(1819-1821)

Bligh's House of Lords Reports

Юридический термин: сборник судебных решений палаты лордов (составитель Блай, 1819-1821), сборник судебных решений палаты лордов, составитель Блай (1819-1821)

Jacob and Walker's Chancery Reports

Юридический термин: сборник решений канцлерского суда (составители Джейкоб и Уокер, 1819-1821), сборник решений канцлерского суда, составители Джейкоб и Уокер (1819-1821)

Bli.

сокр. от Bligh's House of Lords Reports

сборник судебных решений палаты лордов, составитель Блай (1819-1821)

J.&W.

сокр. от Jacob and Walker's Chancery Reports

сборник решений канцлерского суда, составители Джейкоб и Уокер (1819-1821)

Arkansas Democrat-Gazette

"Арканзас демократ-газетт"

Ежедневная утренняя газета, одна из наиболее влиятельных газет штата Арканзас. Под названием "Арканзас газетт" [Arkansas Gazette] была основана в Арканзасском посту [ Arkansas Post] в 1819. С 1821 издается в г. Литл-Рок. Старейшая газета штата и старейшая газета к западу от р. Миссисипи [ Mississippi River]. В 1991 слилась с "Арканзас демократ" [Arkansas Democrat] под новым названием. Тираж 172,2 тыс. экз. (2000).

тж Little Rock Democrat-Gazette

Jackson

Джексон

1) Город на западе штата Миссисипи на р. Перл [Pearl River] в Примексиканской низменности. Административный центр и крупнейший город штата. 184,2 тыс. жителей (2000). Основан в 1821 на месте французской фактории [ trading post], существовавшей с 1792; статус города с 1833. Торгово-финансовый и промышленный центр штата (электротехника, деревообработка, мебельная промышленность). В городе пересекаются федеральные автострады номер 20 и 55 [ interstate highway], три железных дороги; аэропорт обслуживает 6 авиалиний. Пять теле- и 26 радиостанций. Во время Гражданской войны [ Civil War] после сражения при Виксберге [ Vicksburg] (1863) город был разрушен войсками генерала У. Шермана [ Sherman, William Tecumseh]. Бурное развитие города началось после открытия в 1900 месторождений природного газа. Среди достопримечательностей: известный памятник конфедератам, национальный военно-исторический заповедник Виксберг [ Vicksburg National Military Park], Старый капитолий [Old Capitol] (1833) - музей истории штата, Новый капитолий [New Capitol] (1903) - копия вашингтонского Капитолия [ Capitol]. Два университета (в том числе Университет штата в Джексоне [Jackson State University], основанный как негритянский колледж [ black college] в 1877), 4 колледжа. Популярное место отдыха - водохранилище на р. Перл [Pearl River-Ross Barnet Reservoir]

2) Город на западе штата Теннесси. 59,6 тыс. жителей (2000). Основан в 1819 как торговый порт Александрия [Alexandria] на р. Форкт-Дир [Forked Deer River], в 1822 назван в честь президента Э. Джонсона [ Johnson, Andrew]. Торговый центр сельскохозяйственного района. Деревообработка, мебельная, пищевая промышленность. Университет Юнион [Union University] (1825), Университет Лэмбут [Lambuth University] (1843), Колледж Лейн [Lane College] (1882), местный колледж [ community college]. Здесь родился и похоронен железнодорожник Кейси Джонс [ Jones, Casey], в его доме создан железнодорожный музей

3) Город на юге штата Мичиган, на р. Гранд-Ривер [ Grand River]. 36,3 тыс. жителей (2000). Основан в 1829, статус города с 1857. Промышленный, торговый центр сельскохозяйственного района. Машиностроение (производство автодеталей, инструментов, радиоаппаратуры). Фармацевтическая промышленность. Здесь 6 июля 1854 здесь состоялся учредительный съезд Республиканской партии [ Republican Party]

Leavenworth, Henry

(1783-1834) Левенуэрт, Генри

Профессиональный военный. В начале Войны 1812 [ War of 1812] - пехотный капитан, в 1813 - майор. Отличился в боях. В течение 16 лет служил на Фронтире [ Frontier] - на Северо-Западе и на Юго-Западе. В 1819 основал форт Снеллинг [ Fort Snelling], в 1821 - командир форта Аткинсон, в 1826 - командир пехотного полка в Висконсине. Незадолго до смерти в 1834 назначен командующим всех войск на Юго-Западной границе. Его имя носит укрепленный форт в нынешнем Канзасе [ Fort Leavenworth]

Carnot, Nicolas Léonard Sadi

SUBJECT AREA: Steam and internal combustion engines

[br]

b. 1 June 1796 Paris, France

d. 24 August 1831 Paris, France

[br]

French laid the foundations for modern thermodynamics through his book Réflexions sur la puissance motrice du feu when he stated that the efficiency of an engine depended on the working substance and the temperature drop between the incoming and outgoing steam.

[br]

Sadi was the eldest son of Lazare Carnot, who was prominent as one of Napoleon's military and civil advisers. Sadi was born in the Palais du Petit Luxembourg and grew up during the Napoleonic wars. He was tutored by his father until in 1812, at the minimum age of 16, he entered the Ecole Polytechnique to study stress analysis, mechanics, descriptive geometry and chemistry. He organized the students to fight against the allies at Vincennes in 1814. He left the Polytechnique that October and went to the Ecole du Génie at Metz as a student second lieutenant. While there, he wrote several scientific papers, but on the Restoration in 1815 he was regarded with suspicion because of the support his father had given Napoleon. In 1816, on completion of his studies, Sadi became a second lieutenant in the Metz engineering regiment and spent his time in garrison duty, drawing up plans of fortifications. He seized the chance to escape from this dull routine in 1819 through an appointment to the army general staff corps in Paris, where he took leave of absence on half pay and began further courses of study at the Sorbonne, Collège de France, Ecole des Mines and the Conservatoire des Arts et Métiers. He was inter-ested in industrial development, political economy, tax reform and the fine arts.

It was not until 1821 that he began to concentrate on the steam-engine, and he soon proposed his early form of the Carnot cycle. He sought to find a general solution to cover all types of steam-engine, and reduced their operation to three basic stages: an isothermal expansion as the steam entered the cylinder; an adiabatic expansion; and an isothermal compression in the condenser. In 1824 he published his Réflexions sur la puissance motrice du feu, which was well received at the time but quickly forgotten. In it he accepted the caloric theory of heat but pointed out the impossibility of perpetual motion. His main contribution to a correct understanding of a heat engine, however, lay in his suggestion that power can be produced only where there exists a temperature difference due "not to an actual consumption of caloric but to its transportation from a warm body to a cold body". He used the analogy of a water-wheel with the water falling around its circumference. He proposed the true Carnot cycle with the addition of a final adiabatic compression in which motive power was con sumed to heat the gas to its original incoming temperature and so closed the cycle. He realized the importance of beginning with the temperature of the fire and not the steam in the boiler. These ideas were not taken up in the study of thermodynartiics until after Sadi's death when B.P.E.Clapeyron discovered his book in 1834.

In 1824 Sadi was recalled to military service as a staff captain, but he resigned in 1828 to devote his time to physics and economics. He continued his work on steam-engines and began to develop a kinetic theory of heat. In 1831 he was investigating the physical properties of gases and vapours, especially the relationship between temperature and pressure. In June 1832 he contracted scarlet fever, which was followed by "brain fever". He made a partial recovery, but that August he fell victim to a cholera epidemic to which he quickly succumbed.

[br]

Bibliography

1824, Réflexions sur la puissance motrice du feu; pub. 1960, trans. R.H.Thurston, New York: Dover Publications; pub. 1978, trans. Robert Fox, Paris (full biographical accounts are provided in the introductions of the translated editions).

Further Reading

Dictionary of Scientific Biography, 1971, Vol. III, New York: C.Scribner's Sons. T.I.Williams (ed.), 1969, A Biographical Dictionary of Scientists, London: A. \& C.

Black.

Chambers Concise Dictionary of Scientists, 1989, Cambridge.

D.S.L.Cardwell, 1971, from Watt to Clausius. The Rise of Thermodynamics in the Early Industrial Age, London: Heinemann (discusses Carnot's theories of heat).

RLH

Donkin, Bryan I

SUBJECT AREA: Mechanical, pneumatic and hydraulic engineering, Paper and printing

[br]

b. 22 March 1768 Sandoe, Northumberland, England

d. 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 Distinctions

FRS 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 Reading

S.B.Donkin, 1949–51, "Bryan Donkin, FRS, MICE 1768–1855", Transactions of the Newcomen Society 27:85–95.

RTS

Giles, Francis

SUBJECT AREA: Canals, Civil engineering, Ports and shipping

[br]

b. 1787 England

d. 4 March 1847 England

[br]

English civil engineer engaged in canal, harbour and railway construction.

[br]

Trained as a surveyor in John Rennie's organization, Giles carried out surveys on behalf of Rennie before setting up in practice on his own. His earliest survey seems to have been on the line of the proposed Weald of Kent Canal in 1809. Then in 1811 he surveyed the proposed London \& Cambridge Canal linking Bishops Stortford on the Stort with Cambridge and with a branch to Shefford on the Ivel. In the same year he surveyed the line of the Wey \& Arun Junction Canal, and in 1816, in the same area, the Portsmouth \& Arundel Canal. In 1819 he carried out what is regarded as his first independent commission—the extension of the River Ivel Navigation from Biggleswade to Shefford. At this time he was helping John Rennie on the Aire \& Calder Navigation and continued there after Rennie's death in 1821. In 1825 he was engaged on plans for a London to Portsmouth Ship Canal and also on a suggested link between the Basingstoke and Kennet \& Avon Canals. Later, on behalf of Sir George Duckett, he was Engineer to the Hertford Union Canal, which was completed in 1830, and linked the Regent's Canal to the Lee Navigation. In 1833 he completed the extension of the Sankey Brook Navigation from Fiddler's Ferry to the Mersey at Widnes. One of his last canal works was a survey of the River Lee in 1844. Apart from his canal work, he was appointed Engineer to the Newcastle \& Carlisle Railway in 1829 and designed, among other works, the fine viaducts at Wetheral and Cor by. He was also, for a very short time, Engineer to the London \& Southampton Railway. Among other commissions, he was involved in harbour surveys and works at Dover, Rye, Holyhead, Dundee, Bridport and Dun Laoghaire (Kingstown). He was elected a member of the Institution of Civil Engineers in 1842 and succeeded Telford on the Exchequer Bill Loans Board.

[br]

Further Reading

1848, Memoir 17, London: Institution of Civil Engineers, 9.

JHB

Herschel, John Frederick William

SUBJECT AREA: Photography, film and optics

[br]

b. 7 March 1792 Slough, England

d. 11 May 1871 Collingwood, England

[br]

English scientist who introduced "hypo" (thiosulphate) as a photographic fixative and discovered the blueprint process.

[br]

The only son of Sir William Herschel, the famous astronomer, John graduated from Cambridge in 1813 and went on to become a distinguished astronomer, mathematician and chemist. He left England in November 1833 to set up an observatory near Cape Town, South Africa, where he embarked on a study of the heavens in the southern hemisphere. He returned to England in the spring of 1838, and between 1850 and 1855 Herschel served as Master of the Royal Mint. He made several notable contributions to photography, perhaps the most important being his discovery in 1819 that hyposulphites (thiosulphates) would dissolve silver salts. He brought this property to the attention of W.H.F. Talbot, who in 1839 was using a common salt solution as a fixing agent for his early photographs. After trials, Talbot adopted "hypo", which was a far more effective fixative. It was soon adopted by other photographers and eventually became the standard photographic fixative, as it still is in the 1990s. After hearing of the first photographic process in January 1839, Herschel devised his own process within a week. In September 1839 he made the first photograph on glass. He is credited with introducing the words "positive", "negative" and "snapshot" to photography, and in 1842 he invented the cyanotype or "blueprint" process. This process was later to be widely adopted by engineers and architects for the reproduction of plans and technical drawings, a practice abandoned only in the late twentieth century.

[br]

Principal Honours and Distinctions

Knight of the Royal Hanoverian Guelphic Order 1831. Baronet 1838. FRS 1813. Copley Medal 1821.

Further Reading

Dictionary of National Biography, 1968, Vol. IX, pp. 714–19.

H.J.P.Arnold, 1977, William Henry Fox Talbot, London; Larry J.Schaaf, 1992, Out of the Shadows: Herschel, Talbot and the Invention of Photography, Newhaven and London (for details of his contributions to photography and his relationship with Talbot).

JW

Stephenson, George

SUBJECT AREA: Land transport, Railways and locomotives

[br]

b. 9 June 1781 Wylam, Northumberland, England

d. 12 August 1848 Tapton House, Chesterfield, England

[br]

English engineer, "the father of railways".

[br]

George Stephenson was the son of the fireman of the pumping engine at Wylam colliery, and horses drew wagons of coal along the wooden rails of the Wylam wagonway past the house in which he was born and spent his earliest childhood. While still a child he worked as a cowherd, but soon moved to working at coal pits. At 17 years of age he showed sufficient mechanical talent to be placed in charge of a new pumping engine, and had already achieved a job more responsible than that of his father. Despite his position he was still illiterate, although he subsequently learned to read and write. He was largely self-educated.

In 1801 he was appointed Brakesman of the winding engine at Black Callerton pit, with responsibility for lowering the miners safely to their work. Then, about two years later, he became Brakesman of a new winding engine erected by Robert Hawthorn at Willington Quay on the Tyne. Returning collier brigs discharged ballast into wagons and the engine drew the wagons up an inclined plane to the top of "Ballast Hill" for their contents to be tipped; this was one of the earliest applications of steam power to transport, other than experimentally.

In 1804 Stephenson moved to West Moor pit, Killingworth, again as Brakesman. In 1811 he demonstrated his mechanical skill by successfully modifying a new and unsatisfactory atmospheric engine, a task that had defeated the efforts of others, to enable it to pump a drowned pit clear of water. The following year he was appointed Enginewright at Killingworth, in charge of the machinery in all the collieries of the "Grand Allies", the prominent coal-owning families of Wortley, Liddell and Bowes, with authorization also to work for others. He built many stationary engines and he closely examined locomotives of John Blenkinsop's type on the Kenton \& Coxlodge wagonway, as well as those of William Hedley at Wylam.

It was in 1813 that Sir Thomas Liddell requested George Stephenson to build a steam locomotive for the Killingworth wagonway: Blucher made its first trial run on 25 July 1814 and was based on Blenkinsop's locomotives, although it lacked their rack-and-pinion drive. George Stephenson is credited with building the first locomotive both to run on edge rails and be driven by adhesion, an arrangement that has been the conventional one ever since. Yet Blucher was far from perfect and over the next few years, while other engineers ignored the steam locomotive, Stephenson built a succession of them, each an improvement on the last.

During this period many lives were lost in coalmines from explosions of gas ignited by miners' lamps. By observation and experiment (sometimes at great personal risk) Stephenson invented a satisfactory safety lamp, working independently of the noted scientist Sir Humphry Davy who also invented such a lamp around the same time.

In 1817 George Stephenson designed his first locomotive for an outside customer, the Kilmarnock \& Troon Railway, and in 1819 he laid out the Hetton Colliery Railway in County Durham, for which his brother Robert was Resident Engineer. This was the first railway to be worked entirely without animal traction: it used inclined planes with stationary engines, self-acting inclined planes powered by gravity, and locomotives.

On 19 April 1821 Stephenson was introduced to Edward Pease, one of the main promoters of the Stockton \& Darlington Railway (S \& DR), which by coincidence received its Act of Parliament the same day. George Stephenson carried out a further survey, to improve the proposed line, and in this he was assisted by his 18-year-old son, Robert Stephenson, whom he had ensured received the theoretical education which he himself lacked. It is doubtful whether either could have succeeded without the other; together they were to make the steam railway practicable.

At George Stephenson's instance, much of the S \& DR was laid with wrought-iron rails recently developed by John Birkinshaw at Bedlington Ironworks, Morpeth. These were longer than cast-iron rails and were not brittle: they made a track well suited for locomotives. In June 1823 George and Robert Stephenson, with other partners, founded a firm in Newcastle upon Tyne to build locomotives and rolling stock and to do general engineering work: after its Managing Partner, the firm was called Robert Stephenson \& Co.

In 1824 the promoters of the Liverpool \& Manchester Railway (L \& MR) invited George Stephenson to resurvey their proposed line in order to reduce opposition to it. William James, a wealthy land agent who had become a visionary protagonist of a national railway network and had seen Stephenson's locomotives at Killingworth, had promoted the L \& MR with some merchants of Liverpool and had carried out the first survey; however, he overreached himself in business and, shortly after the invitation to Stephenson, became bankrupt. In his own survey, however, George Stephenson lacked the assistance of his son Robert, who had left for South America, and he delegated much of the detailed work to incompetent assistants. During a devastating Parliamentary examination in the spring of 1825, much of his survey was shown to be seriously inaccurate and the L \& MR's application for an Act of Parliament was refused. The railway's promoters discharged Stephenson and had their line surveyed yet again, by C.B. Vignoles.

The Stockton \& Darlington Railway was, however, triumphantly opened in the presence of vast crowds in September 1825, with Stephenson himself driving the locomotive Locomotion, which had been built at Robert Stephenson \& Co.'s Newcastle works. Once the railway was at work, horse-drawn and gravity-powered traffic shared the line with locomotives: in 1828 Stephenson invented the horse dandy, a wagon at the back of a train in which a horse could travel over the gravity-operated stretches, instead of trotting behind.

Meanwhile, in May 1826, the Liverpool \& Manchester Railway had successfully obtained its Act of Parliament. Stephenson was appointed Engineer in June, and since he and Vignoles proved incompatible the latter left early in 1827. The railway was built by Stephenson and his staff, using direct labour. A considerable controversy arose c. 1828 over the motive power to be used: the traffic anticipated was too great for horses, but the performance of the reciprocal system of cable haulage developed by Benjamin Thompson appeared in many respects superior to that of contemporary locomotives. The company instituted a prize competition for a better locomotive and the Rainhill Trials were held in October 1829.

Robert Stephenson had been working on improved locomotive designs since his return from America in 1827, but it was the L \& MR's Treasurer, Henry Booth, who suggested the multi-tubular boiler to George Stephenson. This was incorporated into a locomotive built by Robert Stephenson for the trials: Rocket was entered by the three men in partnership. The other principal entrants were Novelty, entered by John Braithwaite and John Ericsson, and Sans Pareil, entered by Timothy Hackworth, but only Rocket, driven by George Stephenson, met all the organizers' demands; indeed, it far surpassed them and demonstrated the practicability of the long-distance steam railway. With the opening of the Liverpool \& Manchester Railway in 1830, the age of railways began.

Stephenson was active in many aspects. He advised on the construction of the Belgian State Railway, of which the Brussels-Malines section, opened in 1835, was the first all-steam railway on the European continent. In England, proposals to link the L \& MR with the Midlands had culminated in an Act of Parliament for the Grand Junction Railway in 1833: this was to run from Warrington, which was already linked to the L \& MR, to Birmingham. George Stephenson had been in charge of the surveys, and for the railway's construction he and J.U. Rastrick were initially Principal Engineers, with Stephenson's former pupil Joseph Locke under them; by 1835 both Stephenson and Rastrick had withdrawn and Locke was Engineer-in-Chief. Stephenson remained much in demand elsewhere: he was particularly associated with the construction of the North Midland Railway (Derby to Leeds) and related lines. He was active in many other places and carried out, for instance, preliminary surveys for the Chester \& Holyhead and Newcastle \& Berwick Railways, which were important links in the lines of communication between London and, respectively, Dublin and Edinburgh.

He eventually retired to Tapton House, Chesterfield, overlooking the North Midland. A man who was self-made (with great success) against colossal odds, he was ever reluctant, regrettably, to give others their due credit, although in retirement, immensely wealthy and full of honour, he was still able to mingle with people of all ranks.

[br]

Principal Honours and Distinctions

President, Institution of Mechanical Engineers, on its formation in 1847. Order of Leopold (Belgium) 1835. Stephenson refused both a knighthood and Fellowship of the Royal Society.

Bibliography

1815, jointly with Ralph Dodd, British patent no. 3,887 (locomotive drive by connecting rods directly to the wheels).

1817, jointly with William Losh, British patent no. 4,067 (steam springs for locomotives, and improvements to track).

Further Reading

L.T.C.Rolt, 1960, George and Robert Stephenson, Longman (the best modern biography; includes a bibliography).

S.Smiles, 1874, The Lives of George and Robert Stephenson, rev. edn, London (although sycophantic, this is probably the best nineteenthcentury biography).

PJGR