(1796-1804)

Bosanquet and Puller's Common Pleas Reports

Юридический термин: сборник решений суда общих тяжб (составители Босанкет и Пуллер, 1796-1804), сборник решений суда общих тяжб, составители Босанкет и Пуллер (1796-1804)

B.&P.

сокр. от Bosanquet and Puller's Common Pleas Reports

сборник решений суда общих тяжб, составители Босанкет и Пуллер (1796-1804)

Bos.&P.

сокр. от Bosanquet and Puller's Common Pleas Reports

сборник решений суда общих тяжб, составители Босанкет и Пуллер (1796-1804)

Land Acts

законы о земле

Принимались в 1796, 1800, 1804, 1820, 1841. Закон 1796 утвердил основные положения Ордонанса о земле 1785 [ Land Ordinance of 1785]. Установил условия продажи государственных земель (участок в 640 акров по цене 2 доллара за акр). Закон 1800 уменьшил участки продаваемых земель до 320 акров, закон 1804 - до 160 акров, 1820 - до 80 акров. Продажа государственных земель способствовала утверждению частной собственности на землю.

см тж Distribution-Preemption Act, Homestead Act

Jessop, William

SUBJECT AREA: Canals, Civil engineering, Ports and shipping, Railways and locomotives

[br]

b. 23 January 1745 Plymouth, England

d. 18 November 1814

[br]

English engineer engaged in river, canal and dock construction.

[br]

William Jessop inherited from his father a natural ability in engineering, and because of his father's association with John Smeaton in the construction of Eddystone Lighthouse he was accepted by Smeaton as a pupil in 1759 at the age of 14. Smeaton was so impressed with his ability that Jessop was retained as an assistant after completion of his pupilage in 1767. As such he carried out field-work, making surveys on his own, but in 1772 he was recommended to the Aire and Calder Committee as an independent engineer and his first personally prepared report was made on the Haddlesey Cut, Selby Canal. It was in this report that he gave his first evidence before a Parliamentary Committee. He later became Resident Engineer on the Selby Canal, and soon after he was elected to the Smeatonian Society of Engineers, of which he later became Secretary for twenty years. Meanwhile he accompanied Smeaton to Ireland to advise on the Grand Canal, ultimately becoming Consulting Engineer until 1802, and was responsible for Ringsend Docks, which connected the canal to the Liffey and were opened in 1796. From 1783 to 1787 he advised on improvements to the River Trent, and his ability was so recognized that it made his reputation. From then on he was consulted on the Cromford Canal (1789–93), the Leicester Navigation (1791–4) and the Grantham Canal (1793–7); at the same time he was Chief Engineer of the Grand Junction Canal from 1793 to 1797 and then Consulting Engineer until 1805. He also engineered the Barnsley and Rochdale Canals. In fact, there were few canals during this period on which he was not consulted. It has now been established that Jessop carried the responsibility for the Pont-Cysyllte Aqueduct in Wales and also prepared the estimates for the Caledonian Canal in 1804. In 1792 he became a partner in the Butterley ironworks and thus became interested in railways. He proposed the Surrey Iron Railway in 1799 and prepared for the estimates; the line was built and opened in 1805. He was also the Engineer for the 10 mile (16 km) long Kilmarnock \& Troon Railway, the Act for which was obtained in 1808 and was the first Act for a public railway in Scotland. Jessop's advice was sought on drainage works between 1785 and 1802 in the lowlands of the Isle of Axholme, Holderness, the Norfolk Marshlands, and the Axe and Brue area of the Somerset Levels. He was also consulted on harbour and dock improvements. These included Hull (1793), Portsmouth (1796), Folkestone (1806) and Sunderland (1807), but his greatest dock works were the West India Docks in London and the Floating Harbour at Bristol. He was Consulting Engineer to the City of London Corporation from 1796to 1799, drawing up plans for docks on the Isle of Dogs in 1796; in February 1800 he was appointed Engineer, and three years later, in September 1803, he was appointed Engineer to the Bristol Floating Harbour. Jessop was regarded as the leading civil engineer in the country from 1785 until 1806. He died following a stroke in 1814.

[br]

Further Reading

C.Hadfield and A.W.Skempton, 1979, William Jessop. Engineer, Newton Abbot: David \& Charles.

JHB

Jackson, Andrew

(1767-1845) Джексон, Эндрю

7-й президент США [ President, U.S.] (в 1829-37), военный и государственный деятель. Происходил из небогатой семьи ирландских иммигрантов. Систематического образования не получил. Начал политическую карьеру как член конституционного конвента Теннесси (1796), был первым конгрессменом от этого штата (1796-97), сенатором (1797-98), членом верховного суда штата (1798-1804). Как командир ополчения [ militia] Теннесси, стал национальным героем в период англо-американской войны 1812-14 [ War of 1812] на ее последнем этапе. Отличился в Крикской войне [ Creek Wars] (в марте 1814 одержал решающую победу над индейцами крик в битве у излучины Хорсшу-Бенд [ Horseshoe Bend, Battle of]). Отбил попытку вторжения англичан в Новом Орлеане [ New Orleans, Battle of] (1815), за что получил прозвище "Крепкий орешек" [ Old Hickory]. В 1818 подавил восстание индейцев-семинолов [ Seminole Wars]. Опираясь на поддержку плантаторов Юга, фермеров Запада, а также новой буржуазии и рабочих, одержал победу на президентских выборах 1828. После победы на выборах уволил более 2 тыс. чиновников и назначил на их места своих сторонников, тем самым создав прецедент "дележа добычи" [ spoils system]; ему же принадлежит роль создателя первого "кухонного кабинета" [ kitchen cabinet]. Политическая группировка, образовавшаяся вокруг Джексона, положила начало Демократической партии [ Democratic Party, Jacksonian Democracy], а оппозиция в ответ создала партию вигов [ Whig Party]. Так были заложены основы двухпартийной системы. На посту президента выступал за демократизацию избирательной системы и против монопольных привилегий центрального банка США, функции которого выполнял Второй банк Соединенных Штатов [ Second Bank of the United States] в г. Филадельфии. В 1828 Джексон направил войска в Южную Каролину после ее отказа подчиниться федеральным законам о тарифах. В 1835 благодаря его усилиям был выплачен национальный долг США. В 1910 избран в национальную Галерею славы [ Hall of Fame]

Cayley, Sir George

SUBJECT AREA: Aerospace

[br]

b. 27 December 1773 Scarborough, England

d. 15 December 1857 Brompton Hall, Yorkshire, England

[br]

English pioneer who laid down the basic principles of the aeroplane in 1799 and built a manned glider in 1853.

[br]

Cayley was born into a well-to-do Yorkshire family living at Brompton Hall. He was encouraged to study mathematics, navigation and mechanics, particularly by his mother. In 1792 he succeeded to the baronetcy and took over the daunting task of revitalizing the run-down family estate.

The first aeronautical device made by Cayley was a copy of the toy helicopter invented by the Frenchmen Launoy and Bienvenu in 1784. Cayley's version, made in 1796, convinced him that a machine could "rise in the air by mechanical means", as he later wrote. He studied the aerodynamics of flight and broke away from the unsuccessful ornithopters of his predecessors. In 1799 he scratched two sketches on a silver disc: one side of the disc showed the aerodynamic force on a wing resolved into lift and drag, and on the other side he illustrated his idea for a fixed-wing aeroplane; this disc is preserved in the Science Museum in London. In 1804 he tested a small wing on the end of a whirling arm to measure its lifting power. This led to the world's first model glider, which consisted of a simple kite (the wing) mounted on a pole with an adjustable cruciform tail. A full-size glider followed in 1809 and this flew successfully unmanned. By 1809 Cayley had also investigated the lifting properties of cambered wings and produced a low-drag aerofoil section. His aim was to produce a powered aeroplane, but no suitable engines were available. Steam-engines were too heavy, but he experimented with a gunpowder motor and invented the hot-air engine in 1807. He published details of some of his aeronautical researches in 1809–10 and in 1816 he wrote a paper on airships. Then for a period of some twenty-five years he was so busy with other activities that he largely neglected his aeronautical researches. It was not until 1843, at the age of 70, that he really had time to pursue his quest for flight. The Mechanics' Magazine of 8 April 1843 published drawings of "Sir George Cayley's Aerial Carriage", which consisted of a helicopter design with four circular lifting rotors—which could be adjusted to become wings—and two pusher propellers. In 1849 he built a full-size triplane glider which lifted a boy off the ground for a brief hop. Then in 1852 he proposed a monoplane glider which could be launched from a balloon. Late in 1853 Cayley built his "new flyer", another monoplane glider, which carried his coachman as a reluctant passenger across a dale at Brompton, Cayley became involved in public affairs and was MP for Scarborough in 1832. He also took a leading part in local scientific activities and was co-founder of the British Association for the Advancement of Science in 1831 and of the Regent Street Polytechnic Institution in 1838.

[br]

Bibliography

Cayley wrote a number of articles and papers, the most significant being "On aerial navigation", Nicholson's Journal of Natural Philosophy (November 1809—March 1810) (published in three numbers); and two further papers with the same title in Philosophical Magazine (1816 and 1817) (both describe semi-rigid airships).

Further Reading

L.Pritchard, 1961, Sir George Cayley, London (the standard work on the life of Cayley).

C.H.Gibbs-Smith, 1962, Sir George Cayley's Aeronautics 1796–1855, London (covers his aeronautical achievements in more detail).

—1974, "Sir George Cayley, father of aerial navigation (1773–1857)", Aeronautical Journal (Royal Aeronautical Society) (April) (an updating paper).

JDS

Marshall, William

SUBJECT AREA: Agricultural and food technology

[br]

b. baptized 28 July 1745 Yorkshire, England

d. 1818 Pickering, Yorkshire, England

[br]

English commentator and writer on agriculture who established the first agricultural college in Britain.

[br]

Little is known for certain about William Marshall's early life, other than that he was baptized at Sinnington in the West Riding of Yorkshire. On his own account he was involved in trade in the West Indies from the age of 15 for a period of fourteen years. It is assumed that he was financially successful in this, for on his return to England in 1774 he was able to purchase Addisham Farm in Surrey. Having sacked his bailiff he determined to keep a minute book relating to all transactions on the farm, which he was now managing for himself. On these entries he made additional comments. The publication of these writings was the beginning of a substantial review of agriculture in Britain and a criticism of existing practices. From 1779 he acted as agent on a Norfolk estate, and his five years in that position resulted in The Rural Economy of Norfolk, the first of a series of county reviews that he was to write, intending the somewhat ambitious task of surveying the whole country. By 1808 Marshall had accumulated sufficient capital to be able to purchase a substantial property in the Vale of Cleveland, where he lived for the rest of his life. At the time of his death he was engaged in the erection of a building to serve as an agricultural college; the same building is now a rural-life museum.

[br]

Bibliography

Other titles in his Rural Economy series included Yorkshire in 1788, Gloucester in 1789, The Midland Counties in 1790, The West of England in 1796, and The Southern Counties two years later. Further titles included Experiments and Observations Concerning Agriculture and the Weather in 1779, Observations on the Different Breeds of Sheep in 1792, The General View of the Agriculture of Central Highland

Scotland in 1794, and Planting and Rural Ornament in 1796. He also wrote On the Enclosure of Commonable and Intermixed Lands in 1801, On the Landed Property of England, an Elementary Practical Treatise in 1804, and On the Management of Landed Estates in 1806. He was not asked to write any of the County Surveys produced by the Board of Agriculture, despite his own claims to the origin of the idea. Instead in 1817 he wrote A Review and Complete Abstract of the Reports of the Board of Agriculture as his own criticism of them.

Further Reading

Joan Thirsk, 1989, The Agrarian History of England and Wales, Vol. VI (deals with the years 1750 to 1850, the period associated with Marshall).

Pamela Horn, 1982, William Marshall (1745–1818) and the Georgian Countryside, Beacon (gives a more specific account).

AP

Jefferson, Thomas

(1743-1826) Джефферсон, Томас

3-й президент США [ President, U.S.] (в 1801-09), государственный и политический деятель, один из "отцов-основателей" [ Founding Fathers] страны. В 1762 окончил Колледж Вильгельма и Марии [ William and Mary College], с 1767 занимался адвокатской практикой. В 1769 начал политическую деятельность в качестве члена законодательного собрания Вирджинии. В ответ на Репрессивные законы [ Intolerable Acts] (1774) написал "Общий обзор прав Британской Америки" ["Summary View of the Rights of British America"], в котором полностью отвергал притязания Англии на управление колониями. В 1775 избран делегатом на Второй Континентальный конгресс [ Continental Congresses]. Возглавил комитет из пяти человек по составлению Декларации независимости [ Declaration of Independence] и стал ее основным автором. Ему, в частности, принадлежат слова из Декларации: "Мы исходим из той самоочевидной истины, что все люди созданы равными и наделены Создателем определенными неотъемлемыми правами, среди которых право на жизнь, свободу и стремление к счастью" ["We hold these truths to be self-evident, that all men are created equal, that they are endowed by their Creator with certain unalienable rights, that among these are Life, Liberty and the pursuit of Happiness"]. В 1779-81 был губернатором Вирджинии, затем избран в Конгресс. В 1785-89 посол США во Франции; сменил на этом посту Б. Франклина [ Franklin, Benjamin]. В администрации Вашингтона [ Washington, George] был госсекретарем [ Secretary of State]. Автор идеи создания светского государства, выступал за демократический характер развития общества [ Jeffersonian Democracy], главный оппонент А. Гамильтона [ Hamilton, Alexander] по этому вопросу; создал Демократическую-Республиканскую партию [ Democratic-Republican Party]. Исповедовал идеалы Просвещения. В результате выборов 1796 стал вице-президентом. Занимая этот пост, написал "Учебник парламентской практики" ["Manual of Parliamentary Practice"] и вместе с Дж. Мэдисоном [ Madison, James] составил Резолюции Кентукки и Вирджинии [ Kentucky and Virginia Resolutions]. На выборах 1800 набрал равное число голосов с А. Бэрром [ Burr, Aaron], поэтому на пост президента был избран Конгрессом. Его президентство отмечено достижениями во внешней политике, в освоении Фронтира [ Frontier], более сбалансированным бюджетом и сокращением национального долга. Джефферсон добился подписания с Францией договора о покупке Луизианы [ Louisiana Purchase] (1803), отправил на Запад экспедицию Льюиса и Кларка [ Lewis and Clark Expedition]. В 1804 был переизбран на второй срок. Второй срок его президентства был отмечен усилиями по сохранению нейтралитета США в наполеоновских войнах, принятием, а затем отменой противоречивого Закона об эмбарго 1807 [ Embargo Act]. В 1809 ушел в отставку и поселился в своем имении Монтиселло [ Monticello]. Был разносторонним человеком: его интересы включали архитектуру, философию, игру на скрипке, воздухоплавание, ботанику, геологию и другие науки. В 1819 он основал Вирджинский университет [ Virginia, University of]. Умер 4 июля 1826, в годовщину Декларации независимости. Завещал выбить на своем могильном камне слова о трех его заслугах перед страной, которые он больше всего ценил: "... автор Декларации независимости США, Вирджинского статута о свободе религии и создатель Вирджинского университета". Наравне с Б. Франклином считается великим представителем эпохи Просвещения. В 1900 среди первой группы американцев избран в национальную Галерею славы [ Hall of Fame]

Здравого смысла философия

 ♦ ( ENG Common Sense philosophy)

   также - "шотландский реализм". Воззрения, представленные шотландским философом Томасом Ридом (1710-1796) и другими и сформировавшиеся в полемике с философскими позициями Давида Юма (1711-1776) и Иммануила Канта (1724- 1804). Сторонники этого направления считали, что знание достигается интуицией и что опыт здравого смысла достоверен.

Cruickshank, William

SUBJECT AREA: Electricity

[br]

d. 1810/11 Scotland

[br]

Scottish chemist and surgeon, inventor of a trough battery developed from Volta's pile.

[br]

Cruickshank graduated MA from King's College, Aberdeen, in 1765, and later gained a Diploma of the Royal College of Surgeons. When chemistry was introduced in 1788 into the course at the Royal Military Academy in Woolwich, Cruickshank became a member of staff, serving as Assistant to Dr A.Crawford, the Lecturer in Chemistry. Upon Crawford's death in 1796 Cruickshank succeeded him as Lecturer and held the post until his retirement due to ill health in 1804. He also held the senior posts of Chemist to the Ordnance at Woolwich and Surgeon to the Ordnance Medical Department. He should not be confused with William Cumberland Cruickshank (1745–1800), who was also a surgeon and Fellow of the Royal Society. In 1801, shortly after Volta's announcement of his pile, Cruickshank built a voltaic pile to facilitate his experiments in electrochemistry. The pile had zinc and silver plates about 1½ in2 (10 cm²) with interposed papers moistened with ammonium chloride. Dissatisfied with this arrangement, Cruickshank devised a horizontal trough battery in which a wooden box was divided into cells, each holding a pair of zinc and silver or zinc and copper plates. Charged with a dilute solution of ammonium chloride, the battery, which was typically of sixty cells, was found to be more convenient to use than a pile and it, or a derivative, was generally adopted for electrochemical experiments including tose of Humphrey Davy during the early years of the nineteenth century.

[br]

Principal Honours and Distinctions

FRS 1802.

Bibliography

1801, article in Nicholsons Journal 4:187–91 (describes Cruickshank's original pile). 1801, article in Nicholsons Journal 4:245–64 (describes his trough battery).

Further Reading

B.Bowers, 1982, A History of Electric Light and Power, London (a short account). A.Courts, 1959, "William Cruickshank", Annals of Science 15:121–33 GW

Reichenbach, Georg Friedrich von

SUBJECT AREA: Mechanical, pneumatic and hydraulic engineering, Photography, film and optics, Public utilities

[br]

b. 24 August 1772 Durlach, Baden, Germany

d. 21 May 1826 Munich, Germany

[br]

German engineer.

[br]

While he was attending the Military School at Mannheim, Reichenbach drew attention to himself due to the mathematical instruments that he had designed. On the recommendation of Count Rumford in Munich, the Bavarian government financed a two-year stay in Britain so that Reichenbach could become acquainted with modern mechanical engineering. He returned to Mannheim in 1793, and during the Napoleonic Wars he was involved in the manufacture of arms. In Munich, where he was in the service of the Bavarian state from 1796, he started producing precision instruments in his own time. His basic invention was the design of a dividing machine for circles, produced at the end of the eighteenth century. The astronomic and geodetic instruments he produced excelled all the others for their precision. His telescopes in particular, being perfect in use and of solid construction, soon brought him an international reputation. They were manufactured at the MathematicMechanical Institute, which he had jointly founded with Joseph Utzschneider and Joseph Liebherr in 1804 and which became a renowned training establishment. The glasses and lenses were produced by Joseph Fraunhofer who joined the company in 1807.

In the same year he was put in charge of the technical reorganization of the salt-works at Reichenhall. After he had finished the brine-transport line from Reichenhall to Traunstein in 1810, he started on the one from Berchtesgaden to Reichenhall which was an extremely difficult task because of the mountainous area that had to be crossed. As water was the only source of energy available he decided to use water-column engines for pumping the brine in the pipes of both lines. Such devices had been in use for pumping purposes in different mining areas since the middle of the eighteenth century. Reichenbach knew about the one constructed by Joseph Karl Hell in Slovakia, which in principle had just been a simple piston-pump driven by water which did not work satisfactorily. Instead he constructed a really effective double-action water-column engine; this was a short time after Richard Trevithick had constructed a similar machine in England. For the second line he improved the system and built a single-action pump. All the parts of it were made of metal, which made them easy to produce, and the pumps proved to be extremely reliable, working for over 100 years.

At the official opening of the line in 1817 the Bavarian king rewarded him generously. He remained in the state's service, becoming head of the department for roads and waterways in 1820, and he contributed to the development of Bavarian industry as well as the public infrastructure in many ways as a result of his mechanical skill and his innovative engineering mind.

[br]

Further Reading

Bauernfeind, "Georg von Reichenbach" Allgemeine deutsche Biographie 27:656–67 (a reliable nineteenth-century account).

W.Dyck, 1912, Georg v. Reichenbach, Munich.

K.Matschoss, 1941, Grosse Ingenieure, Munich and Berlin, 3rd edn. 121–32 (a concise description of his achievements in the development of optical instruments and engineering).

WK

Telford, Thomas

SUBJECT AREA: Canals, Civil engineering

[br]

b. 9 August 1757 Glendinning, Dumfriesshire, Scotland

d. 2 September 1834 London, England.

[br]

Scottish civil engineer.

[br]

Telford was the son of a shepherd, who died when the boy was in his first year. Brought up by his mother, Janet Jackson, he attended the parish school at Westerkirk. He was apprenticed to a stonemason in Lochmaben and to another in Langholm. In 1780 he walked from Eskdale to Edinburgh and in 1872 rode to London on a horse that he was to deliver there. He worked for Sir William Chambers as a mason on Somerset House, then on the Eskdale house of Sir James Johnstone. In 1783–4 he worked on the new Commissioner's House and other buildings at Portsmouth dockyard.

In late 1786 Telford was appointed County Surveyor for Shropshire and moved to Shrewsbury Castle, with work initially on the new infirmary and County Gaol. He designed the church of St Mary Magdalene, Bridgnorth, and also the church at Madley. Telford built his first bridge in 1790–2 at Montford; between 1790 and 1796 he built forty-five road bridges in Shropshire, including Buildwas Bridge. In September 1793 he was appointed general agent, engineer and architect to the Ellesmere Canal, which was to connect the Mersey and Dee rivers with the Severn at Shrewsbury; William Jessop was Principal Engineer. This work included the Pont Cysyllte aqueduct, a 1,000 ft (305 m) long cast-iron trough 127 ft (39 m) above ground level, which entailed an on-site ironworks and took ten years to complete; the aqueduct is still in use today. In 1800 Telford put forward a plan for a new London Bridge with a single cast-iron arch with a span of 600 ft (183 m) but this was not built.

In 1801 Telford was appointed engineer to the British Fisheries Society "to report on Highland Communications" in Scotland where, over the following eighteen years, 920 miles (1,480 km) of new roads were built, 280 miles (450 km) of the old military roads were realigned and rebuilt, over 1,000 bridges were constructed and much harbour work done, all under Telford's direction. A further 180 miles (290 km) of new roads were also constructed in the Lowlands of Scotland. From 1804 to 1822 he was also engaged on the construction of the Caledonian Canal: 119 miles (191 km) in all, 58 miles (93 km) being sea loch, 38 miles (61 km) being Lochs Lochy, Oich and Ness, 23 miles (37 km) having to be cut.

In 1808 he was invited by King Gustav IV Adolf of Sweden to assist Count Baltzar von Platen in the survey and construction of a canal between the North Sea and the Baltic. Telford surveyed the 114 mile (183 km) route in six weeks; 53 miles (85 km) of new canal were to be cut. Soon after the plans for the canal were completed, the King of Sweden created him a Knight of the Order of Vasa, an honour that he would have liked to have declined. At one time some 60,000 soldiers and seamen were engaged on the work, Telford supplying supervisors, machinery—including an 8 hp steam dredger from the Donkin works and machinery for two small paddle boats—and ironwork for some of the locks. Under his direction an ironworks was set up at Motala, the foundation of an important Swedish industrial concern which is still flourishing today. The Gotha Canal was opened in September 1832.

In 1811 Telford was asked to make recommendations for the improvement of the Shrewsbury to Holyhead section of the London-Holyhead road, and in 1815 he was asked to survey the whole route from London for a Parliamentary Committee. Construction of his new road took fifteen years, apart from the bridges at Conway and over the Menai Straits, both suspension bridges by Telford and opened in 1826. The Menai bridge had a span of 579 ft (176 m), the roadway being 153 ft (47 m) above the water level.

In 1817 Telford was appointed Engineer to the Exchequer Loan Commission, a body set up to make capital loans for deserving projects in the hard times that followed after the peace of Waterloo. In 1820 he became the first President of the Engineers Institute, which gained its Royal Charter in 1828 to become the Institution of Civil Engineers. He was appointed Engineer to the St Katharine's Dock Company during its construction from 1825 to 1828, and was consulted on several early railway projects including the Liverpool and Manchester as well as a number of canal works in the Midlands including the new Harecastle tunnel, 3,000 ft (914 m) long.

Telford led a largely itinerant life, living in hotels and lodgings, acquiring his own house for the first time in 1821, 24 Abingdon Street, Westminster, which was partly used as a school for young civil engineers. He died there in 1834, after suffering in his later years from the isolation of deafness. He was buried in Westminster Abbey.

[br]

Principal Honours and Distinctions

FRSE 1803. Knight of the Order of Vasa, Sweden 1808. FRS 1827. First President, Engineers Insitute 1820.

Further Reading

L.T.C.Rolt, 1979, Thomas Telford, London: Penguin.

C.Hadfield, 1993, Thomas Telford's Temptation, London: M. \& M.Baldwin.

IMcN