Ohio USA

Ohio

Ohio [əʊˈhaıəʊ] s Ohio

a) n Staat im Osten der USA

b) m größter linker Nebenfluss des Mississippi, USA

O. abk Ohio

OH abk Ohio

Ohio

n. Ohio (staat in de USA)

Ohio

n. Ohio (stat i USA)

Wright, Wilbur

SUBJECT AREA: Aerospace

[br]

b. 16 April 1867 Millville, Indiana, USA

d. 30 May 1912 Dayton, Ohio, USA

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American co-inventor, with his brother Orville Wright (b. 19 August 1871 Dayton, Ohio, USA; d. 30 January 1948 Dayton, Ohio, USA), of the first powered aeroplane capable of sustained, controlled flight.

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Wilbur and Orville designed and built bicycles in Dayton, Ohio. In the 1890s they developed an interest in flying which led them to study the experiments of gliding pioneers such as Otto Lilienthal in Germany, and their fellow American Octave Chanute. The Wrights were very methodical and tackled the many problems stage by stage. First, they developed a method of controlling a glider using movable control surfaces, instead of weight-shifting as used in the early hand-gliders. They built a wind tunnel to test their wing sections and by 1902 they had produced a controllable glider. Next they needed a petrol engine, and when they could not find one to suit their needs they designed and built one themselves.

On 17 December 1903 their Flyer was ready and Orville made the first short flight of 12 seconds; Wilbur followed with a 59-second flight covering 853 ft (260 m). An improved design, Flyer II, followed in 1904 and made about eighty flights, including circuits and simple ma-noeuvres. In 1905 Flyer III made several long flights, including one of 38 minutes covering 24½ miles (39 km). Most of the Wrights' flying was carried out in secret to protect their patents, so their achievements received little publicity. For a period of two and a half years they did not fly, but they worked to improve their Flyer and to negotiate terms for the sale of their invention to various governments and commercial syndi-cates.

In 1908 the Wright Model A appeared, and when Wilbur demonstrated it in France he astounded the European aviators by making several flights lasting more than one hour and one of 2 hours 20 minutes. Considerable numbers of the Model A were built, but the European designers rapidly caught up and overtook the Wrights. The Wright brothers became involved in several legal battles to protect their patents: one of these, with Glenn Curtiss, went on for many years. Wilbur died of typhoid fever in 1912. Orville sold his interest in the Wright Company in 1915, but retained an interest in aeronautical research and lived on to see an aeroplane fly faster than the speed of sound.

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Principal Honours and Distinctions

Royal Aeronautical Society (London) Gold Medal (awarded to both Wilbur and Orville) May 1909. Medals from the Aero Club of America, Congress, Ohio State and the City of Dayton.

Bibliography

1951, Miracle at Kitty Hawk. The Letters of Wilbur \& Orville Wright, ed. F.C.Kelly, New York.

1953, The Papers of Wilbur and Orville Wright, ed. Marvin W.McFarland, 2 vols, New York.

Orville Wright, 1953, How We Invented the Aeroplane, ed. F.C.Kelly, New York.

Further Reading

A.G.Renstrom, 1968, Wilbur \& Orville Wright. A Bibliography, Washington, DC (with 2,055 entries).

C.H.Gibbs-Smith, 1963, The Wright Brothers, London (reprint) (a concise account).

J.L.Pritchard, 1953, The Wright Brothers', Journal of the Royal Aeronautical Society (December) (includes much documentary material).

F.C.Kelly, 1943, The Wright Brothers, New York (reprint) (authorized by Orville Wright).

H.B.Combs with M.Caidin, 1980, Kill Devil Hill, London (contains more technical information).

T.D.Crouch, 1989, The Bishop's Boys: A Life of Wilbur \& Orville Wright, New York (perhaps the best of various subsequent biographies).

JDS

Kettering, Charles Franklin

SUBJECT AREA: Automotive engineering, Electricity, Electronics and information technology, Metallurgy, Steam and internal combustion engines

[br]

b. 29 August 1876 near Londonsville, Ohio, USA

d. 25 November 1958 Dayton, Ohio, USA

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American engineer and inventor.

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Kettering gained degrees in mechanical and electrical engineering from Ohio State University. He was employed by the National Construction Register (NCR) of Dayton, Ohio, where he devised an electric motor for use in cash registers. He became Head of the Inventions Department of that company but left in 1909 to form, with the former Works Manager of NCR, Edward A. Deeds, the Dayton Engineering Laboratories (later called Delco), to develop improved lighting and ignition systems for automobiles. In the first two years of the new company he produced not only these but also the first self-starter, both of which were fitted to the Cadillac, America's leading luxury car. In 1914 he founded Dayton Metal Products and the Dayton Wright Airplane Company. Two years later Delco was bought by General Motors. In 1925 the independent research facilities of Delco were moved to Detroit and merged with General Motors' laboratories to form General Motors Research Corporation, of which Kettering was President and General Manager. (He had been Vice-President of General Motors since 1920.) In that position he headed investigations into methods of achieving maximum engine performance as well as into the nature of friction and combustion. Many other developments in the automobile field were made under his leadership, such as engine coolers, variable-speed transmissions, balancing machines, the two-way shock absorber, high-octane fuel, leaded petrol or gasoline, fast-drying lacquers, crank-case ventilators, chrome plating, and the high-compression automobile engine. Among his other activities were the establishment of the Charles Franklin Kettering Foundation for the Study of Chlorophyll and Photosynthesis at Antioch College, and the founding of the Sloan- Kettering Institute for Cancer Research in New York City. He sponsored the Fever Therapy Research Project at Miami Valley Hospital at Dayton, which developed the hypertherm, or artificial fever machine, for use in the treatment of disease. He resigned from General Motors in 1947.

IMcN

Bullard, Edward Payson

SUBJECT AREA: Mechanical, pneumatic and hydraulic engineering

[br]

b. 18 April 1841 Uxbridge, Massachusetts, USA

d. 22 December 1906 Bridgeport, Connecticut, USA

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American mechanical engineer and machine-tool manufacturer who designed machines for boring.

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Edward Payson Bullard served his apprenticeship at the Whitin Machine Works, Whitinsville, Massachusetts, and worked at the Colt Armory in Hartford, Connecticut, until 1863; he then entered the employ of Pratt \& Whitney, also in Hartford. He later formed a partnership with J.H.Prest and William Parsons manufacturing millwork and tools, the firm being known as Bullard \& Prest. In 1866 Bullard organized the Norwalk Iron Works Company of Norwalk, Connecticut, but afterwards withdrew and continued the business in Hartford. In 1868 the firm of Bullard \& Prest was dissolved and Bullard became Superintendent of a large machine shop in Athens, Georgia. He later organized the machine tool department of Post \& Co. at Cincinnati, and in 1872 he was made General Superintendent of the Gill Car Works at Columbus, Ohio. In 1875 he established a machinery business in Beekman Street, New York, under the name of Allis, Bullard \& Co. Mr Allis withdrew in 1877, and the Bullard Machine Company was organized.

In 1880 Bullard secured entire control of the business and also became owner of the Bridgeport Machine Tool Works, Bridgeport, Connecticut. In 1883 he designed his first vertical boring and turning mill with a single head and belt feed and a 37 in. (94 cm) capacity; this was the first small boring machine designed to do the accurate work previously done on the face plate of a lathe. In 1889 Bullard gave up his New York interests and concentrated his entire attention on manufacturing at Bridgeport, the business being incorporated in 1894 as the Bullard Machine Tool Company. The company specialized in the construction of boring machines, the design being developed so that it became essentially a vertical turret lathe. After Bullard's death, his son Edward Payson Bullard II (b. 10 July 1872 Columbus, Ohio, USA; d. 26 June 1953 Fairfield, Connecticut, USA) continued as head of the company and further developed the boring machine into a vertical multi-spindle automatic lathe which he called the "Mult-au-matic" lathe. Both father and son were members of the American Society of Mechanical Engineers.

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Further Reading

J.W.Roe, 1916, English and American Tool Builders, New Haven: Yale University Press; repub. 1926, New York and 1987, Bradley, Ill.: Lindsay Publications Inc. (describes Bullard's machines).

RTS

Hoover, William Henry

SUBJECT AREA: Domestic appliances and interiors

[br]

b. 1849 New Berlin (now North Canton), Ohio, USA

d. 25 February 1932 North Canton, Ohio, USA

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American founder of the Electric Suction Company, which manufactured and successfully marketed the first practical and portable suction vacuum cleaner.

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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.

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Further Reading

G.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

Woods, Granville

SUBJECT AREA: Electricity, Land transport, Railways and locomotives, Telecommunications

[br]

b. 1856 Columbus, Ohio, USA

d. 1919 New York (?), USA

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African-American inventor of electrical equipment.

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He was first apprenticed in Columbus as a machinist and blacksmith. In 1872 he moved to Missouri, where he was engaged as a fireman and then engine-driver on the Iron Mountain Railroad. In his spare time he devoted much time to the study of electrical engineering. In 1878 he went to sea for two years as engineer on a British vessel. He returned to Ohio, taking up his previous occupation as engine-driver, and in 1884 he achieved his first patent, for a locomotive firebox. However, the drive towards things electrical was too strong and he set up the Woods Electric Company in Cincinnati, Ohio, to develop and market electrical inventions. Woods gained some fame as an inventor and became known as the "black Edison ". His first device, a telephone transmitter, was patented in December 1884 but faced stiff competition from similar inventions by Alexander Graham Bell and others. The following year he patented a device for transmitting messages in Morse code or by voice that was valuable enough to be bought up by the Bell Telephone Company. A stream of inventions followed, particularly for railway telegraph and electrical systems. This brought him into conflict with Edison, who was working in the same field. The US Patent Office ruled in Woods's favour; as a result of the ensuing publicity, one newspaper hailed Woods as the "greatest electrician in the world". In 1890 Woods moved to New York, where the opportunities for an electrical engineer seemed more favourable. He turned his attention to inventions that would improve the tram-car. One device enabled electric current to be transferred to the car with less friction than previously, incorporating a grooved wheel known as a "troller", whence came the popular term "trolley car".

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Further Reading

P.P.James, 1989, The Real McCoy: African-American Invention and Innovation 1619– 1930, Washington, DC: Smithsonian Institution, pp. 94–5.

LRD

Gray, Elisha

SUBJECT AREA: Telecommunications

[br]

b. 2 August 1835 Barnesville, Ohio, USA

d. 21 January 1901 Newtonville, Massachusetts, USA

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American inventor who was only just beaten by Alexander Graham Bell in the race for the first telephone patent.

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Initially apprenticed to a carpenter, Gray soon showed an interest in chemistry, but he eventually studied electrical engineering at Oberlin College, Oberlin, Ohio, in the late 1850s. In 1869 he founded the Western Electric Manufacturing Company, where he devised an electric-needle annunciator for use in hotels and lifts and carried out experimental work aimed at the development of a means of distant-speech communication. After successful realization of a liquid-based microphone and public demonstrations of a receiver using a metal diaphragm, on 14 February 1876 he deposited a caveat of intention to file a patent claim within three months for the invention of the telephone, only to learn that Alexander Graham Bell had filed a full patent claim only three hours earlier on the same day. Following litigation, the patent was eventually awarded to Bell. In 1880 Gray was appointed Professor of Dynamic Electricity at Oberlin College, but he appears to have retained his business interests since in 1891 he was both a member of the firm of Gray and Barton and electrician to his old firm, Western Electric. Subsequently, in 1895, he invented the TelAutograph, a form of remote-writing telegraph, or facsimile, capable of operating over short distances. The system used a transmitter in which the x and y movements of a writing stylus were coupled to a pair of variable resistors. In turn, these were connected by two telegraph wires to a pair of receiving coils, which were used to control the position of a pen on a sheet of paper, thus replicating the movement of the original stylus.

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Bibliography

1878, Experimental Research in Electro-Harmonic Telegraph and Telephony, 1867–76.

Further Reading

J.Munro, 1891, Heroes of the Telegraph.

D.A.Hounshill, 1975, "Elisha Gray and the telephone. On the disadvantage of being an expert", Technology and Culture 16:133.

—1976, "Bell and Gray. Contrast in style, politics and etiquette", Proceedings of the Institute of Electrical and Electronics Engineers 64:1,305.

International Telecommunications Union, 1965, From Semaphore to Satellite, Geneva.

KF

Owens, Michael Joseph

SUBJECT AREA: Agricultural and food technology, Domestic appliances and interiors

[br]

b. 1 January 1859 Mason County, Virginia, USA

d. 27 December 1923 Toledo, Ohio, USA

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American inventor of the automatic glass bottle making machine.

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To assist the finances of a coal miner's family, Owens entered a glassworks at Wheeling, Virginia, at the tender age of 10, stoking coal into the "glory hole" or furnace where glass was resoftened at various stages of the hand-forming process. By the age of 15 he had become a glassblower.

In 1888 Owens moved to the glassworks of Edward Drummond Libbey at Toledo, Ohio, where within three months he was appointed Superintendent and, not long after, a branch manager. In 1893 Owens supervised the company's famous exhibit at the World's Columbian Exposition at Chicago. He had by then begun experiments that were to lead to the first automatic bottle-blowing machine. He first used a piston pump to suck molten glass into a mould, and then transferred the gathered glass over another mould into which the bottle was blown by reversing the pump. The first patents were taken out in 1895, followed by others incorporating improvements and culminating in the patent of 8 November 1904 for an essentially perfected machine. Eventually it was capable of producing four bottles a second, thus effecting a revolution in bottle making. Owens, with Libbey and others, set up the Owens Bottle Machine Company in 1903, which Owens himself managed from 1915 to 1919, becoming Vice-President from 1915 until his death. A plant was also established in Manchester in 1905.

Besides this, Owens and Libbey first assisted Irving W.Colburn with his experiments on the continuous drawing of flat sheet glass and then in 1912 bought the patents, forming the Owens-Libbey Sheet Glass Company. In all, Owens was granted forty-five US patents, mainly relating to the manufacture and processing of glass. Owens's undoubted inventive genius was hampered by a lack of scientific knowledge, which he made good by judicious consultation.

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Further Reading

1923, Michael J.Owens (privately printed) (a series of memorial articles reprinted from various sources).

G.S.Duncan, 1960, Bibliography of Glass, Sheffield: Society of Glass Manufacturers (cites references to Owens's papers and patents).

LRD

Hall, Charles Martin

SUBJECT AREA: Metallurgy

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b. 6 December 1863 Thompson, Ohio, USA

d. 27 December 1914 USA

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American metallurgist, inventor of the first feasible electrolytic process for the production of aluminium.

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The son of a Congregationalist minister, Hall was educated at Oberlin College. There he was instructed in chemistry by Professor F.F.Jewett, a former student of the German chemist Friedrich Wöhler, who encouraged Hall to believe that there was a need for a cheap process for the manufacture of aluminium. After graduating in 1885, Hall set to work in his private laboratory exploring the method of fused salt electrolysis. On Wednesday 10 February 1886 he found that alumina dissolved in fused cryolite "like sugar in water", and that the bath so produced was a good conductor of electricity. He contained the solution in a pure graphite crucible which also acted as an efficient cathode, and by 16 February 1886 had produced the first globules of metallic aluminium. With two backers, Hall was able to complete his experiments and establish a small pilot plant in Boston, but they withdrew after the US Patent Examiners reported that Hall's invention had been anticipated by a French patent, filed by Paul Toussaint Héroult in April 1886. Although Hall had not filed until July 1886, he was permitted to testify that his invention had been completed by 16 February 1886 and on 2 April 1889 he was granted a seventeen-year monopoly in the United States. Hall now had the support of Captain A.E. Hunt of the Pittsburgh Testing Institute who provided the capital for establishing the Pittsburgh Reduction Company, which by 1889 was selling aluminium at $1 per pound compared to the $15 for sodium-reduced aluminium. Further capital was provided by the banker Andrew Mellon (1855–1937). Hall then turned his attention to Britain and began negotiations with Johnson Matthey, who provided land on a site at Patricroft near Manchester. Here the Aluminium Syndicate, owned by the Pittsburgh Reduction Company, began to produce aluminium in July 1890. By this time the validity of Hall's patent was being strongly contested by Héroult and also by the Cowles brothers, who attempted to operate the Hall process in the United States. Hall successfully sued them for infringement, and was confirmed in his patent rights by the celebrated ruling in 1893 of William Howard Taft, subsequently President of the USA. In 1895 Hall's company changed its name to the Pittsburgh Aluminium Company and moved to Niagara Falls, where cheap electrical power was available. In 1903 a legal compromise ended the litigation between the Hall and Héroult organizations. The American rights in the invention were awarded to Hall, and the European to Héroult. The Pittsburgh Aluminium Company became the Aluminium Company of America on 1 January 1907. On his death he left his estate, worth about $45 million, for the advancement of education.

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Principal Honours and Distinctions

Chemical Society, London, Perkin Medal 1911.

Further Reading

H.N.Holmes, 1930, "The story of aluminium", Journal of Chemical Education. E.F.Smith, 1914, Chemistry in America.

ASD

YNG

1) Военный термин: Gate Craft

2) Сокращение: Gate craft (USA)

3) Аэропорты: Youngstown- Warren Regional Airport (formerly Youngstown Municipal Airport), Youngstown, Ohio USA

yng

1) Военный термин: Gate Craft

2) Сокращение: Gate craft (USA)

3) Аэропорты: Youngstown- Warren Regional Airport (formerly Youngstown Municipal Airport), Youngstown, Ohio USA

Dayton

n. Dayton (stad in Ohio, USA; naam van steden in andere staten in de USA)

Akron

n. Akron, stad i Ohio (USA); stad i New York (USA)

Abel, John Jacob

SUBJECT AREA: Medical technology

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b. 19 May 1857 near Cleveland, Ohio, USA

d. 26 May 1938 Baltimore, Maryland, USA

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American pharmacologist and physiologist, proponent of the "artificial kidney" and the isolator of pure insulin.

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Born of German immigrant farming stock, his early scientific education at the University of Michigan, where he graduated PhB in 1883, suffered from a financially dictated interregnum of three years. In 1884 he moved to Leipzig and worked under Ludwig, moving to Strasbourg where he obtained his MD in 1888. In 1891 he was able to return to the University of Michigan as Lecturer in Materia Medica and Therapeutics, and in 1893 he was offered the first Chair of Pharmacology at Johns Hopkins University, a position he occupied until 1932. He was a pioneer in emphasizing the importance of chemistry, in its widest sense, in medicine and physiology. In his view, "the investigator must associate himself with those who have laboured in fields where molecules and atoms rather than multi-cellular tissues or even unicellular organisms are the units of study".

Soon after coming to Baltimore he commenced work on extracts from the adrenal medulla and in 1899 published his work on epinephrine. In later years he developed an "artificial kidney" which could be used to remove diffusible substances from the blood. In 1913 he was able to demonstrate the existence of free amino-acids in the blood and his investigations in this field foreshadowed not only the developments of blood and plasma transfusion but also the possibility of the management of renal failure.

From 1917 to 1924 he moved to a study of the hormone content of pituitary extracts, but in 1924 he suddenly transferred his attention to the study of insulin. In 1925 he announced the discovery of pure crystalline hormone. This work at first failed to gain full acceptance, but as late as 1955 the full elucidation of the protein structure of insulin proved the final culmination of his studies.

Abel's dedication to laboratory research and his disdain for matters of administration may explain the relative paucity of worldy honours awarded to such an outstanding figure.

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Principal Honours and Distinctions

FRS.

Bibliography

1913, "On the removal of diffusible substances from the circulating blood by means of dialysis", Transactions of the Association of American Physiologists.

Further Reading

1939, Obituary Notices, Fellows of the Royal Society, London: Royal Society.

1946, Biographical Memoir: John Jacob Abel. 1857–1938, Washington, DC: National Academy of Sciences.

MG

Brush, Charles Francis

SUBJECT AREA: Electricity, Public utilities

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b. 17 March 1849 Euclid, Michigan, USA

d. 15 June 1929 Cleveland, Ohio, USA

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American engineer, inventor of a multiple electric arc lighting system and founder of the Brush Electric Company.

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Brush graduated from the University of Michigan in 1869 and worked for several years as a chemist. Believing that electric arc lighting would be commercially successful if the equipment could be improved, he completed his first dynamo in 1875 and a simplified arc lamp. His original system operated a maximum of four lights, each on a separate circuit, from one dynamo. Brush envisaged a wider market for his product and by 1879 had available on arc lighting system principally intended for street and other outdoor illumination. He designed a dynamo that generated a high voltage and which, with a carbon-pile regulator, provided an almost constant current permitting the use of up to forty lamps on one circuit. He also improved arc lamps by incorporating a slipping-clutch regulating mechanism and automatic means of bringing into use a second set of carbons, thereby doubling the period between replacements.

Brush's multiple electric arc lighting system was first demonstrated in Cleveland and by 1880 had been adopted in a number of American cities, including New York, Boston and Philadelphia. It was also employed in many European towns until incandescent lamps, for which the Brush dynamo was unsuitable, came into use. To market his apparatus, Brush promoted local lighting companies and thereby secured local capital.

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Principal Honours and Distinctions

Chevalier de la Légion d'honneur 1881. American Academy of Arts and Sciences Rumford Medal 1899. American Institute of Electrical Engineers Edison Medal 1913.

Bibliography

18 May 1878, British patent no. 2,003 (Brush dynamo).

11 March 1879, British patent no. 947 (arc lamp).

26 February 1880, British patent no. 849 (current regulator).

Further Reading

J.W.Urquhart, 1891, Electric Light, London (for a detailed description of the Brush system).

H.C.Passer, 1953, The Electrical Manufacturers: 1875–1900, Cambridge, Mass., pp. 14– 21 (for the origins of the Brush Company).

S.Steward, 1980, in Electrical Review, 206:34–5 (a short account).

See also: Hammond, Robert

GW

Cochran, Josephine C.

SUBJECT AREA: Domestic appliances and interiors

[br]

b. c.1842 Ohio, USA

d. after November 1908 USA

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American inventor of the dishwashing machine.

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Amidst the growing cohorts of American inventors who began to deluge the patent office with their inventions from around the middle of the nineteenth century are at least 30 women who received patents for dishwashers. Of these, it seems that Josephine C.Cochran can be credited with the invention of the first commercially available dishwasher. She developed her machine over a period often years, achieving patents in 1886 and 1888, with a third in 1894 for a "dish-cleaner". She completed the work in 1889, only after the death of her husband, who had kept her too short of funds to perfect her invention. Cochran exhibited her dishwasher at the Columbian Exposition in Chicago in 1892. There was a smaller, "family"-size machine for domestic use and a larger model, steam-driven, for major hotels and restaurants; this latter model was used by many such establishments in Chicago. It was said that the large machine could scald, rinse and dry up to 240 plates of various shapes and sizes in two minutes. Her invention had won her sufficient fame to earn her a place in a list, published in 1886, of prominent American women inventors.

Little is known of Cochran's personal details, save that she was married to a circuit clerk ten years her senior, by whom she had a daughter. She was still active in November 1908, for she exhibited again at the Martha Washington Hotel Suffrage Bazaar in New York City.

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Further Reading

A.Stanley, 1993, Mothers and Daughters of Invention, Meruchen, NJ: Scarecrow Press, pp. 438–9.

LRD

Cushing, Harvey Williams

SUBJECT AREA: Medical technology

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b. 8 April 1869 Cleveland, Ohio, USA

d. 7 October 1939 New Haven, Connecticut, USA

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American neurosurgeon and innovator of antihaemorrhagic techniques including the use of electrocoagulation.

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Cushing graduated in medicine from Harvard University in 1895, having already acquired an arts degree at Yale (1891). He held posts in Boston and at Johns Hopkins Hospital, Baltimore, from 1897 until 1890, and then travelled abroad. After studying in Germany and England he returned to Baltimore to become Assistant Professor of Surgery in 1903 working under W.S. Halsted, a post he held until 1912. In 1905 he started specializing in neurosurgery, undertaking much experimental work and developing new instruments and techniques, such as spinal anaesthesia and in particular the electrosurgical methods pioneered by W.T. Bovie.

Returning to Harvard as Professor of Surgery, he established a renowned school of neurosurgery. He retired from Harvard in 1932, becoming Stirling Professor of Neurosurgery until 1937 and then Director of Studies in the History of Medicine at Yale.

His researches in neurophysiology were extensive and the eponymous pituitary syndrome is only one of a large number of discoveries in the field. He was awarded numerous honours, both American and international. He was a noted bibliophile, particularly of medical books and manuscripts, and his own extensive collection was bequeathed to Yale, becoming an important part of the Historical Medical Library.

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Bibliography

1928, "Electrosurgery as an aid to the removal of intracranial tumours", Surg. Gynec. Obstet.

1912, The Pituitary Body and its Disorders.

1928, Tumours Arising from the Blood-vessels of the Brain. 1925, Life of Sir William Osler.

Further Reading

J.F.Fulton, 1946, Harvey Cushing: A Biography.

MG

Duryea, Charles Edgar

SUBJECT AREA: Automotive engineering, Land transport

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b. 15 December 1861 Cawton, Ohio, USA

d. 28 September 1938 Philadelphia, Pennsylvania, USA

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American inventor and pioneer cur maker.

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He began his career in the bicycle trade, in which he invented a number of devices. He launched his own business in Peoria, Illinois, and later moved to Springfield, Massachusetts. In 1891 he had designed a motor-driven carriage and a gas engine and, with his brother, J.Frank Duryea, he built the first successful American car, which was demonstrated in Springfield in September, 1893. An improved version, largely designed by Frank Duryea, won several races both at home and abroad in 1895–6. The Duryea Motor Wagon Company made the first sale of an American-made automobile in 1896. Charles later organized the Duryea Power Company, manufacturing a three-cylinder car until 1914, the brothers parting company in 1898. Frank developed the Stevens-Duryea between 1903 and 1914.

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Further Reading

Dictionary of American Biography, Vol. XI (Suppl. 2), New York: Charles Scribner.

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