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21 Helmholtz, Hermann Ludwig Ferdinand von
SUBJECT AREA: Medical technology[br]b. 31 August 1821 Potsdam, Germanyd. 8 September 1894 Berlin, Germany[br]German physicist and man of science, inventor of the ophthalmoscope.[br]Constrained by poverty despite displaying considerable gifts, particularly in the realm of mathematics, he became a surgeon in the Prussian Army but was able to undertake research; in 1842 he wrote a thesis on the discovery of nerve cells in ganglia. He became Professor of Physiology in Königsberg (now Kaliningrad, Russia) in 1849. moving to a similar post in Bonn in 1855, to Heidelberg in 1858, and the Chair of Physic in Berlin in 1871. This latter included the directorship of the physicotechnical institute at Charlottenburg.His investigations over the years encompassed almost the whole field of science, including physiology, physiological optics, physiological acoustics, chemistry, mathematics, electricity and magnetism, meteorology and theoretical mechanics. He also made important additions to the understanding of putrefaction and fermentation.Helmholtz's contributions to the understanding of vision and optics ranged widely, but one of the most significant was the definitive development of the ophthalmoscope in 1851. Incorporating some of the aspects of Babbage's original suggestions (which were not brought to practical fruition), his instrument inaugurated a new diagnostic era in ophthalmology, particularly when his method of direct ophthalmoscopy was supplemented by the indirect method of Ruete. His personal life was uneventful, in contrast to his inventive achievements, which were perhaps unequalled in scope in his century. Michael Faraday's tribute, "the absolute simplicity, modesty and untroubled purity of his disposition had a charm such as I have never encountered in another man", is therefore all the more to be valued.[br]Bibliography1850. "The ophthalmoscope", Physikalische Gesellschaft, Berlin.1851. Beschreibung eines Augen-Spiegels zur Untersuchung der Netzhaut im lebenden Auge, Berlin. 1856–66, Physiological Optics (2 vols).Further ReadingL.Konigsberger, 1906, trans. F.A.Welby, Hermann von Helmholtz, Oxford.MGBiographical history of technology > Helmholtz, Hermann Ludwig Ferdinand von
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22 Hertz, Heinrich Rudolph
[br]b. 22 February 1857 Hamburg, Germanyd. 1 January 1894 Bonn, Germany[br]German physicist who was reputedly the first person to transmit and receive radio waves.[br]At the age of 17 Hertz entered the Gelehrtenschule of the Johaneums in Hamburg, but he left the following year to obtain practical experience for a year with a firm of engineers in Frankfurt am Main. He then spent six months at the Dresden Technical High School, followed by year of military service in Berlin. At this point he decided to switch from engineering to physics, and after a year in Munich he studied physics under Helmholtz at the University of Berlin, gaining his PhD with high honours in 1880. From 1883 to 1885 he was a privat-dozent at Kiel, during which time he studied the electromagnetic theory of James Clerk Maxwell. In 1885 he succeeded to the Chair in Physics at Karlsruhe Technical High School. There, in 1887, he constructed a rudimentary transmitter consisting of two 30 cm (12 in.) rods with metal balls separated by a 7.5 mm (0.3 in.) gap at the inner ends and metallic plates at the outer ends, the whole assembly being mounted at the focus of a large parabolic metal mirror and the two rods being connected to an induction coil. At the other side of his laboratory he placed a 70 cm (27½ in.) diameter wire loop with a similar air gap at the focus of a second metal mirror. When the induction coil was made to create a spark across the transmitter air gap, he found that a spark also occurred at the "receiver". By a series of experiments he was not only able to show that the invisible waves travelled in straight lines and were reflected by the parabolic mirrors, but also that the vibrations could be refracted like visible light and had a similar wavelength. By this first transmission and reception of radio waves he thus confirmed the theoretical predictions made by Maxwell some twenty years earlier. It was probably in his experiments with this apparatus in 1887 that Hertz also observed that the voltage at which a spark was able to jump a gap was significantly reduced by the presence of ultraviolet light. This so-called photoelectric effect was subsequently placed on a theoretical basis by Albert Einstein in 1905. In 1889 he became Professor of Physics at the University of Bonn, where he continued to investigate the nature of electric discharges in gases at low pressure until his death after a long and painful illness. In recognition of his measurement of radio and other waves, the international unit of frequency of an oscillatory wave, the cycle per second, is now universally known as the Hertz.[br]Principal Honours and DistinctionsRoyal Society Rumford Medal 1890.BibliographyMuch of Hertz's work, including his 1890 paper "On the fundamental equations of electrodynamics for bodies at rest", is recorded in three collections of his papers which are available in English translations by D.E.Jones et al., namely Electric Waves (1893), Miscellaneous Papers (1896) and Principles of Mechanics (1899).Further ReadingJ.G.O'Hara and W.Pricha, 1987, Hertz and the Maxwellians, London: Peter Peregrinus. J.Hertz, 1977, Heinrich Hertz, Memoirs, Letters and Diaries, San Francisco: San Francisco Press.R.Appleyard, 1930, Pioneers of Electrical Communication.See also: Heaviside, OliverKFBiographical history of technology > Hertz, Heinrich Rudolph
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23 Hoover, William Henry
SUBJECT AREA: Domestic appliances and interiors[br]b. 1849 New Berlin (now North Canton), Ohio, USAd. 25 February 1932 North Canton, Ohio, USA[br]American founder of the Electric Suction Company, which manufactured and successfully marketed the first practical and portable suction vacuum cleaner.[br]Hoover was descended from a Swiss farming family called Hofer who emigrated from Basle and settled in Lancaster County, Pennsylvania, in the early eighteenth century. By 1832 the family had become tanners and lived near North Berlin in Ohio. In 1870 William Henry Hoover, who had studied at Mount Union College, bought the tannery with his brothers and soon expanded the business to make horse collars and saddlery. The firm expanded to become W.H.Hoover \& Co. In the early years of the first decade of the twentieth century, horses were beginning to be replaced by the internal combustion engine, so Hoover needed a new direction for his firm. This he found in the suction vacuum cleaner devised in 1907 by J.Murray Spangler, a cousin of Hoover's wife. The first successful cleaner of this type had been operating in England since 1901 (see Booth), but was not a portable model. Attracted by the development of the small electric motor, Spangler produced a vertical cleaner with such a motor that sucked the dust through the machine and blew it into a bag attached to the handle. Spangler applied for a patent for his invention on 14 September in the same year; it was granted for a carpet sweeper and cleaner on 2 June 1908, but Spangler was unable to market it himself and sold the rights to Hoover. The Model O machine, which ran on small wheels, was immediately manufactured and marketed. Hoover's model was the first electric, one-person-operated, domestic vacuum cleaner and was instantly successful, although the main expansion of the business was delayed for some time until the greater proportion of houses were wired for electricity. The Hoover slogan, "it beats as it sweeps as it cleans", came to be true in 1926 with the introduction of the Model 700, which was the first cleaner to offer triple-action cleaning, a process which beat, swept and sucked at the carpet. Further advances in the 1930s included the use of magnesium and the early plastics.[br]Further ReadingG.Adamson, 1969, Machines at Home, Lutterworth Press.How it Works: The Universal Encyclopaedia of Machines, Paladin. D.Yarwood, 1981, The British Kitchen, Batsford, Ch. 6.DY -
24 Jablochkoff, Paul
[br]b. 14 September 1847 Serdobsk, Russiad. April 1894 St Petersburg, Russia[br]Russian military engineer and inventor of an electric "candle", the invention of which gave an immense impetus to electric lighting in the 1870s.[br]Jablochkoff studied at the Military Engineering College in St Petersburg. Having a scientific bent, he was sent to the Military Galvano Technical School. At the end of his military service in 1871 he was appointed Director General of the Moscow-Kursk telegraph lines for the Midi Railway Company. At this time he began to develop an interest in electric lighting, and in 1875 he left the Imperial Telegraph Service to devote his time exclusively to scientific pursuits. He found employment at the workshop of M Bréguet in Paris, where Gramme dynamos and Serrin arc lamps were being constructed. After some experimentation he found a means of producing a carbon arc that regulated itself without any mechanism. This lamp, the Jablochkoff candle, with two carbon rods placed parallel to each other and so close that an arc formed at the ends, could continue to burn until the rods were consumed. Plaster of Paris was used to separate the two electrodes and crumbled away as the carbon burned, thus exposing fresh carbon. These lamps were used in May 1878 in Paris to illuminate the avenue de l'Opéra, and later in Rome and London, and in essence were the first practical electric street lighting. Since there was no regulating mechanism, several candles could be placed in a single circuit. Despite inherent defects, such as the inability to restart the lamps after they were extinguished by wind or interruption of supply, they remained in use for some purposes for several years on account of their simplicity and cheapness. In 1877 Jablochkoff obtained the earliest patent to employ transformers to distribute current in an alternating-current circuit.[br]Bibliography11 September 1876, British patent no. 3,552 (Jablochkoff's candle).22 May 1877, British patent no. 1,996 (transformer or induction coil distribution).Further ReadingW.J.King, 1962, The Development of Electrical Technology in the 19th Century, Washington, DC: Smithsonian Institution, Paper 30, pp. 393–407 (a detailed account). W.E.Langdon, 1877, "On a new form of electric light", Journal of the Society ofTelegraph Engineers 6:303–19 (an early report on Jablochkoffs system).Engineering (1878) 26:125–7.GW -
25 Lovelock, James Ephraim
SUBJECT AREA: Domestic appliances and interiors, Electricity, Electronics and information technology[br]b. 26 July 1919 Brixton, London, England[br]English biologist and philosopher, inventor of the microwave oven and electron capture detector.[br]Lovelock was brought up in Brixton in modest circumstances. At the age of 4 he was given a toy electrical set, which first turned his attention towards the study of science. From the Strand School, Brixton, he went on to the universities of Manchester and London, and after graduating in science, in 1941 he joined the National Institute for Medical Research, Mill Hill, as a staff scientist, remaining there for twenty years. During the early 1950s, he and his colleagues were engaged in research into freezing live animals and bringing them back to life by heating: Lovelock was struck by the intense pain this process caused the animals, and he sought a more humane method. He tried diathermy or internal heating through the effect of a continuous wave magnetron borrowed from the Navy. He found that the animals were brought back to life painlessly, and impressed with his success he tried baking a potato for his lunch in the apparatus and found that it cooked amazingly quickly compared with the one hour normally needed in an ordinary oven. Lovelock had invented the microwave oven, but its commercial possibilities were not at first realized.In the late 1950s he invented the electron capture detector, which proved to be more sensitive than any other analytical equipment in detecting and measuring toxic substances. The apparatus therefore had obvious uses in testing the quality of the environment and so offered a tremendous boost to the "green" movement. In 1961 he was invited to joint the US National Aeronautics and Space Administration (NASA) to employ the apparatus in an attempt to detect life in space.In the early 1970s Lovelock relinquished his biological work in order to devote his attention to philosophical matters, specifically to develop his theory of the Universe, now widely celebrated as the "Gaia theory". In this controversial theory, Lovelock regards our planet and all its living beings, including humans, as a single living organism.[br]Principal Honours and DistinctionsCBE 1990. FRS 1974. Many academic awards and honorary degrees. Visiting Professor, University of Reading 1967–90.Bibliography1979, Gaia.1983, The Great Extinction.1988, The Ages of Gaia.1991, Gaia: The Practical Science of Planetary Medicine.LRDBiographical history of technology > Lovelock, James Ephraim
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26 Pupin, Michael Idvorsky
SUBJECT AREA: Medical technology[br]b. 4 October 1858 Idvor, Banat, Serbiad. 12 March 1935 New York, USA[br]Serbian/American applied physicist involved in the development of fluoroscopy and radiological diagnosis.[br]Pupin's early education was in Prague and then he emigrated alone to America in 1874. After five years of farm and factory jobs accompanied by night study, he gained admission to Columbia University, New York, in 1879. He graduated in 1883 and after a period at Cambridge University, England, worked under Helmholtz in Berlin. He received his doctorate in 1889.He returned to Columbia and, apart from his involvement in X-ray diagnosis in 1896, was engaged in practical work in connection with problems in telegraphy and telephony, radio transmitters and electrical network theory. In 1901 he was appointed Professor of Electromechanics, a post that he held for thirty years. He acted as an adviser on behalf of Yugoslavia at the 1919 Peace Conference.[br]Principal Honours and DistinctionsMember of the National Academy of Sciences. Pulitzer Prize.Bibliography1896, "A few remarks on experiments with roentgen rays", Electricity, New York. 1924, From Immigrant to Inventor (autobiography).1938, Biographical Memoirs, National Academy of Sciences, Washington, DC.MGBiographical history of technology > Pupin, Michael Idvorsky
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27 Smith, Willoughby
[br]b. 16 April 1828 Great Yarmouth, Englandd. 17 July 1891 Eastbourne, England[br]English engineer of submarine telegraph cables who observed that light reduced the resistance of selenium.[br]Smith joined the Gutta Percha Company, London, in 1848 and successfully experimented with the use of gutta-percha, a natural form of latex, for the insulation of conducting wires. As a result, he was made responsible for the laying of the first cross-Channel cable between Dover and Calais in 1850. Four years later he laid the first Mediterranean cable between Spezia, Italy, and Corsica and Sardinia, later extending it to Algeria. On its completion he became Manager of the Gutta Percha works, which in 1864 became the Telegraph and Construction Company. In 1865 he assisted on board the Great Eastern with the laying of the transatlantic cable by Bright.Clearly his management responsibilities did not stop him from experimenting practically. In 1866 he discovered that the resistance of a selenium rod was reduced by the action of incident light, an early discovery of the photoelectric effect more explicitly observed by Hertz and subsequently explained by Einstein. In 1883 he read a paper to the Society of Telegraph Engineers (later the Institution of Electrical Engineers), suggesting the possibility of wireless communication with moving trains, an idea that was later successfully taken up by others, and in 1888 he demonstrated the use of water as a practical means of communication with a lighthouse. Four years later, after his death, the system was tried between Alum Bay and the Needles in the Isle of Wight, and it was used subsequently for the Fastnet Rock lighthouse some 10 miles (16 km) off the south-west coast of Ireland.[br]Principal Honours and DistinctionsFounder and Council Member of the Society of Telegraph Engineers 1871; President 1873.BibliographyThe effect of light on the resistance of selenium was reported in a letter to the Vice- Chairman of the Society of Telegraph Engineers on 4 February 1873.7 June 1897, British patent no. 8,159 (the use of water, instead of cable, as a conductor).November 1888, article in Electrician (describes his idea of using water as a conductor, rather than cable).Further ReadingE.Hawkes, 1927, Pioneers of Wireless, London: Methuen.C.T.Bright, 1898, Submarine Cables, Their History, Construction and Working.See also: Field, Cyrus WestKF -
28 Stringfellow, John
SUBJECT AREA: Aerospace[br]b. 6 December 1799 Sheffield, Englandd. 13 December 1883 Chard, England[br]English inventor and builder of a series of experimental model aeroplanes.[br]After serving an apprenticeship in the lace industry, Stringfellow left Nottingham in about 1820 and moved to Chard in Somerset, where he set up his own business. He had wide interests such as photography, politics, and the use of electricity for medical treatment. Stringfellow met William Samuel Henson, who also lived in Chard and was involved in lacemaking, and became interested in his "aerial steam carriage" of 1842–3. When support for this project foundered, Henson and Stringfellow drew up an agreement "Whereas it is intended to construct a model of an Aerial Machine". They built a large model with a wing span of 20 ft (6 m) and powered by a steam engine, which was probably the work of Stringfellow. The model was tested on a hillside near Chard, often at night to avoid publicity, but despite many attempts it never made a successful flight. At this point Henson emigrated to the United States. From 1848 Stringfellow continued to experiment with models of his own design, starting with one with a wing span of 10 ft (3m). He decided to test it in a disused lace factory, rather than in the open air. Stringfellow fitted a horizontal wire which supported the model as it gained speed prior to free flight. Unfortunately, neither this nor later models made a sustained flight, despite Stringfellow's efficient lightweight steam engine. For many years Stringfellow abandoned his aeronautical experiments, then in 1866 when the (Royal) Aeronautical Society was founded, his interest was revived. He built a steam-powered triplane, which was demonstrated "flying" along a wire at the world's first Aeronautical Exhibition, held at Crystal Palace, London, in 1868. Stringfellow also received a cash prize for one of his engines, which was the lightest practical power unit at the Exhibition. Although Stringfellow's models never achieved a really successful flight, his designs showed the way for others to follow. Several of his models are preserved in the Science Museum in London.[br]Principal Honours and DistinctionsMember of the (Royal) Aeronautical Society 1868.BibliographyMany of Stringfellow's letters and papers are held by the Royal Aeronautical Society, London.Further ReadingHarald Penrose, 1988, An Ancient Air: A Biography of John Stringfellow, Shrewsbury. A.M.Balantyne and J.Laurence Pritchard, 1956, "The lives and work of William Samuel Henson and John Stringfellow", Journal of the Royal Aeronautical Society (June) (an attempt to analyse conflicting evidence).M.J.B.Davy, 1931, Henson and Stringfellow, London (an earlier work with excellent drawings from Henson's patent)."The aeronautical work of John Stringfellow, with some account of W.S.Henson", Aeronau-tical Classics No. 5 (written by John Stringfellow's son and held by the Royal Aeronautical Society in London).JDS -
29 Woolrich, John Stephen
[br]b. 1821 Birmingham, Englandd. 27 February 1850 King's Norton, England[br]English chemist who found in the electroplating process one of the earliest commercial applications of the magneto-electric generator.[br]The son of a Birmingham chemist, Woolrich was educated at King Edward's Grammar School, Birmingham, and later became a lecturer in chemistry. As an alternative to primary cells for the supply of current for electroplating, he devised a magneto generator.His original machine had a single compound permanent magnet; the distance between the revolving armature and the magnet could be varied to adjust the rate of deposition of metal. A more ambitious machine designed by Woolrich was constructed by Thomas Prime \& Sons in 1844 and for many years was used at their Birmingham electroplating works. Faraday, on a visit to see the machine at work, is said to have expressed delight at his discovery of electromagnetic induction being put to practical use so soon. Similar machines were in use by Elkington's, Fern and others in Birmingham and Sheffield. One of Woolrich's machines is preserved in the Birmingham Science Museum.[br]Bibliography1 August 1842, British patent no. 9,431 (the electroplating process; describes the magnetic apparatus and the electroplating chemicals).Further Reading1843, Mechanics Magazine 38:145–9 (fully describes the Woolrich machine). 1889, The Electrician 23:548 (a short account of a surviving Woolrich machine constructed in 1844 and its subsequent history).S.Timmins, 1866, Birmingham and the Midland Hardware District, London, pp. 488– 94.GW -
30 Bibliography
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Cambridge: Cambridge University Press.Historical dictionary of quotations in cognitive science > Bibliography
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