(1823-1826)

Ryan and Moody's Nisi Prius Reports

Юридический термин: сборник судебных решений с участием присяжных (составители Райан и Муди, 1823-1826), сборник судебных решений с участием присяжных, составители Райан и Муди (1823-1826)

сборник судебных решений с участием присяжных

Law: Espinasse's Nisi Prius Reports (составитель Эспинасс, 1793-1807), Foster and Finlason's Nisi Prius Reports (составители Фостер и Финлесон, 1856-1867), Gow's Nisi Prius Cases (составитель Гау, 1818-1820), Holt Nisi Prius Reports (составитель Холт), Lilly's Assize Reports (составитель Лилли, 1688-1693), Moody and Malkin's Nisi (составители Муди и Молкин, 1826-1830), Moody and Malkin's Nisi Prius Reports (составители Муди и Мэлкин, 1826-1830), Moody and Robinson's Nisi (составители Муди и Робинсон, 1830-1844), Moody and Robinson's Nisi Prius Reports (составители Муди и Робинсон, 1830-1844), Peake's Nisi Prius Cases (составитель Пик, 1790-1812), Ryan and Moody's Nisi Prius Reports (составители Райан и Муди, 1823-1826), Starkie's Nisi Prius Reports (составитель Старки, 1815-1822)

сборник судебных решений с участием присяжных, составители Райан и Муди

Law: Ryan and Moody's Nisi Prius Reports (1823-1826)

Ry.&M.

сокр. от Ryan and Moody's Nisi Prius Reports

сборник судебных решений с участием присяжных, составители Райан и Муди (1823-1826)

Кронеберг, Іван Якович

Кронеберг, Іван Якович (1788, Москва - 1838) - рос. і укр. філософ, літературознавець, латиніст, перекладач. Навчався в Гале (1800 - 1805) та в Ієнському ун-ті (1805 - 1806). Докт. філософії (1807). Від 1819 р. - у Харківському ун-ті: проф. класичної філософії, декан словесного ф-ту (1821, 1823 - 1826, 1831 - 1833), ректор (1833 - 1838). Перший шекспірознавець в Україні. Автор праць з естетики, історії літератури, класичної філології. Аналізував розвиток естетики у XVIII ст. (до Шеллінга включно). Тяжів до шеллінгіанства, був переконаним противником прагматики й утилітаризму. Намагався спростувати теорію наслідування в естетиці: митець не може і не повинен наслідувати природі, бо вона не поза ним, а в ньому.

[br]

Осн. тв.: "Афоризми" (1825); "Уривки" (1830 - 1831); "Історичний погляд на естетику" (1830); "Матеріали до історії естетики" (1831); "Про вчення словесності" (1835).

Чаадаєв, Петро Якович

Чаадаєв, Петро Якович (1794, Москва - 1856) - рос. філософ, публіцист Н. авчався в Московському ун-ті (1808 - 1811). Брав участь у війні 1812 - 1814 рр. Роки 1820 - 1821 позначені у Ч. глибокою внутрішньою кризою. У 1823 - 1826 рр. подорожує по країнах Європи; познайомився із Шеллінгом і Ламенне, погляди яких на релігію справили на нього глибоке враження. У1829 - 1831 рр. написав свій головний твір "Листи про філософію історії" (загальновідома назва "Філософічні листи"). Як філософ був, головно, зосереджений на історіософських розмислах - про роль християнства у релігійному єднанні людства, про специфіку рос. національної свідомості та співвідношення народу і державної влади. У розумінні явищ свідомості схилявся до психофізичного паралелізму, в тлумаченні історичного процесу - до провіденціалізму і теїзму.

[br]

Осн. тв.: "Твори і листи" (т. 1-2, 1913-1914).

Brown, Samuel

SUBJECT AREA: Steam and internal combustion engines

[br]

b. unknown

d. 1849 England

[br]

English cooper, inventor of a gas vacuum engine.

[br]

Between the years 1823 and 1833, Brown achieved a number of a firsts as a pioneer of internal-combustion engines. In 1824 he built a full-scale working model of a pumping engine; in 1826, a vehicle fitted with a gas vacuum engine ascended Shooters Hill in Kent; and in 1827 he conducted trials of a motor-driven boat on the Thames that were witnessed by Lords of the Admiralty. The principle of Brown's engine had been demonstrated by Cecil in 1820. A burning gas flame was extinguished within a closed cylinder, creating a partial vacuum; atmospheric pressure was then utilized to produce the working stroke. By 1832 a number of Brown's engines in use for pumping water were reported, the most notable being at Croydon Canal. However, high fuel consumption and running costs prevented a wide acceptance of Brown's engines, and a company formed in 1825 was dissolved only two years later. Brown continued alone with his work until his death.

[br]

Bibliography

1823, British patent no. 4,874 (gas vacuum engine).

1826, British patent no. 5,350 (improved gas vacuum engine).

1846, British patent no. 11,076, "Improvements in Gas Engines and in Propelling Carriages and Vessels" (no specification was enrolled).

Further Reading

Various discussions of Brown's engines can be found in Mechanics Magazine (1824) 2:360, 385; (1825) 3:6; (1825) 4:19, 309; (1826) 5:145; (1826) 6:79; (1827) 7:82–134; (1832) 17:273.

The Engineer 182:214.

A.K.Bruce, Samuel Brown and the Gas Engine.

Dugald Clerk, 1895, The Gas and Oil Engine, 6th edn, London, pp. 2–3.

KAB

Houldsworth, Henry

SUBJECT AREA: Textiles

[br]

b. 1797 Manchester (?), England

d. 1868 Manchester (?), England

[br]

English cotton spinner who introduced the differential gear to roving frames in Britain.

[br]

There are two claimants for the person who originated the differential gear as applied to roving frames: one is J.Green, a tinsmith of Mansfield, in his patent of 1823; the other is Arnold, who had applied it in America and patented it in early 1823. This latter was the source for Houldsworth's patent in 1826. It seems that Arnold's gearing was secretly communicated to Houldsworth by Charles Richmond, possibly when Houldsworth visited the United States in 1822–3, but more probably in 1825 when Richmond went to England. In return, Richmond received information about parts of a cylinder printing machine from Houldsworth. In the working of the roving frame, as the rovings were wound onto their bobbins and the diameter of the bobbins increased, the bobbin speed had to be reduced to keep the winding on at the same speed while the flyers and drawing rollers had to maintain their initial speed. Although this could be achieved by moving the driving belt along coned pulleys, this method did not provide enough power and slippage occurred. The differential gear combined the direct drive from the main shaft of the roving frame with that from the cone drive, so that only the latter provided the dif-ference between flyer and bobbin speeds, i.e. the winding speeds, thus taking away most of the power from that belt. Henry Houldsworth Senior (1774–1853) was living in Manchester when his son Henry was born, but by 1800 had moved to Glasgow. He built several mills, including a massive one at Anderston, Scotland, in which a Boulton \& Watt steam engine was installed. Henry Houldsworth Junior was probably back in Manchester by 1826, where he was to become an influential cotton spinner as chief partner in his mills, which he moved out to Reddish in 1863–5. He was also a prominent landowner in Cheetham. When William Fairbairn was considering establishing the Association for the Prevention of Steam Boiler Explosions in 1854, he wanted to find an influential manufacturer and mill-owner and he made a happy choice when he turned to Henry Houldsworth for assistance.

[br]

Bibliography

1826, British patent no. 5,316 (differential gear for roving frames).

Further Reading

Details about Henry Houldsworth Junior are very sparse. The best account of his acquisition of the differential gear is given by D.J.Jeremy, 1981, Transatlantic Industrial Revolution. The Diffusion of Textile Technologies Between Britain and America, 1790–1830, Oxford.

W.English, 1969, The Textile Industry, London (an explanation of the mechanisms of the roving frame).

W.Pole, 1877, The Life of Sir William Fairbairn, Bart., London (provides an account of the beginning of the Manchester Steam Users' Association for the Prevention of Steam-boiler Explosions).

RLH

Miguel I, king

(1802-1866)

   The third son of King João VI and of Dona Carlota Joaquina, Miguel was barely five years of age when he went to Brazil with the fleeing royal family. In 1821, with his mother and father, he returned to Portugal. Whatever the explanation for his actions, Miguel always took Carlota Joaquina's part in the subsequent political struggles and soon became the supreme hope of the reactionary, clerical, absolutist party against the constitutionalists and opposed any compromise with liberal constitutionalism or its adherents. He became not only the symbol but the essence of a kind of reactionary messianism in Portugal during more than two decades, as his personal fortunes of power and privilege rose and fell. With his personality imbued with traits of wildness, adventurism, and violence, Miguel enjoyed a life largely consumed in horseback riding, love affairs, and bull- fighting.

   After the independence of Brazil (1822), Miguel became the principal candidate for power of the Traditionalist Party, which was determined to restore absolutist royal power, destroy the constitution, and rule without limitation. Miguel was involved in many political conspiracies and armed movements, beginning in 1822 and including the coups known to history as the "Vila Francada" (1823) and the "Abrilada" (1824), which were directed against his father King João VI, in order to restore absolutist royal power. These coup conspiracies failed due to foreign intervention, and the king ordered Miguel dismissed from his posts and sent into exile. He remained in exile for four years. The death of King João VI in 1826 presented new opportunities in the absolutist party, however, and the dashing Dom Miguel remained their great hope for power.

   His older brother King Pedro IV, then emperor of Brazil, inherited the throne and wrote his own constitution, the Charter of 1826, which was to become the law of the land in Portugal. However, his daughter Maria, only seven, was too young to rule, so Pedro, who abdicated, put together an unusual deal. Until Maria reached her majority age, a regency headed by Princess Isabel Maria would rule Portugal. Dom Miguel would return from his Austrian exile and, when Maria reached her majority, Maria would marry her uncle Miguel and they would reign under the 1826 Charter. Miguel returned to Portugal in 1828, but immediately broke the bargain. He proclaimed himself an absolutist King, acclaimed by the usual (and last) Cortes of 1828; dispensed with Pedro's Charter; and ruled as an absolutist. Pedro's response was to abdicate the emperorship of Brazil, return to Portugal, defeat Miguel, and place his young daughter on the throne. In the civil war called the War of the Brothers (1831-34), after a seesaw campaign on land and at sea, Miguel's forces were defeated and he went into exile, never to return to Portugal.

сборник решений канцлерского суда

Law: Ambler's Chancery Reports (составитель Эмблер, 1737-1784), Atkyn's Reports (составитель Эткин, 1736-1754), Bamardision's Reports (составитель Барнардистон, 1740-1741), Brown's Chancery Reports (составитель Браун, 1778-1794), Cases in Chancery (англ., 1660-1688), Cases in Chancery (1660-1688), Chancery (составитель Купер, 1837-1839), Chancery Chambers Reports (Верхняя Канада, 1857-1872), Choyce Cases in Chancery (1557-1606), Collyer's Chancery Cases (составитель Кольер, 1845-1847), Cox's Chancery Reports (составитель Кокс, 1783-1796), Craig and Phillips' Chancery Reports (англ. составители Крейг и Филипс, 1840-1841), De Gex and Jones' Chancery Reports (составители де Гекс и Джонс, 1857-1860), De Gex and Smale's Chancery Reports (составители де Гекс и Смейл, 1846-1852), Dickens' Chancery Reports (составитель Диккенс, 1559-1798), Donnely's Minutes of Cases (составитель Донели), Drewry and Smale's Chancery Reports (составители Друри и Смейл, 1860-1865), Drewry's Chancery Reports (составитель Друри, 1852-1859), Eden's Chancery Reports (составитель Иден, 1757-1766), Finch's Chancery Reports (составитель Финч, 1673-1681), Freeman's Chancery Reports (составитель Фримен, 1660-1706), Giffard's Chancery Reports (составитель Гиффард, 1857-1865), Gilbert's Chancery Reports (составитель Гилберт, 1705-1727), Grant's Upper Canada Chancery Reports (Верхняя Канада, составитель Грант, 1849-1882), Hall and Twell's Chancery Reports (составители Холл и Туэлл, 1849-1850), Hare's Chancery Reports (составитель Хэар, 1841-1853), Hemming and Miller's Chancery Reports (составители Хемминг и Миллер, 1862-1865), Jacob and Walker's Chancery Reports (составители Джейкоб и Уокер, 1819-1821), Jacob's Chancery Reports (составитель Джейкоб, 1821-1822), Johnson and Hemming's Chancery Reports (составители Джонсон и Хемминг 1859-1862), Johnson's Chancery Reports (составитель Джонсон, 1858-1860), Kay and Johnson's Chancery Reports (составители Кей и Джонсон, 1854-1858), Kay's Chancery Reports (составитель Кей, 1853-1854), Law Journal Reports, Chancery, Macnaghten and Gordon's Chancery Reports (составители Макнотен и Гордон, 1848-1852), Maddock and Geldari's Chancery Reports (составители Мэддок и Гелдарт, 1815-1822), Maddock's Chancery Reports (составитель Мэддок, 1815-1822), Merivale's Chancery Reports (составитель Мэривейл, 1815-1817), Mosely's Chancery Reports (составитель Моусли, 1726-1731), Mylne and Craig's Chancery Reports (составители Милн и Крейг, 1836-1840), Mylne and Keen's Chancery Reports (составители Милн и Кин, 1832-1835), Nelson's Chancery Reports (составитель Нелсон, 1625-1693), Peere Williams' Chancery Reports (составитель Пир Уильямс, 1695-1736), Phillip's Chancery Reports (составитель Филипс, 1841-1849), Reports in Chancery (1605-1712), Reports in Chancery (1615-1712), Romilly's Notes of Cases (составитель Ромили, 1767-1787), Russei and Mylne's Chancery Reports (составители Рассел и Милн, 1829-1831), Russel's Chancery Reports (составитель Рассел, 1823-1829), Simons and Stuart's Chancery Reports (составители Саймонс и Стюарт, 1822-1826), Simons' Chancery Reports (составитель Саймонс, 1826-1849), Smale and Giffard's Chancery Reports (составители Смейл и Гиффард, 1852-1857), Swanston's Chancery Reports (составитель Суонстон), Tamlyn's Chancery Reports (составитель Тэмлин, 1829-1830), Tothill's Chancery Reports (составитель Тотхилл, 1559-1606), Turner and Russell's Chancery Reports (составители Тернер и Рассел, 1822-1824), Vernon's Chancery Reports (составитель Верной, 1681-1720), Vesey Junior's Chancery Reports (составитель Веси-младший, 1789-1816), Vesey Senior's Chancery Reports (составитель Веси-старший, 1747-1756), Vesey and Beames' Chancery Reports (составители Веси и Бимс, 1812-1814), Vesey and Beams' Chancery Reports (составители Веси и Бимс, 1812-1814), William Kelynge's Chancery Reports (составитель У.Келиндж, 1730-1732), Wilson's Chancery Reports (составитель Уилсон, 1818-1819), Younge and Collyer's Chancery Reports (составители Янг и Кольер, 1841-1843)

Palmer, Henry Robinson

SUBJECT AREA: Civil engineering, Land transport, Railways and locomotives

[br]

b. 1795 Hackney, London, England

d. 12 September 1844

[br]

English civil engineer and monorail pioneer.

[br]

Palmer was an assistant to Thomas Telford for ten years from 1816. In 1818 he arranged a meeting of young engineers from which the Institution of Civil Engineers originated. In the early 1820s he invented a monorail system, the first of its kind, in which a single rail of wood, with an iron strip spiked on top to form a running surface, was supported on posts. Wagon bodies were supported pannier fashion from a frame attached to grooved wheels and were propelled by men or horses. An important object was to minimize friction, and short lines were built on this principle at Deptford and Cheshunt. In 1826 Palmer was appointed Resident Engineer to the London Docks and was responsible for the construction of many of them. He was subsequently consulted about many important engineering works.

[br]

Principal Honours and Distinctions

FRS 1831. Vice-President, Institution of Civil Engineers.

Bibliography

1821, British patent no. 4,618 (monorail).

1823, Description of a Railway on a New Principle…, London (describes his monorail).

Further Reading

Obituary, 1845, Minutes of Proceedings of the Institution of Civil Engineers 4. C.von Oeynhausen and H.von Dechen, 1971, Railways in England 1826 and 1827, London: Newcomen Society (a contemporary description of the monorails). M.J.T.Lewis, 1970, Early Wooden Railways, London: Routledge \& Kegan Paul.

See also: Lartigue, Charles François Marie-Thérèse

PJGR

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.

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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.

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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

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.

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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

Vignoles, Charles Blacker

SUBJECT AREA: Land transport, Railways and locomotives

[br]

b. 31 May 1793 Woodbrook, Co. Wexford, Ireland

d. 17 November 1875 Hythe, Hampshire, England

[br]

English surveyor and civil engineer, pioneer of railways.

[br]

Vignoles, who was of Huguenot descent, was orphaned in infancy and brought up in the family of his grandfather, Dr Charles Hutton FRS, Professor of Mathematics at the Royal Military Academy, Woolwich. After service in the Army he travelled to America, arriving in South Carolina in 1817. He was appointed Assistant to the state's Civil Engineer and surveyed much of South Carolina and subsequently Florida. After his return to England in 1823 he established himself as a civil engineer in London, and obtained work from the brothers George and John Rennie.

In 1825 the promoters of the Liverpool \& Manchester Railway (L \& MR) lost their application for an Act of Parliament, discharged their engineer George Stephenson and appointed the Rennie brothers in his place. They in turn employed Vignoles to resurvey the railway, taking a route that would minimize objections. With Vignoles's route, the company obtained its Act in 1826 and appointed Vignoles to supervise the start of construction. After Stephenson was reappointed Chief Engineer, however, he and Vignoles proved incompatible, with the result that Vignoles left the L \& MR early in 1827.

Nevertheless, Vignoles did not sever all connection with the L \& MR. He supported John Braithwaite and John Ericsson in the construction of the locomotive Novelty and was present when it competed in the Rainhill Trials in 1829. He attended the opening of the L \& MR in 1830 and was appointed Engineer to two railways which connected with it, the St Helens \& Runcorn Gap and the Wigan Branch (later extended to Preston as the North Union); he supervised the construction of these.

After the death of the Engineer to the Dublin \& Kingstown Railway, Vignoles supervised construction: the railway, the first in Ireland, was opened in 1834. He was subsequently employed in surveying and constructing many railways in the British Isles and on the European continent; these included the Eastern Counties, the Midland Counties, the Sheffield, Ashton-under-Lyme \& Manchester (which proved for him a financial disaster from which he took many years to recover), and the Waterford \& Limerick. He probably discussed rail of flat-bottom section with R.L. Stevens during the winter of 1830–1 and brought it into use in the UK for the first time in 1836 on the London \& Croydon Railway: subsequently rail of this section became known as "Vignoles rail". He considered that a broader gauge than 4 ft 8½ in. (1.44 m) was desirable for railways, although most of those he built were to this gauge so that they might connect with others. He supported the atmospheric system of propulsion during the 1840s and was instrumental in its early installation on the Dublin \& Kingstown Railway's Dalkey extension. Between 1847 and 1853 he designed and built the noted multi-span suspension bridge at Kiev, Russia, over the River Dnieper, which is more than half a mile (800 m) wide at that point.

Between 1857 and 1863 he surveyed and then supervised the construction of the 155- mile (250 km) Tudela \& Bilbao Railway, which crosses the Cantabrian Pyrenees at an altitude of 2,163 ft (659 m) above sea level. Vignoles outlived his most famous contemporaries to become the grand old man of his profession.

[br]

Principal Honours and Distinctions

Fellow of the Royal Astronomical Society 1829. FRS 1855. President, Institution of Civil Engineers 1869–70.

Bibliography

1830, jointly with John Ericsson, British patent no. 5,995 (a device to increase the capability of steam locomotives on grades, in which rollers gripped a third rail).

1823, Observations upon the Floridas, New York: Bliss \& White.

1870, Address on His Election as President of the Institution of Civil Engineers.

Further Reading

K.H.Vignoles, 1982, Charles Blacker Vignoles: Romantic Engineer, Cambridge: Cambridge University Press (good modern biography by his great-grandson).

See also: Samuda, Joseph d'Aguilar

PJGR

Cooper, James Fenimore

(1789-1851) Купер, Джеймс Фенимор

Писатель, классик американской литературы XIX века, создатель жанра романа Фронтира [ Frontier] и морского романа. Сын судьи Уильяма Купера (описанного им впоследствии под именем судьи Темпла в романе "Пионеры"), вырос в городке, основанном отцом [ Cooperstown]. В молодости ушел в матросы, что обогатило его жизненный и впоследствии писательский опыт. Роман "Шпион" ["The Spy"] (1820) принес ему успех как в Америке, так и за ее пределами. Захватывающий приключенческий сюжет, психологическая убедительность центральных персонажей и редкое в то время обращение к национальным американским проблемам и характерам затмили недостатки романа - некоторую прямолинейность образов второстепенных героев, назидательность тона и погрешности стиля. Настоящую, всемирную известность принесли писателю романы о Натти Бампо [ Natty Bumppo]: "Пионеры" ["The Pioneers"] (1823), "Последний из могикан" ["The Last of the Mohicans"] (1826), "Прерия" ["The Prarie"] (1827), "Следопыт" ["The Pathfinder"] (1840), "Зверобой" ["The Deerslayer"] (1841). Среди наиболее удачных "морских" книг - романы "Лоцман" ["The Pilot"] (1824), "Красный корсар" ["The Red Rover"] (1827) и "Морские львы" ["The Sea Lions"] (1849)

Decatur

Декейтер

1) Город на севере штата Алабама, на южном берегу р. Теннесси [ Tennessee River] и водохранилище Уилер [Wheeler Lake]. 53,9 тыс. жителей (2000). Административный центр [ county seat] округа Морган [Morgan County]. Металлообработка, текстильная и пищевая промышленность, производство кондиционеров. Основан в 1820 под названием Родс-Ферри [Rhodes Ferry], в 1826 назван в честь С. Декейтера [ Decatur, Stephen] и получил статус города. В 1832 - станция первой железной дороги в штате. Во время Гражданской войны [ Civil War] был почти полностью разрушен. В 1932 поглотил соседний г. Олбани [Albany]. Развитие в XX в. во многом связано с энергетическими проектами Управления ресурсами долины р. Теннесси [ Tennessee Valley Authority]. В пригороде - атомная электростанция Браунсферри [Brownsferry Nuclear Power Plant]

2) Город в центральной части штата Иллинойс (в географическом центре штата), на р. Сангамон [ Sangamon River]. 81,8 тыс. жителей (2000), с пригородами 120 тыс. жителей. Административный центр округа Мэкон [Macon County]. Транспортный узел. Торгово-финансовый центр сельскохозяйственного района (соя, кукуруза). Производство строительной техники, автодеталей, шин, стекла; пищевая промышленность (мука, растительное масло, мясные консервы). Близ города добыча угля. Университет Миликина [Millikin University] (1901). В городской библиотеке - собрание книг А. Линкольна [ Lincoln, Abraham], который занимался здесь адвокатской практикой около 1835, здесь же на республиканском съезде он был выдвинут кандидатом на пост президента (1860). В 1866 в городе создана "Великая армия Республики" [ Grand Army of the Republic]. Основан в 1829.

3) Город на северо-западе штата Джорджия, жилой пригород г. Атланты [ Atlanta]. 18,1 тыс. жителей (2000). Административный центр округа Декалб [DeKalb County]. Колледж Агнес Скотт [Agnes Scott College] (1889), Колумбийская теологическая семинария [Columbia Theological Seminary]. Статус города с 1823. Город процветал как центр торговли сельскохозяйственной продукции, и его власти запретили прокладывать железную дорогу "Уэстерн энд Атлантик" [Western and Atlantic Railroad], которую проложили в обход в поселок Терминус [Terminus], тем самым фактически создав Атланту. Во время Гражданской войны [ Civil War] здесь шли бои за контроль над Атлантой. В пригороде - скала Стоун-Маунтин [ Stone Mountain]

Stevens family

(семейство) Стивенсов

Семья изобретателей, пионеров речного пароходства и паровозной тяги на железных дорогах. Джон Стивенс [Stevens, John] (1749-1838) - инженер, участвовал во внедрении паровых машин на транспорте. Проявил интерес к транспорту на паровой тяге в конце 1780-х. В 1792 подал патентную заявку на усовершенствованный паровой котел и паровую машину, в 1804 построил первый винтовой пароход "Маленькая Джулиана" ["Little Juliana"], который несколько раз пересек р. Хадсон [ Hudson River] (первая в мире паромная переправа на паровой тяге), а в 1809 колесный пароход Стивенса "Феникс" впервые совершил плавание по океану из Нью-Йорка в Филадельфию. С 1810 занялся созданием паровозов. В 1826 построил первый паровоз, который курсировал по замкнутой кольцевой железной дороге в его имении в г. Хобокене, шт. Нью-Джерси. Второй сын Джона Роберт Ливингстон [Stevens, Robert Livingston] (1787-1859) - инженер-механик и изобретатель - участвовал в проектировании более 20 паромов и пароходов. Сконструировал паромные сходни. В 1830 изобрел рельс таврового сечения, а также железнодорожный костыль и усовершенствовал систему строительства железнодорожного полотна. Шестой сын Джона Эдвин Огастес [Stevens, Edwin Augustus] (1795-1868) - инженер, финансист, изобретатель и филантроп - вел финансовые дела семьи. В 1823 изобрел вид плуга. В 1844 продемонстрировал возможность строительства судов с железными бортами. Был казначеем и президентом железной дороги "Камден-Амбой" [Camden and Amboy Railroad]. Завещал средства на создание в г. Хобокене Стивенсовского технологического института [ Stevens Institute of Technology]

stampede

( estampida [estampida] < estampía 'tumultuous race; abrupt departure' < estampar, of Germanic origin, probably from French estamper 'to crush; to mash')

   1) OED: 1826. As a noun, the mass bolting of frenzied cattle. Also, more generally, the sudden bolting of any herd of animals, or even of humans, as in a gold stampede or land stampede.

    Alternate form: stompede.

   2) Calgary, Alberta: 1912. By extension from (1), a southwestern celebration consisting of a rodeo and other contests and exhibitions.

   3) OED: 1823. As an intransitive verb, to take flight suddenly (generally said of a herd of cattle or other animals).

   4) OED: 1848. As a transitive verb, to cause a stampede (1), usually said of humans. This was a technique used by Indians and others to steal cattle. The Royal Academy defines estampida primarily as a sharp, loud noise, such as one made by the firing of a cannon. It also refers to the precipitous flight of a human or animal, or of a group of either of these. Spanish sources do not reference the term as a verb; usages (3) and (4) are extensions of (1).

Locke, Joseph

SUBJECT AREA: Civil engineering, Land transport, Railways and locomotives

[br]

b. 9 August 1805 Attercliffe, Yorkshire, England

d. 18 September 1860 Moffat, Scotland

[br]

English civil engineer who built many important early main-line railways.

[br]

Joseph Locke was the son of a colliery viewer who had known George Stephenson in Northumberland before moving to Yorkshire: Locke himself became a pupil of Stephenson in 1823. He worked with Robert Stephenson at Robert Stephenson \& Co.'s locomotive works and surveyed railways, including the Leeds \& Selby and the Canterbury \& Whitstable, for George Stephenson.

When George Stephenson was appointed Chief Engineer for construction of the Liverpool \& Manchester Railway in 1826, the first resident engineer whom he appointed to work under him was Locke, who took a prominent part in promoting traction by locomotives rather than by fixed engines with cable haulage. The pupil eventually excelled the master and in 1835 Locke was appointed in place of Stephenson as Chief Engineer for construction of the Grand Junction Railway. He introduced double-headed rails carried in chairs on wooden sleepers, the prototype of the bullhead track that became standard on British railways for more than a century. By preparing the most detailed specifications, Locke was able to estimate the cost of the railway much more accurately than was usual at that time, and it was built at a cost close to the estimate; this made his name. He became Engineer to the London \& Southampton Railway and completed the Sheffield, Ashton-under-Lyme \& Manchester Railway, including the 3-mile (3.8 km) Woodhead Tunnel, which had been started by Charles Vignoles. He was subsequently responsible for many British main lines, including those of the companies that extended the West Coast Route northwards from Preston to Scotland. He was also Engineer to important early main lines in France, notably that from Paris to Rouen and its extension to Le Havre, and in Spain and Holland. In 1847 Locke was elected MP for Honiton.

Locke appreciated early in his career that steam locomotives able to operate over gradients steeper than at first thought practicable would be developed. Overall his monument is not great individual works of engineering, such as the famous bridges of his close contemporaries Robert Stephenson and I.K. Brunel, but a series of lines built economically but soundly through rugged country without such works; for example, the line over Shap, Cumbria.

[br]

Principal Honours and Distinctions

Officier de la Légion d'honneur, France. FRS. President, Institution of Civil Engineers 1858–9.

Further Reading

Obituary, 1861, Minutes of Proceedings of the Institution of Civil Engineers 20. L.T.C.Rolt, 1962, Great Engineers, London: G. Bell \& Sons, ch. 6.

Industrial Heritage, 1991, Vol. 9(2):9.

See also: Brassey, Thomas

PJGR

Siemens, Sir Charles William

SUBJECT AREA: Electricity, Metallurgy, Public utilities, Telecommunications

[br]

b. 4 April 1823 Lenthe, Germany

d. 19 November 1883 London, England

[br]

German/British metallurgist and inventory pioneer of the regenerative principle and open-hearth steelmaking.

[br]

Born Carl Wilhelm, he attended craft schools in Lübeck and Magdeburg, followed by an intensive course in natural science at Göttingen as a pupil of Weber. At the age of 19 Siemens travelled to England and sold an electroplating process developed by his brother Werner Siemens to Richard Elkington, who was already established in the plating business. From 1843 to 1844 he obtained practical experience in the Magdeburg works of Count Stolburg. He settled in England in 1844 and later assumed British nationality, but maintained close contact with his brother Werner, who in 1847 had co-founded the firm Siemens \& Halske in Berlin to manufacture telegraphic equipment. William began to develop his regenerative principle of waste-heat recovery and in 1856 his brother Frederick (1826–1904) took out a British patent for heat regeneration, by which hot waste gases were passed through a honeycomb of fire-bricks. When they became hot, the gases were switched to a second mass of fire-bricks and incoming air and fuel gas were led through the hot bricks. By alternating the two gas flows, high temperatures could be reached and considerable fuel economies achieved. By 1861 the two brothers had incorporated producer gas fuel, made by gasifying low-grade coal.

Heat regeneration was first applied in ironmaking by Cowper in 1857 for heating the air blast in blast furnaces. The first regenerative furnace was set up in Birmingham in 1860 for glassmaking. The first such furnace for making steel was developed in France by Pierre Martin and his father, Emile, in 1863. Siemens found British steelmakers reluctant to adopt the principle so in 1866 he rented a small works in Birmingham to develop his open-hearth steelmaking furnace, which he patented the following year. The process gradually made headway; as well as achieving high temperatures and saving fuel, it was slower than Bessemer's process, permitting greater control over the content of the steel. By 1900 the tonnage of open-hearth steel exceeded that produced by the Bessemer process.

In 1872 Siemens played a major part in founding the Society of Telegraph Engineers (from which the Institution of Electrical Engineers evolved), serving as its first President. He became President for the second time in 1878. He built a cable works at Charlton, London, where the cable could be loaded directly into the holds of ships moored on the Thames. In 1873, together with William Froude, a British shipbuilder, he designed the Faraday, the first specialized vessel for Atlantic cable laying. The successful laying of a cable from Europe to the United States was completed in 1875, and a further five transatlantic cables were laid by the Faraday over the following decade.

The Siemens factory in Charlton also supplied equipment for some of the earliest electric-lighting installations in London, including the British Museum in 1879 and the Savoy Theatre in 1882, the first theatre in Britain to be fully illuminated by electricity. The pioneer electric-tramway system of 1883 at Portrush, Northern Ireland, was an opportunity for the Siemens company to demonstrate its equipment.

[br]

Principal Honours and Distinctions

Knighted 1883. FRS 1862. Institution of Civil Engineers Telford Medal 1853. President, Institution of Mechanical Engineers 1872. President, Society of Telegraph Engineers 1872 and 1878. President, British Association 1882.

Bibliography

27 May 1879, British patent no. 2,110 (electricarc furnace).

1889, The Scientific Works of C.William Siemens, ed. E.F.Bamber, 3 vols, London.

Further Reading

W.Poles, 1888, Life of Sir William Siemens, London; repub. 1986 (compiled from material supplied by the family).

S.von Weiher, 1972–3, "The Siemens brothers. Pioneers of the electrical age in Europe", Transactions of the Newcomen Society 45:1–11 (a short, authoritative biography). S.von Weihr and H.Goetler, 1983, The Siemens Company. Its Historical Role in the

Progress of Electrical Engineering 1847–1980, English edn, Berlin (a scholarly account with emphasis on technology).

GW