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61 Bell, Henry
SUBJECT AREA: Ports and shipping[br]b. 1767 Torphichen Mill, near Linlithgow, Scotlandd. 1830 Helensburgh, Scotland[br]Scottish projector of the first steamboat service in Europe.[br]The son of Patrick Bell, a millwright, Henry had two sisters and an elder brother and was educated at the village school. When he was 9 years old Henry was sent to lodge in Falkirk with an uncle and aunt of his mother's so that he could attend the school there. At the age of 12 he left school and agreed to become a mason with a relative. In 1783, after only three years, he was bound apprentice to his Uncle Henry, a millwright at Jay Mill. He stayed there for a further three years and then, in 1786, joined the firm of Shaw \& Hart, shipbuilders of Borrowstoneness. These were to be the builders of William Symington's hull for the Charlotte Dundas. He also spent twelve months with Mr James Inglis, an engineer of Bellshill, Lanarkshire, and then went to London to gain experience, working for the famous John Rennie for some eighteen months. By 1790 he was back in Glasgow, and a year later he took a partner, James Paterson, into his new business of builder and contractor, based in the Trongate. He later referred to himself as "architect", and his partnership with Paterson lasted seven years. He is said to have invented a discharging machine for calico printing, as well as a steam dredger for clearing the River Clyde.The Baths Hotel was opened in Helensburgh in 1808, with the hotel-keeper, who was also the first provost of the town, being none other than Henry Bell. It has been suggested that Bell was also the builder of the hotel and this seems very likely. Bell installed a steam engine for pumping sea water out of the Clyde and into the baths, and at first ran a coach service to bring customers from Glasgow three days a week. The driver was his brother Tom. The coach was replaced by the Comet steamboat in 1812.While Henry was busy with his provost's duties and making arrangements for the building of his steamboat, his wife Margaret, née Young, whom he married in March 1794, occupied herself with the management of the Baths Hotel. Bell did not himself manufacture, but supervised the work of experts: John and Charles Wood of Port Glasgow, builders of the 43ft 6 in. (13.25 m)-long hull of the Comet; David Napier of Howard Street Foundry for the boiler and other castings; and John Robertson of Dempster Street, who had previously supplied a small engine for pumping water to the baths at the hotel in Helensburgh, for the 3 hp engine. The first trials of the finished ship were held on 24 July 1812, when she was launched from Wood's yard. A regular service was advertised in the Glasgow Chronicle on 5 August and was the first in Europe, preceded only by that of Robert Fulton in the USA. The Comet continued to run until 1820, when it was wrecked.Bell received little reward for his promotion of steam navigation, merely small pensions from the Clyde trustees and others. He was buried at the parish church of Rhu.[br]Further ReadingEdward Morris, 1844, Life of Henry Bell.Henry Bell, 1813, Applying Steam Engines to Vessels.IMcN -
62 Byron, Ada Augusta, Countess of Lovelace
SUBJECT AREA: Electronics and information technology[br]b. 12 December 1815 Piccadilly Terrace, London, Englandd. 23 November 1852 East Horsley, Surrey, England[br]English mathematician, active in the early development of the calculating machine.[br]Educated by a number of governesses in a number of houses from Yorkshire to Ealing, she was the daughter of a hypochondriac mother and her absent, separated, husband, the poet George Gordon, Lord Byron. As a child a mysterious and undiagnosed illness deprived her "of the use of her limbs" and she was "obliged to use crutches". The complaint was probably psychosomatic as it cleared up when she was 17 and was about to attend her first court ball. On 8 July 1835 she was married to William King, 1st Earl of Lovelace. She later bore two sons and a daughter. She was an avid student of science and in particular mathematics, in the course of which Charles Babbage encouraged her. In 1840 Babbage was invited to Turin to present a paper on his analytical engine. In the audience was a young Italian military engineer, L.F.Menabrea, who was later to become a general in Garibaldi's army. The paper was written in French and published in 1842 in the Bibliothèque Universelle de Genève. This text was translated into English and published with extensive annotations by the Countess of Lovelace, appearing in Taylor's Scientific Memoirs. The Countess thoroughly understood and appreciated Babbage's machine and the clarity of her description was so great that it is undoubtedly the best contemporary account of the engine: even Babbage recognized the Countess's description as superior to his own. Ada often visited Babbage in his workshop and listened to his explanations of the structure and use of his engines. She shared with her husband a love of horse-racing and, with Babbage, tried to develop a system for backing horses. Babbage and the Earl apparently stopped their efforts in time, but the Countess lost so heavily that she had to pawn all her family jewels. Her losses at the 1851 Derby alone amounted to £3,200, while borrow-ing a further £1,800 from her husband. This situation involved her in being blackmailed. She became an opium addict due to persistent pain from gastritis, intermittent anorexia and paroxys-mal tachycardia. Charles Babbage was always a great comfort to her, not only for their shared mathematical interests but also as a friend helping in all manner of small services such as taking her dead parrot to the taxidermist. She died after a protracted illness, thought to be cancer, at East Horsley Towers.[br]Further ReadingD.Langley Moore, 1977, Ada, Countess of Lovelace: Byron's Legitimate Daughter, John Murray.P.Morrison and E.Morrison, 1961, Charles Babbage and His Calculating Engine, Dover Publications.Biographical history of technology > Byron, Ada Augusta, Countess of Lovelace
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63 Eastman, George
SUBJECT AREA: Photography, film and optics[br]b. 12 July 1854 Waterville, New York, USAd. 14 March 1932 Rochester, New York, USA[br]American industrialist and pioneer of popular photography.[br]The young Eastman was a clerk-bookkeeper in the Rochester Savings Bank when in 1877 he took up photography. Taking lessons in the wet-plate process, he became an enthusiastic amateur photographer. However, the cumbersome equipment and noxious chemicals used in the process proved an obstacle, as he said, "It seemed to be that one ought to be able to carry less than a pack-horse load." Then he came across an account of the new gelatine dry-plate process in the British Journal of Photography of March 1878. He experimented in coating glass plates with the new emulsions, and was soon so successful that he decided to go into commercial manufacture. He devised a machine to simplify the coating of the plates, and travelled to England in July 1879 to patent it. In April 1880 he prepared to begin manufacture in a rented building in Rochester, and contacted the leading American photographic supply house, E. \& H.T.Anthony, offering them an option as agents. A local whip manufacturer, Henry A.Strong, invested $1,000 in the enterprise and the Eastman Dry Plate Company was formed on 1 January 1881. Still working at the Savings Bank, he ran the business in his spare time, and demand grew for the quality product he was producing. The fledgling company survived a near disaster in 1882 when the quality of the emulsions dropped alarmingly. Eastman later discovered this was due to impurities in the gelatine used, and this led him to test all raw materials rigorously for quality. In 1884 the company became a corporation, the Eastman Dry Plate \& Film Company, and a new product was announced. Mindful of his desire to simplify photography, Eastman, with a camera maker, William H.Walker, designed a roll-holder in which the heavy glass plates were replaced by a roll of emulsion-coated paper. The holders were made in sizes suitable for most plate cameras. Eastman designed and patented a coating machine for the large-scale production of the paper film, bringing costs down dramatically, the roll-holders were acclaimed by photographers worldwide, and prizes and medals were awarded, but Eastman was still not satisfied. The next step was to incorporate the roll-holder in a smaller, hand-held camera. His first successful design was launched in June 1888: the Kodak camera. A small box camera, it held enough paper film for 100 circular exposures, and was bought ready-loaded. After the film had been exposed, the camera was returned to Eastman's factory, where the film was removed, processed and printed, and the camera reloaded. This developing and printing service was the most revolutionary part of his invention, since at that time photographers were expected to process their own photographs, which required access to a darkroom and appropriate chemicals. The Kodak camera put photography into the hands of the countless thousands who wanted photographs without complications. Eastman's marketing slogan neatly summed up the advantage: "You Press the Button, We Do the Rest." The Kodak camera was the last product in the design of which Eastman was personally involved. His company was growing rapidly, and he recruited the most talented scientists and technicians available. New products emerged regularly—notably the first commercially produced celluloid roll film for the Kodak cameras in July 1889; this material made possible the introduction of cinematography a few years later. Eastman's philosophy of simplifying photography and reducing its costs continued to influence products: for example, the introduction of the one dollar, or five shilling, Brownie camera in 1900, which put photography in the hands of almost everyone. Over the years the Eastman Kodak Company, as it now was, grew into a giant multinational corporation with manufacturing and marketing organizations throughout the world. Eastman continued to guide the company; he pursued an enlightened policy of employee welfare and profit sharing decades before this was common in industry. He made massive donations to many concerns, notably the Massachusetts Institute of Technology, and supported schemes for the education of black people, dental welfare, calendar reform, music and many other causes, he withdrew from the day-to-day control of the company in 1925, and at last had time for recreation. On 14 March 1932, suffering from a painful terminal cancer and after tidying up his affairs, he shot himself through the heart, leaving a note: "To my friends: My work is done. Why wait?" Although Eastman's technical innovations were made mostly at the beginning of his career, the organization which he founded and guided in its formative years was responsible for many of the major advances in photography over the years.[br]Further ReadingC.Ackerman, 1929, George Eastman, Cambridge, Mass.B.Coe, 1973, George Eastman and the Early Photographers, London.BC -
64 Hackworth, Timothy
[br]b. 22 December 1786 Wylam, Northumberland, Englandd. 7 July 1850 Shildon, Co. Durham, England[br]English engineer, pioneer in construction and operation of steam locomotives.[br]Hackworth trained under his father, who was Foreman Blacksmith at Wylam colliery, and succeeded him upon his death in 1807. Between 1812 and 1816 he helped to build and maintain the Wylam locomotives under William Hedley. He then moved to Walbottle colliery, but during 1824 he took temporary charge of Robert Stephenson \& Co.'s works while George Stephenson was surveying the Liverpool \& Manchester Railway and Robert Stephenson was away in South America. In May 1825 Hackworth was appointed to the Stockton \& Darlington Railway (S \& DR) "to have superintendence of the permanent (i.e. stationary) and locomotive engines". He established the workshops at Shildon, and when the railway opened in September he became in effect the first locomotive superintendent of a railway company. From experience of operating Robert Stephenson \& Co.'s locomotives he was able to make many detail improvements, notably spring safety valves. In 1827 he designed and built the locomotive Royal George, with six wheels coupled and inverted vertical cylinders driving the rear pair. From the pistons, drive was direct by way of piston rods and connecting rods to crankpins on the wheels, the first instance of the use of this layout on a locomotive. Royal George was the most powerful and satisfactory locomotive on the S \& DR to date and was the forerunner of Hackworth's type of heavy-goods locomotive, which was built until the mid-1840s.For the Rainhill Trials in 1829 Hackworth built and entered the locomotive Sans Pareil, which was subsequently used on the Bol ton \& Leigh Railway and is now in the Science Museum, London. A working replica was built for the 150th anniversary of the Liverpool \& Manchester Railway in 1980. In 1833 a further agreement with the S \& DR enabled Hackworth, while remaining in charge of their locomotives, to set up a locomotive and engineering works on his own account. Its products eventually included locomotives for the London, Brighton \& South Coast and York, Newcastle \& Berwick Railways, as well as some of the earliest locomotives exported to Russia and Canada. Hackworth's son, John Wesley Hackworth, was also an engineer and invented the radial valve gear for steam engines that bears his name.[br]Further ReadingR.Young, 1975, Timothy Hackworth and the Locomotive, Shildon: Shildon "Stockton \& Darlington Railway" Silver Jubilee Committee; orig. pub. 1923, London (tends to emphasize Hackworth's achievements at the expense of other contemporary engineers).L.T.C.Rolt, 1960, George and Robert Stephenson, London: Longmans (describes much of Hackworth's work and is more objective).E.L.Ahrons, 1927, The British Steam Railway Locomotive 1825–1925, London: The Locomotive Publishing Co.PJGR -
65 Johnson, Isaac Charles
[br]b. 28 January 1811 Vauxhall, London, Englandd. 29 November 1911 Gravesend (?), Kent, England[br]English contributor to the development of efficient hydraulic cements.[br]As a young man Johnson studied both chemistry and physics and gained some experience in the manufacture of cement before joining the firm of John Bazely White as Works Manager at Swanscombe in Kent in 1838. He spent some years investigating the production processes and left the firm to set up on his own in 1851 on the Limehouse Reach of the River Medway, moving later to Gateshead on the River Tyne. Johnson produced a cement that was a great improvement on that of Parker and of Frost: like William Aspdin (see Aspdin, Joseph), he made a true Portland cement by mixing chalk, clay and water, and then clinkering the mixture. He used local clay at Gateshead and had the chalk shipped from the Thames area. In 1872 Johnson patented an improved bottle kiln, called the Johnson Chamber Kiln; it was of horizontal design, which speeded up manufacturing processes.[br]Further ReadingA.J.Francis, The Cement Industry 1796–1914: A History, David \& Charles.DY -
66 Johnson, Thomas
SUBJECT AREA: Textiles[br]fl. 1800s Englandd. after 1846[br]English developer of the sizing and beaming machine, and improver of the hand loom.[br]Thomas Johnson was an assistant to William Radcliffe c.1802 in his developments of the sizing machine and hand looms. Johnson is described by Edward Baines (1835) as "an ingenious but dissipated young man to whom he [Radcliffe] explained what he wanted, and whose fertile invention suggested a great variety of expedients, so that he obtained the name of the “conjuror” among his fellow-workmen". Johnson's genius, and Radcliffe's judgement and perseverance, at length produced the dressing-machine that was soon applied to power looms and made their use economic. Cotton warps had to be dressed with a starch paste to prevent them from fraying as they were being woven. Up to this time, the paste had had to be applied as the warp was unwound from the back of the loom, which meant that only short lengths could be treated and then left to dry, holding up the weaver. Radcliffe carried out the dressing and beaming in a separate machine so that weaving could proceed without interruption. Work on the dressing-machine was carried out in 1802 and patents were taken out in 1803 and 1804. These were made out in Johnson's name because Radcliffe was afraid that if his own name were used other people, particularly foreigners, would discover his secrets. Two more patents were taken out for improvements to hand looms. The first of these was a take-up motion for the woven cloth that automatically wound the cloth onto a roller as the weaver operated the loom. This was later incorporated by H.Horrocks into his own power loom design.Radcliffe and Johnson also developed the "dandy-loom", which was a more compact form of hand loom and later became adapted for weaving by power. Johnson was the inventor of the first circular or revolving temples, which kept the woven cloth at the right width. In the patent specifications there is a patent in 1805 by Thomas Johnson and James Kay for an improved power loom and another in 1807 for a vertical type of power loom. Johnson could have been involved with further patents in the 1830s and 1840s for vertical power looms and dressing-machines, which would put his death after 1846.[br]Bibliography1802, British patent no. 2,684 (dressing-machine).1803, British patent no. 2,771 (dressing-machine).1805, with James Kay, British patent no. 2,876 (power-loom). 1807, British patent no. 6,570 (vertical powerloom).Further ReadingThere is no general account of Johnson's life, but references to his work with Radcliffe may be found in A.Barlow, 1878, The History and Principles of Weaving by Hand and by Power, London; and in E.Baines, 1835, History of the Cotton Manufacture in Great Britain, London.D.J.Jeremy, 1981, Transatlantic Industrial Revolution. The Diffusion of Textile Technologies Between Britain and America, 1790–1830s, Oxford (for the impact of the dressing-machine in America).RLH -
67 Seppings, Robert
SUBJECT AREA: Ports and shipping[br]b. 11 December 1767 near Fakenham, Norfolk, Englandd. 25 April 1840 Taunton, Somerset, England[br]English naval architect who as Surveyor to the Royal Navy made fundamental improvements in wooden ship construction.[br]After the death of his father, Seppings at the age of 14 moved to his uncle's home in Plymouth, where shortly after (1782) he was apprenticed to the Master Shipwright. His indentures were honoured fully by 1789 and he commenced his climb up the professional ladder of the ship construction department of the Royal Dockyards. In 1797 he became Assistant Master Shipwright at Plymouth, and in 1804 he was appointed Master Shipwright at Chatham. In 1813 Sir William Rule, Surveyor to the Navy, retired and the number of surveyors was increased to three, with Seppings being appointed the junior. Later he was to become Surveyor to the Royal Navy, a post he held until his retirement in 1832. Seppings introduced many changes to ship construction in the early part of the nineteenth century. It is likely that the introduction of these innovations required positive and confident management, and their acceptance tells us much about Seppings. The best-known changes were the round bow and stern in men-of-war and the alteration to framing systems.The Seppings form of diagonal bracing ensured that wooden ships, which are notorious for hogging (i.e. drooping at the bow and stern), were stronger and therefore able to be built with greater length. This change was complemented by modifications to the floors, frames and futtocks (analogous to the ribs of a ship). These developments were to be taken further once iron composite construction (wooden sheathing on iron frames) was adopted in the United Kingdom mid-century.[br]Principal Honours and DistinctionsFRS. Knighted (by the Prince Regent aboard the warship Royal George) 1819.BibliographyThroughout his life Seppings produced a handful of pamphlets and published letters, as well as two papers that were published in the Philosophical Transactions of the Royal Society (1814 and 1820).Further ReadingA description of the thinking in the Royal Navy at the beginning of the nineteenth century can be found in: J.Fincham, 1851, A History of Naval Architecture, London; B.Lavery, 1989, Nelson's Navy. The Ships, Men and Organisation 1793–1815, London: Conway.T.Wright, 1982, "Thomas Young and Robert Seppings: science and ship construction in the early nineteenth century", Transactions of the Newcomen Society 53:55–72.Seppings's work can be seen aboard the frigate Unicorn, launched in Chatham in 1824 and now on view to the public at Dundee. Similarly, his innovations in ship construction can be readily understood from many of the models at the National Maritime Museum, Greenwich.FMW -
68 Slater, Samuel
SUBJECT AREA: Textiles[br]b. 9 June 1768 Belper, Derbyshire, Englandd. 21 April 1835 USA[br]Anglo-American manufacturer who established the first American mill to use Arkwright's spinning system.[br]Samuel's father, William, was a respected independent farmer who died when his son was aged 14; the young Slater was apprenticed to his father's friend, Jedediah Strutt for six and a half years at the beginning of 1783. He showed mathematical ability and quickly acquainted himself thoroughly with cotton-spinning machinery made by Arkwright, Hargreaves and Crompton. After completing his apprenticeship, he remained for a time with the Strutts to act as Supervisor for a new mill.At that time it was forbidden to export any textile machinery or even drawings or data from England. The emigration of textile workers was forbidden too, but in September 1789 Slater left for the United States in disguise, having committed the details of the construction of the cotton-spinning machinery to memory. He reached New York and was employed by the New York Manufacturing Company.In January 1790 he met Moses Brown in Providence, Rhode Island, and on 5 April 1790 he signed a contract to construct Arkwright's spinning machinery for Almy \& Brown. It took Slater more than a year to get the machinery operational because of the lack of skilled mechanics and tools, but by 1793 the mill was running under the name of Almy, Brown \& Slater. In October 1791 Slater had married Hannah Wilkinson, and in 1798 he set up his own mill in partnership with his father-in-law, Orziel Wilkinson. This mill was built in Pawtucket, near the first mill, but other mills soon followed in Smithville, Rhode Island, and elsewhere. Slater was the Incorporator, and for the first fifteen years was also President of the Manufacturer's Bank in Pawtucket. It was in his business role and as New England's first industrial capitalist that Slater made his most important contributions to the emergence of the American textile industry.[br]Further ReadingG.S.White, 1836, Memoirs of Samuel Philadelphia (theearliestaccountofhislife). Dictionary of American Biography, Vol. XVII. Scientific American 63. P.E.Rivard, 1974, Samuel Slater, Father of American Manufactures, Slater Mill. D.J.Jeremy, 1981, Transatlantic Industrial Revolution. The Diffusion of TextileTechnologies Between Britain and America, 1790–1830s, Oxford (covers Slater's activities in the USA very fully).RLH -
69 Thomson, James
SUBJECT AREA: Mechanical, pneumatic and hydraulic engineering[br]b. 16 February 1822 Belfast, Ireland (now Northern Ireland)d. 8 May 1892 Glasgow, Scotland[br]Irish civil engineer noted for his work in hydraulics and for his design of the "Vortex" turbine.[br]James Thomson was a pupil in several civil-engineering offices, but the nature of the work was beyond his physical capacity and from 1843 onwards he devoted himself to theoretical studies. Hhe first concentrated on the problems associated with the expansion of liquids when they reach their freezing point: water is one such example. He continued this work with his younger brother, Lord Kelvin (see Thomson, Sir William).After experimentation with a "feathered" paddle wheel as a young man, he turned his attention to water power. In 1850 he made his first patent application, "Hydraulic machinery and steam engines": this patent became his "Vortex" turbine design. He settled in Belfast, the home of the MacAdam-Fourneyron turbine, in 1851, and as a civil engineer became the Resident Engineer to the Belfast Water Commissioners in 1853. In 1857 he was appointed Professor of Civil Engineering and Surveying at Queen's College, Belfast.Whilst it is understood that he made his first turbine models in Belfast, he came to an arrangement with the Williamson Brothers of Kendal to make his turbine. In 1856 Williamsons produced their first turbine to Thomson's design and drawings. This was the Vortex Williamson Number 1, which produced 5 hp (3.7 kW) under a fall of 31 ft (9.4 m) on a 9 in. (23 cm) diameter supply. The rotor of this turbine ran in a horizontal plane. For several years the Williamson catalogue described their Vortex turbine as "designed by Professor James Thomson".Thomson continued with his study of hydraulics and water flow both at Queen's College, Belfast, and, later, at Glasgow University, where he became Professor in 1873, succeeding Macquorn Rankine, another famous engineer. At Glasgow, James Thomson studied the flow in rivers and the effects of erosion on river beds. He was also an authority on geological formations such as the development of the basalt structure of the Giant's Causeway, north of Belfast.James Thomson was an extremely active engineer and a very profound teacher of civil engineering. His form of water turbine had a long life before being displaced by the turbines designed in the twentieth century.[br]Bibliography1850, British patent no. 13,156 "Hydraulic machinery and steam engines".Further ReadingGilkes, 1956, One Hundred Years of Water Power, Kendal.KM -
70 be (all) Greek to smb.
paзг.coвepшeннo нeпoнятнo; китaйcкaя гpaмoтa для кoгo-л.Sylvia....I don't know why you want to talk about something that's absolute Greek to me (W. S. Maugham). William Sanford presented himself to Kate, who smiled and said, 'We were speaking Greek, Captain Sanford.' 'Well,' said the rich young man, 'that is Greek to me' (G. Vidat) -
71 be (all) Greek to smb.
paзг.coвepшeннo нeпoнятнo; китaйcкaя гpaмoтa для кoгo-л.Sylvia....I don't know why you want to talk about something that's absolute Greek to me (W. S. Maugham). William Sanford presented himself to Kate, who smiled and said, 'We were speaking Greek, Captain Sanford.' 'Well,' said the rich young man, 'that is Greek to me' (G. Vidat) -
72 Bibliography
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