the turn of the century Meikle became a manufacturer of threshing machines, building appliances that combined the threshing and winnowing principles as well as the reciprocating "straw walkers" found in subsequent threshing machines and in conventional combine harvesters to the present day. However, he made little financial gain from his invention, and a public subscription organized by the President of the Board of Agriculture, Sir John Sinclair, raised £1,500 to support him towards the end of his life.[br]Bibliography1831, Threshing Machines in The Dictionary of Mechanical Sciences, Arts and Manufactures, London: Jamieson, Alexander.7 March 1768, British patent no. 896, "Machine for dressing wheat, malt and other grain and for cleaning them from sand, dust and smut".9 April 1788, British patent no. 1,645, "Machine which may be worked by cattle, wind, water or other power for the purpose of separating corn from the straw".Further ReadingJ.E.Handley, 1953, Scottish Farming in the 18th Century, and 1963, The Agricultural Revolution in Scotland (both place Meikle and his invention within their context).G.Quick and W.Buchele, 1978, The Grain Harvesters, American Society of Agricultural Engineers (gives an account of the early development of harvesting and cereal treatment machinery).KM / AP -
34 Pierce, John Robinson
[br]b. 27 March 1910 Des Moines, Iowa, USA[br]American scientist and communications engineer said to be the "father" of communication satellites.[br]From his high-school days, Pierce showed an interest in science and in science fiction, writing under the pseudonym of J.J.Coupling. After gaining Bachelor's, Master's and PhD degrees at the California Institute of Technology (CalTech) in Pasadena in 1933, 1934 and 1936, respectively, Pierce joined the Bell Telephone Laboratories in New York City in 1936. There he worked on improvements to the travelling-wave tube, in which the passage of a beam of electrons through a helical transmission line at around 7 per cent of the speed of light was made to provide amplification at 860 MHz. He also devised a new form of electrostatically focused electron-multiplier which formed the basis of a sensitive detector of radiation. However, his main contribution to electronics at this time was the invention of the Pierce electron gun—a method of producing a high-density electron beam. In the Second World War he worked with McNally and Shepherd on the development of a low-voltage reflex klystron oscillator that was applied to military radar equipment.In 1952 he became Director of Electronic Research at the Bell Laboratories' establishment, Murray Hill, New Jersey. Within two years he had begun work on the possibility of round-the-world relay of signals by means of communication satellites, an idea anticipated in his early science-fiction writings (and by Arthur C. Clarke in 1945), and in 1955 he published a paper in which he examined various possibilities for communications satellites, including passive and active satellites in synchronous and non-synchronous orbits. In 1960 he used the National Aeronautics and Space Administration 30 m (98 1/2 ft) diameter, aluminium-coated Echo 1 balloon satellite to reflect telephone signals back to earth. The success of this led to the launching in 1962 of the first active relay satellite (Telstar), which weighed 170 lb (77 kg) and contained solar-powered rechargeable batteries, 1,000 transistors and a travelling-wave tube capable of amplifying the signal 10,000 times. With a maximum orbital height of 3,500 miles (5,600 km), this enabled a variety of signals, including full bandwidth television, to be relayed from the USA to large receiving dishes in Europe.From 1971 until his "retirement" in 1979, Pierce was Professor of Electrical Engineering at CalTech, after which he became Chief Technologist at the Jet Propulsion Laboratories, also in Pasadena, and Emeritus Professor of Engineering at Stanford University.[br]Principal Honours and DistinctionsInstitute of Electrical and Electronics Engineers Morris N.Liebmann Memorial Award 1947; Edison Medal 1963; Medal of Honour 1975. Franklin Institute Stuart Ballantine Award 1960. National Medal of Science 1963. Danish Academy of Science Valdemar Poulsen Medal 1963. Marconi Award 1974. National Academy of Engineering Founders Award 1977. Japan Prize 1985. Arthur C.Clarke Award 1987. Honorary DEng Newark College of Engineering 1961. Honorary DSc Northwest University 1961, Yale 1963, Brooklyn Polytechnic Institute 1963. Editor, Proceedings of the Institute of Radio Engineers 1954–5.Bibliography23 October 1956, US patent no. 2,768,328 (his development of the travelling-wave tube, filed on 5 November 1946).1947, with L.M.Field, "Travelling wave tubes", Proceedings of the Institute of RadioEngineers 35:108 (describes the pioneering improvements to the travelling-wave tube). 1947, "Theory of the beam-type travelling wave tube", Proceedings of the Institution ofRadio Engineers 35:111. 1950, Travelling Wave Tubes.1956, Electronic Waves and Messages. 1962, Symbols, Signals and Noise.1981, An Introduction to Information Theory: Symbols, Signals and Noise: Dover Publications.1990, with M.A.Knoll, Signals: Revolution in Electronic Communication: W.H.Freeman.KF -
35 Poniatoff, Alexander Mathew
[br]b. 25 March 1892 Kazan District, Russiad. 24 October 1980[br]Russian (naturalized American in 1932) electrical engineer responsible for the development of the professional tape recorder and the first commercially-successful video tape recorder (VTR).[br]Poniatoff was educated at the University of Kazan, the Imperial College in Moscow, and the Technische Hochschule in Karlsruhe, gaining degrees in mechanical and electrical engineering. He was in Germany when the First World War broke out, but he managed to escape back to Russia, where he served as an Air Force pilot with the Imperial Russian Navy. During the Russian Revolution he was a pilot with the White Russian Forces, and escaped into China in 1920; there he found work as an assistant engineer in the Shanghai Power Company. In 1927 he immigrated to the USA, becoming a US citizen in 1932. He obtained a post in the research and development department of the General Electric Company in Schenectady, New York, and later at Dalmo Victor, San Carlos, California. During the Second World War he was involved in the development of airborne radar for the US Navy.In 1944, taking his initials to form the title, Poniatoff founded the AMPEX Corporation to manufacture components for the airborne radar developed at General Electric, but in 1946 he turned to the production of audio tape recorders developed from the German wartime Telefunken Magnetophon machine (the first tape recorder in the truest sense). In this he was supported by the entertainer Bing Crosby, who needed high-quality replay facilities for broadcasting purposes, and in 1947 he was able to offer a professional-quality product and the business prospered.With the rapid post-war boom in television broadcasting in the USA, a need soon arose for a video recorder to provide "time-shifting" of live TV programmes between the different US time zones. Many companies therefore endeavoured to produce a video tape recorder (VTR) using the same single-track, fixed-head, longitudinal-scan system used for audio, but the very much higher bandwidth required involved an unacceptably high tape-speed. AMPEX attempted to solve the problem by using twelve parallel tracks and a machine was demonstrated in 1952, but it proved unsatisfactory.The development team, which included Charles Ginsburg and Ray Dolby, then devised a four-head transverse-scan system in which a quadruplex head rotating at 14,400 rpm was made to scan across the width of a 2 in. (5 cm) tape with a tape-to-head speed of the order of 160 ft/sec (about 110 mph; 49 m/sec or 176 km/h) but with a longitudinal tape speed of only 15 in./sec (0.38 m/sec). In this way, acceptable picture quality was obtained with an acceptable tape consumption. Following a public demonstration on 14 April 1956, commercial produc-tion of studio-quality machines began to revolutionize the production and distribution of TV programmes, and the perfecting of time-base correctors which could stabilize the signal timing to a few nanoseconds made colour VTRs a practical proposition. However, AMPEX did not rest on its laurels and in the face of emerging competition from helical scan machines, where the tracks are laid diagonally on the tape, the company was able to demonstrate its own helical machine in 1957. Another development was the Videofile system, in which 250,000 pages of facsimile could be recorded on a single tape, offering a new means of archiving information. By 1986, quadruplex VTRs were obsolete, but Poniatoff's role in making television recording possible deserves a place in history.Poniatoff was President of AMPEX Corporation until 1955 and then became Chairman of the Board, a position he held until 1970.[br]Further ReadingA.Abrahamson, 1953, "A short history of television recording", Part I, JSMPTE 64:73; 1973, Part II, Journal of the Society of Motion Picture and Television Engineers, 82:188 (provides a fuller background).Audio Biographies, 1961, ed. G.A.Briggs, Wharfedale Wireless Works, pp. 255–61 (contains a few personal details about Poniatoff's escape from Germany to join the Russian Navy).E.Larsen, 1971, A History of Invention.Charles Ginsburg, 1981, "The horse or the cowboy. Getting television on tape", Journal of the Royal Television Society 18:11 (a brief account of the AMPEX VTR story).KF / GB-NBiographical history of technology > Poniatoff, Alexander Mathew
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36 Popov, Aleksandr Stepanovich
[br]b. 16 March 1859 Bogoslavsky, Zamod, Ural District, Russiad. 13 January 1906 St Petersburg, Russia[br]Russian physicist and electrical engineer acclaimed by the former Soviet Union as the inventor of radio.[br]Popov, the son of a village priest, received his early education in a seminary, but in 1877 he entered the University of St Petersburg to study mathematics. He graduated with distinction in 1883 and joined the faculty to teach mathematics and physics. Then, increasingly interested in electrical engineering, he became an instructor at the Russian Navy Torpedo School at Krondstadt, near St Petersburg, where he later became a professor. On 7 May 1895 he is said to have transmitted and received Morse code radio signals over a distance of 40 m (130 ft) in a demonstration given at St Petersburg University to the Russian Chemical Society, but in a paper published in January 1896 in the Journal of the Russian Physical and Chemical Society, he in fact described the use of a coherer for recording atmospheric disturbances such as lightning, together with the design of a modified coherer intended for reception at a distance of 5 km (3 miles). Subsequently, on 26 November 1897, after Marconi's own radio-transmission experiments had been publicized, he wrote a letter claiming priority for his discovery to the English-language journal Electrician, in the form of a translated précis of his original paper, but neither the original Russian paper nor the English précis made specific claims of either a receiver or a transmitter as such. However, by 1898 he had certainly developed some form of ship-to-shore radio for the Russian Navy. In 1945, long after the Russian revolution, the communist regime supported his claim to be the inventor of radio, but this is a matter for much debate and the priority of Marconi's claim is generally acknowledged outside the USSR.[br]Bibliography1896, Journal of the Russian Physical and Chemical Society (his original paper in Russian).1897, Electrician 40:235 (the English précis).Further ReadingC.Susskind, 1962, "Popov and the beginnings of radio telegraphy", Proceedings of the Institute of Radio Engineers 50:2,036.——1964, Marconi, Popov and the dawn of radiocommunication', Electronics and Power, London: Institution of Electrical Engineers, 10:76.KFBiographical history of technology > Popov, Aleksandr Stepanovich
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37 Sholes, Christopher Latham
SUBJECT AREA: Paper and printing[br]b. 14 February 1819 Mooresburg, Pennsylvania, USAd. 17 February 1890 USA[br]American inventor of the first commercially successful typewriter.[br]Sholes was born on his parents' farm, of a family that had originally come from England. After leaving school at 14, he was apprenticed for four years to the local newspaper, the Danville Intelligencer. He moved with his parents to Wisconsin, where he followed his trade as journalist and printer, within a year becoming State Printer and taking charge of the House journal of the State Legislature. When he was 20 he left home and joined his brother in Madison, Wisconsin, on the staff of the Wisconsin Enquirer. After marrying, he took the editorship of the Southport Telegraph, until he became Postmaster of Southport. His experiences as journalist and postmaster drew him into politics and, in spite of the delicate nature of his health and personality, he served with credit as State Senator and in the State Assembly. In 1860 he moved to Milwaukee, where he became Editor of the local paper until President Lincoln offered him the post of Collector of Customs at Milwaukee.That position at last gave Sholes time to develop his undoubted inventive talents. With a machinist friend, Samuel W.Soule, he obtained a patent for a paging machine and another two years later for a machine for numbering the blank pages of a book serially. At the small machine shop where they worked, there was a third inventor, Carlos Glidden. It was Glidden who suggested to Sholes that, in view of his numbering machine, he would be well equipped to develop a letter printing machine. Glidden drew Sholes's attention to an account of a writing machine that had recently been invented in London by John Pratt, and Sholes was so seized with the idea that he devoted the rest of his life to perfecting the machine. With Glidden and Soule, he took out a patent for a typewriter on June 1868 followed by two further patents for improvements. Sholes struggled unsuccessfully for five years to exploit his invention; his two partners gave up their rights in it and finally, on 1 March 1873, Sholes himself sold his rights to the Remington Arms Company for $12,000. With their mechanical skills and equipment, Remingtons were able to perfect the Sholes typewriter and put it on the market. This, the first commercially successful typewriter, led to a revolution not only in office work, but also in work for women, although progress was slow at first. When the New York Young Women's Christian Association bought six Remingtons in 1881 to begin classes for young women, eight turned up for the first les-son; and five years later it was estimated that there were 60,000 female typists in the USA. Sholes said, "I feel that I have done something for the women who have always had to work so hard. This will more easily enable them to earn a living."Sholes continued his work on the typewriter, giving Remingtons the benefit of his results. His last patent was granted in 1878. Never very strong, Sholes became consumptive and spent much of his remaining nine years in the vain pursuit of health.[br]Bibliography23 June 1868, US patent no. 79,265 (the first typewriter patent).Further ReadingM.H.Adler, 1973, The Writing Machine, London: Allen \& Unwin.LRDBiographical history of technology > Sholes, Christopher Latham
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38 rear
I1. [rıə] n1. тылto bring up /to close/ the rear - а) замыкать шествие; б) воен. замыкать колонну
to take in (the) rear - воен. а) напасть /атаковать/ с тыла; б) выходить в тыл ( противника)
in /on/ smb.'s rear - позади кого-л.
to follow in the rear - идти сзади, плестись (за кем-л.)
at /амер. in/ the rear of - сзади (чего-л.)
the garage is at /in/ the rear of the house - гараж находится позади дома
2. задняя, тыльная сторона3. груб. зад4. груб. отхожее место, сортир5. ав. задняя, хвостовая часть ( самолёта)♢
to the rear, march! - кругом, марш! ( команда)2. [rıə] a1. задний, расположенный сзади; тыльныйrear entrance - задняя дверь, чёрный ход
rear rank - воен. замыкающая шеренга
rear party - воен. тыльная походная застава
rear traverse - воен. тыльный траверс
rear slope - топ. а) обратный скат; б) тыльная крутость
2. воен. тыловойrear area - тыл, тыловой район
3. ав. хвостовойII [rıə] v книжн.rear control - хвостовой руль; расположенная за крылом рулевая поверхность
1. поднимать (голову, руку)to rear one's head - поднять голову (тж. перен.)
to rear one's voice - поднять /возвысить, повысить/ голос
to rear the banner of revolt - образн. поднять знамя восстания
2. воздвигатьto rear a monument [a cathedral] - воздвигнуть памятник [собор]
to rear a mast [a pillar] - поставить мачту [столб]
3. 1) разводить, выращивать, выводить ( животных)to rear poultry [pigs] - заниматься птицеводством [свиноводством]
2) культивировать, возделывать, выращивать ( растения)3) растить, воспитывать ( потомство)4. 1) вздымать, возноситьthe mountains reared their crests into the clouds - горы вздымали свои вершины до облаков
2) тж. refl возвышаться, выситься, вздыматься, возноситься5. ( часто rear up)1) становиться на дыбы2) поднять на дыбы ( лошадь)3) встать на дыбы, прийти в бешенство, в ярость4) тж. refl встать6. направлять, обращать вверх (взгляд и т. п.); возводить к небу ( глаза)II [rıə] a диал.1) недожаренный, полусырой2) сваренный всмятку -
39 περίοδος
περίοδος, ὁ,A one who goes the rounds, patrol, Aen.Tact.22.3, al., Rev.Arch.1911(2).424 (Mesembria, i B. C.).------------------------------------A going round, marching round, flank march, τῶν Περσέων ἡ π. Hdt.7.219, 229 ;π. καὶ κύκλωσις Th.4.35
.2 slow walk, Gal.17(2).99.II way round, Hdt.7.223 ;λίμνης Id.1.185
; circumference, circuit, compass, σήματος, τείχεος, ib.93, 163 : abs., τὴν π. in circumference, Id.7.109.III γῆς π. chart or map of the earth, Id.4.36, 5.49, Ar.Nu. 206, Arist.Mete. 362b12, Agathem.1.1 ; αἱ τῆς γῆς π. books of descriptive geography, Arist. Pol. 1262a19, Rh. 1360a34, Mete. 350a16.IV going round in a circle, coming round to the starting-point, circuit, ἡ τοῦ τρίποδος π. Plu. Sol.4.2 esp. of Time, cycle or period of time, πάσαις ἐτέων π. Pi. N.11.40; freq. in Pl., ἐν πολλαῖς χρόνου καὶ μακραῖς π. Phd. 107e ;π. χιλιετής Phdr. 249a
: abs., R. 546b, Epicur.Ep.1p.27U. (pl.), etc.; κατὰ φύσιν π. Arist.GA 777b18; of the Great Year of the Stoics, Chrysipp.Stoic.2.189(pl.); ἐκ περιόδου periodically, in rotation, Heraclid.Pol.58, Plb.2.43.1, etc.;ἐν περιόδῳ Plu.Eum.8
; esp. the period embracing the four great public games,κατὰ τὰν π. ἑκάσταν IG9(1).694.31
(Corc.); ἐνίκησε τὴν π. Ath.10.415a; νικώμενος τὴν π. Arr. Epict.3.25.5, cf. Poll.4.89; v. περιοδονίκης.3 of events, periodic recurrence, cycle, Isoc.15.174, Thphr.CP1.13.1.b cycle, roster of public officials,τῇ πρὸ ταύτης π. τῶν μελλόντων λειτουργεῖν POxy. 1119.6
(iii A. D.), cf. 1552.3 (iii A. D.).4 Medic., a regular prescribed course of life, ἐν τῇ καθεστηκυίᾳ π. ζῆν to live in the regular course, Pl.R. 4073; αἱ ἰατρικαὶ π. the periodical visits of a regular physician, the doctor's rounds, Luc.Gall.23, cf. Nigr.22 : hence, medical practice, Heraclasap.Orib.48.18.2.c fit of intermittent fever, or the like , Hp. Aph.4.59 (pl.), D.9.19; ὁ ἐκ περιόδου πυρετός an intermittent fever, Luc.Philops.9.6 orbit of a heavenly body, Id.Mem. 4.7.5 ; ἀστέρος κυκλικὴ π. Vett.Val.94.20; also θεριναὶ π., = τροπαί, Hp.Aër.19; revolution of a heavenly body, Epicur.Ep.1p.28U.VI Rhet., period, Thrasymach. ap. Suid.s.v. Θρασύμαχος, etc.; defined as λέξις ἔχουσα ἀρχὴν καὶ τελευτὴν αὐτὴ καθ' αὑτὴν καὶ μέγεθος εὐσύνοπτον, Arist.Rh. 1409a35, etc.; also in Music and Metric, Heph.Poëm.3.5, Aristid.Quint.1.14.Greek-English dictionary (Αγγλικά Ελληνικά-λεξικό) > περίοδος
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40 Ewing, Sir James Alfred
SUBJECT AREA: Mechanical, pneumatic and hydraulic engineering[br]b. 27 March 1855 Dundee, Scotlandd. 1935[br]Scottish engineer and educator.[br]Sir Alfred Ewing was one of the leading engineering academics of his generation. He was the son of a minister in the Free Church of Scotland, and was educated at Dundee High School and Edinburgh University, where he studied engineering under Professor Fleeming Jenkin. On Jenkin's nomination, Ewing was recruited as Professor of Mechanical Engineering at the University of Tokyo, where he spent five years from 1878 to 1883. While in Tokyo, he devised an instrument for measuring and recording earthquakes. Ewing returned to his home town of Dundee in 1883, as the first Professor of Engineering at the University College recently established there. After seven years building up the department in Dundee, he moved to Cambridge where he succeeded James Stuart as Professor of Mechanism and Applied Mechanics. In thirteen creative years at Cambridge, he established the Engineering Tripos (1892) and founded the first engineering laboratories at the University (1894). From 1903 to 1917 Ewing served the Admiralty as Director of Naval Education, in which role he took a leading part in the revolution in British naval traditions which equipped the Royal Navy to fight the First World War. In that war, Ewing made an important contribution to the intelligence operation of deciphering enemy wireless messages. In 1916 he returned to Edinburgh as Principal and Vice-Chancellor, and following the war he presided over a period of rapid expansion at the University. He retired in 1929.[br]Principal Honours and DistinctionsFRS 1887. KCB 1911. President, British Association for the Advancement of Science 1932.BibliographyHe wrote extensively on technical subjects, and his works included Thermodynamics for Engineers (1920). His many essays and papers on more general subjects are elegantly and attractively written.Further ReadingDictionary of National Biography Supplement.A.W.Ewing, 1939, Life of Sir Alfred Ewing (biography by his son).ABBiographical history of technology > Ewing, Sir James Alfred
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