John Fleming
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== John Fleming: Biography == | == John Fleming: Biography == | ||
| − | + | Born: 29 November 1849<br>Died: 18 April 1945 | |
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| + | === Early Life and Career === | ||
The son of a congregational minister, John A. Fleming was born in Lancaster, England, on 29 November 1849. He received a degree in science from University College, London, in 1870, and then was a teacher until 1877, when he enrolled at St. John's College of Cambridge University. He attended lectures by [[James Clerk Maxwell|J. C. Maxwell]] and also did research at the Cavendish Laboratory. Fleming developed a precision resistance bridge instrument given the nickname "Fleming's banjo" and used it to compare resistance standards. He received the doctorate degree in 1879 and continued at Cambridge as a laboratory demonstrator until 1881, when he accepted a teaching position at Nottingham. He did some consulting for the [[Thomas Alva Edison|Edison]] Electric Company on incandescent lamps. In 1885, he joined the faculty of University College, London, where he spent the rest of his professional career. | The son of a congregational minister, John A. Fleming was born in Lancaster, England, on 29 November 1849. He received a degree in science from University College, London, in 1870, and then was a teacher until 1877, when he enrolled at St. John's College of Cambridge University. He attended lectures by [[James Clerk Maxwell|J. C. Maxwell]] and also did research at the Cavendish Laboratory. Fleming developed a precision resistance bridge instrument given the nickname "Fleming's banjo" and used it to compare resistance standards. He received the doctorate degree in 1879 and continued at Cambridge as a laboratory demonstrator until 1881, when he accepted a teaching position at Nottingham. He did some consulting for the [[Thomas Alva Edison|Edison]] Electric Company on incandescent lamps. In 1885, he joined the faculty of University College, London, where he spent the rest of his professional career. | ||
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| + | === [[Image:Fleming.jpg|thumb|left]]Research and Publications === | ||
One of Fleming's early investigations was concerning the "Edison effect," where he studied the unilateral conductivity of a carbon-filament lamp with a metal plate connected to an external circuit. In December 1889, he presented a paper on this work to the Royal Society of London entitled "On Electric Discharge Between Electrodes Temperatures in Air and High Vacua." He also conducted extensive research on alternating-current which led to his publication of a two-volume work, ''The Alternate Current Transformer'', in 1889 and 1892. He published a number of joint papers with J. Dewar during the 1890's related to the electric and magnetic properties of materials at low temperatures. Fleming was elected a fellow of the Royal Society of London in 1892. | One of Fleming's early investigations was concerning the "Edison effect," where he studied the unilateral conductivity of a carbon-filament lamp with a metal plate connected to an external circuit. In December 1889, he presented a paper on this work to the Royal Society of London entitled "On Electric Discharge Between Electrodes Temperatures in Air and High Vacua." He also conducted extensive research on alternating-current which led to his publication of a two-volume work, ''The Alternate Current Transformer'', in 1889 and 1892. He published a number of joint papers with J. Dewar during the 1890's related to the electric and magnetic properties of materials at low temperatures. Fleming was elected a fellow of the Royal Society of London in 1892. | ||
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| + | === Work on Wireless Communication === | ||
In April 1898, Fleming was permitted to examine Marconi's wireless apparatus at the time it was being used to send messages for about 14 miles from the Isle of Wight. In late March 1899, [[Guglielmo Marconi|Marconi]] demonstrated communication between England and France across the English Channel, an achievement that Fleming characterized as "one of those sensational feats which at once aroused the daily press to lively comment on the matter." Fleming participated in these experiments and reported the results in a letter published by ''The Times ''of London. He stated that "messages, signals, congratulations, and jokes were freely exchanged between the operators" situated on opposite sides of the channel. Later the same year, Fleming gave a lecture at a meeting of the British Association for the Advancement of Science in Dover during which wireless messages were sent and received from France. In 1900, Marconi invited Fleming to help design a more powerful wireless transmitter for an attempt to send signals across the Atlantic Ocean. The transmitter, which Fleming called the "first electric wave power station," was installed on the [[Milestones:Transmission of Transatlantic Radio Signals, 1901|coast of Cornwell]], and signals from it were reported to have been detected at a receiver in Newfoundland on December 12, 1901. | In April 1898, Fleming was permitted to examine Marconi's wireless apparatus at the time it was being used to send messages for about 14 miles from the Isle of Wight. In late March 1899, [[Guglielmo Marconi|Marconi]] demonstrated communication between England and France across the English Channel, an achievement that Fleming characterized as "one of those sensational feats which at once aroused the daily press to lively comment on the matter." Fleming participated in these experiments and reported the results in a letter published by ''The Times ''of London. He stated that "messages, signals, congratulations, and jokes were freely exchanged between the operators" situated on opposite sides of the channel. Later the same year, Fleming gave a lecture at a meeting of the British Association for the Advancement of Science in Dover during which wireless messages were sent and received from France. In 1900, Marconi invited Fleming to help design a more powerful wireless transmitter for an attempt to send signals across the Atlantic Ocean. The transmitter, which Fleming called the "first electric wave power station," was installed on the [[Milestones:Transmission of Transatlantic Radio Signals, 1901|coast of Cornwell]], and signals from it were reported to have been detected at a receiver in Newfoundland on December 12, 1901. | ||
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| + | === Legacy === | ||
Fleming retired from University College in 1926 and received the Faraday Medal of the British Institution of Electrical Engineers in 1928. He was knighted in 1929 and elected president of the Television Society of London 1930. Fleming was awarded the IRE Medal of Honor in 1933, "For the conspicuous part he played in introducing physical and engineering principles into the radio art." He died on 18 April 1945 at age 95. <br><br> | Fleming retired from University College in 1926 and received the Faraday Medal of the British Institution of Electrical Engineers in 1928. He was knighted in 1929 and elected president of the Television Society of London 1930. Fleming was awarded the IRE Medal of Honor in 1933, "For the conspicuous part he played in introducing physical and engineering principles into the radio art." He died on 18 April 1945 at age 95. <br><br> | ||
[[Category:People_and_organizations]] [[Category:Components,_circuits,_devices_&_systems|Category:Components,_circuits,_devices_&_systems]] [[Category:Electronic_components]] [[Category:Resistors]] [[Category:Communications]] [[Category:Telegraphy]] [[Category:Wireless_telegraphy]] [[Category:Electron_devices]] [[Category:Vacuum_technology]] | [[Category:People_and_organizations]] [[Category:Components,_circuits,_devices_&_systems|Category:Components,_circuits,_devices_&_systems]] [[Category:Electronic_components]] [[Category:Resistors]] [[Category:Communications]] [[Category:Telegraphy]] [[Category:Wireless_telegraphy]] [[Category:Electron_devices]] [[Category:Vacuum_technology]] | ||
Revision as of 19:01, 21 October 2008
Contents |
John Fleming: Biography
Born: 29 November 1849
Died: 18 April 1945
Early Life and Career
The son of a congregational minister, John A. Fleming was born in Lancaster, England, on 29 November 1849. He received a degree in science from University College, London, in 1870, and then was a teacher until 1877, when he enrolled at St. John's College of Cambridge University. He attended lectures by J. C. Maxwell and also did research at the Cavendish Laboratory. Fleming developed a precision resistance bridge instrument given the nickname "Fleming's banjo" and used it to compare resistance standards. He received the doctorate degree in 1879 and continued at Cambridge as a laboratory demonstrator until 1881, when he accepted a teaching position at Nottingham. He did some consulting for the Edison Electric Company on incandescent lamps. In 1885, he joined the faculty of University College, London, where he spent the rest of his professional career.
Research and Publications
One of Fleming's early investigations was concerning the "Edison effect," where he studied the unilateral conductivity of a carbon-filament lamp with a metal plate connected to an external circuit. In December 1889, he presented a paper on this work to the Royal Society of London entitled "On Electric Discharge Between Electrodes Temperatures in Air and High Vacua." He also conducted extensive research on alternating-current which led to his publication of a two-volume work, The Alternate Current Transformer, in 1889 and 1892. He published a number of joint papers with J. Dewar during the 1890's related to the electric and magnetic properties of materials at low temperatures. Fleming was elected a fellow of the Royal Society of London in 1892.
Work on Wireless Communication
In April 1898, Fleming was permitted to examine Marconi's wireless apparatus at the time it was being used to send messages for about 14 miles from the Isle of Wight. In late March 1899, Marconi demonstrated communication between England and France across the English Channel, an achievement that Fleming characterized as "one of those sensational feats which at once aroused the daily press to lively comment on the matter." Fleming participated in these experiments and reported the results in a letter published by The Times of London. He stated that "messages, signals, congratulations, and jokes were freely exchanged between the operators" situated on opposite sides of the channel. Later the same year, Fleming gave a lecture at a meeting of the British Association for the Advancement of Science in Dover during which wireless messages were sent and received from France. In 1900, Marconi invited Fleming to help design a more powerful wireless transmitter for an attempt to send signals across the Atlantic Ocean. The transmitter, which Fleming called the "first electric wave power station," was installed on the coast of Cornwell, and signals from it were reported to have been detected at a receiver in Newfoundland on December 12, 1901.
Legacy
Fleming retired from University College in 1926 and received the Faraday Medal of the British Institution of Electrical Engineers in 1928. He was knighted in 1929 and elected president of the Television Society of London 1930. Fleming was awarded the IRE Medal of Honor in 1933, "For the conspicuous part he played in introducing physical and engineering principles into the radio art." He died on 18 April 1945 at age 95.
