John Ambrose Fleming

Infobox_Scientist
name = Sir J. Ambrose Fleming


caption =
birth_name = John Ambrose Fleming
birth_date = birth date|1849|11|29|mf=y
birth_place = Lancaster, Lancashire, England
death_date = death date and age|1945|4|18|1849|11|29|mf=y
death_place = Sidmouth, Devon, England
residence = England
nationality = English
field = Electrical engineer and physicist
work_institutions = University College, London
University of Nottingham
Cambridge University
Edison Electric Light Co.
alma_mater = University College, London
Royal College of Science
doctoral_advisor = Frederick Guthrie
doctoral_students = Harold Barlow
notable_students = Balthasar van der Pol
known_for = Fleming's left hand rule
Fleming's right hand rule
Kenotron
prizes = Hughes Medal (1910)
IRE Medal of Honor (1933)
religion = Congregationalist
footnotes =

Sir John Ambrose Fleming (November 29, 1849 - April 18, 1945) was an English electrical engineer and physicist. He is known for inventing the first thermionic valve or vacuum tube, the diode, then called the kenotron in 1904. [cite web|last=Harr|first=Chris|title=Ambrose J. Fleming biography|date=2003-06-23|work=Pioneers of Computing|publisher=The History of Computing Project|url=http://www.thocp.net/biographies/fleming_ambrose.htm|accessdate=2008-04-30] He also invented the right hand rule, used in mathematics and electronics. [cite web|title=Right and left hand rules|work=Tutorials, Magnet Lab U.|publisher=National High Magnetic Field Laboratory|url=http://www.magnet.fsu.edu/education/tutorials/java/handrules/index.html|accessdate=2008-04-30] He was born the eldest of seven children of James Fleming DD (d. 1879), a Congregational minister, and his wife, Mary Ann, at Lancaster, Lancashire and baptised on February 11 1850. He was a devout Christian and preached on one occasion at St Martin-in-the-Fields in London on the topic of evidence for the resurrection. In 1932, along with Douglas Dewar and Bernard Acworth, he helped establish the Evolution Protest Movement. Having no children, he bequeathed much of his estate to Christian charities, especially those that helped the poor. He was an accomplished photographer and, in addition, he painted watercolours and enjoyed climbing in the Alps.

Early years

Ambrose Fleming was born in Lancaster and educated at University College School, London, and University College London. He won a fellowship to St John's College, Cambridge in 1877, and went on to Lecture at several universities including the University of Cambridge, the University of Nottingham, and University College London, where he was the first professor of Electrical Engineering. He was also consultant to the Marconi Wireless Telegraph Company, Swan Company, Ferranti, Edison Telephone, and later the Edison Electric Light Company. In 1892, Fleming presented an important paper on electrical transformer theory to the Institution of Electrical Engineers in London.

Education and marriages

Fleming started school at about the age of ten, attending a private school where he particularly enjoyed geometry. Prior to that his mother tutored him and he had learned, virtually by heart, a book called the "Child's Guide to Knowledge", a popular book of the day - even as an adult he would quote from it. His schooling continued at the University College School where, although accomplished at maths, he habitually came bottom of the class at Latin.

Even as a boy he wanted to become an engineer. At 11 he had his own workshop where he built model boats and engines. He even built his own camera, the start of a lifelong interest in photography. Training to become an engineer was beyond the family's financial resources, but he reached his goal via a path that alternated education with paid employment.

He enrolled for a BSc degree at University College, London, graduated in 1870, and studied under the mathematician Augustus de Morgan and the physicist George Carey Foster. He became a student of chemistry at the Royal College of Science in South Kensington in London (now Imperial College). There he first studied Alessandro Volta's battery, which became the subject of his first scientific paper. This was the first paper to be read to the new Physical Society of London (now the Institute of Physics) and appears on page one of volume one of their Proceedings. Financial problems again forced him to work for a living and in the summer of 2890 he became science master at Cheltenham College, a public school, earning £400 per year. (He later also taught at Rossall School.) His own scientific research continued and he corresponded with James Clerk Maxwell at Cambridge University. After saving £400, and securing a grant of £50 a year, in October 1877 at the age of 27, he once again enrolled as a student, this time at Cambridge. Maxwell's lectures, he admitted, were difficult to follow. Maxwell, he said, often appeared obscure and had "a paradoxical and allusive way of speaking". On occasions Fleming was the only student at those lectures. Fleming again graduated, this time with a First Class Honours degree in chemistry and physics. He then obtained a DSc from London and served one year at Cambridge University as a demonstrator of mechanical engineering before being appointed as the first Professor of Physics and Mathematics at the University of Nottingham, but he left after less than a year.

On 11 June 1887 he married Clara Ripley (1856/7–1917), daughter of Walter Freake Pratt, a solicitor from Bath. On 27 July 1928 he married the popular young singer Olive May Franks (b. 1898/9), of Bristol, daughter of George Franks, a Cardiff businessman.

Activities and achievements

In November 1904, he invented and patented the two-electrode vacuum-tube rectifier, which he called the oscillation valve. It was also called a thermionic valve, vacuum diode, kenotron, thermionic tube, or Fleming valve. The Supreme Court of the United States later invalidated the patent because of an improper disclaimer and, additionally, maintained the technology in the patent was known art when filed. [ [http://www.mercurians.org/nov98/misreading.html "Misreading the Supreme Court: A Puzzling Chapter in the History of Radio"] . November 1998, Mercurians.org.] This invention is often considered to have been the beginning of electronics, for this was the first vacuum tube.Fact|date=May 2007 Fleming's diode was used in radio receivers and radars for many decades afterwards, until it was superseded by solid state electronic technology more than 50 years later.

In 1906, Lee De Forest of the U.S. added a control "grid" to the valve to create a vacuum tube RF detector called the "Audion", leading Fleming to accuse him of copying his ideas. De Forest's device was shortly refined by him and Edwin H. Armstrong into the first electronic amplifier, a tube called the triode. The triode was vital in the creation of long-distance telephone and radio communications, radars, and early electronic digital computers (mechanical and electro-mechanical digital computers already existed using different technology). Fleming also contributed in the fields of photometry, electronics, wireless telegraphy (radio), and electrical measurements. He was knighted in 1929, and died at his home in Sidmouth, Devon in 1945. His contributions to electronic communications and radar were of vital importance in winning World War II. 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".

Note from eulogy at the Centenary celebration of the invention of the thermionic valve:

:One century ago, in November 1904, John Ambrose Fleming FRS, Pender Professor at UCL, filed patent|GB|190424850| in Great Britain, for a device called the Thermionic Valve. When inserted together with a galvanometer, into a tuned electrical circuit, it could be used as a very sensitive rectifying detector of high frequency wireless currents, known as radio waves. It was a major step forward in the ‘wireless revolution’.

In November 1905, he patented the "Fleming Valve" (patent|US|803684|). As a rectifying diode, and forerunner to the triode valve and many related structures, it can also be considered to be the device that gave birth to modern electronics.

In the ensuing years such valves, were largely superseded by "cat’s whiskers", and decades later most electron tubes, as they became generically known, were gradually replaced by semiconductor diodes and transistors, which were significantly smaller, cheaper, and more reliable. In time and in turn, even these have been largely replaced by integrated circuits, better known as silicon chips.

Today, descendants of the original vacuum tube still play an important role in a range of applications. They can be found in the power stages of radio and television transmitters, in audio amplifiers, as detectors of optical and short wavelength radiation, and in sensitive equipment that must be "radiation-hard".

On the 27th November 2004 a Blue Plaque (presented by the Institute of Physics) was unveiled at the "Norman Lockyer Observatory", Sidmouth, to mark 100 years since the invention of the Thermionic Radio Valve.

Books by Fleming

* "Electric Lamps and Electric Lighting: A course of four lectures on electric illumination delivered at the Royal Institution of Great Britain" (1894) 228 pages, ISBN 0548479377.
* "The Alternate Current Transformer in Theory and Practice" "The Electrician" Printing and Publishing Company (1896)
* "Magnets and Electric Currents" E. & F. N. Spon. (1898)
* "A Handbook for the Electrical Laboratory and Testing Room" "The Electrician" Printing and Publishing Company (1901)
* "Waves and Ripples in Water, Air, and Aether" MacMillan (1902).
* "The Evidence of Things Not Seen" Christian Knowledge Society: London (1904)
* "The Principles of Electric Wave Telegraphy" (1906), Longmans Green, London, 671 pages.
* "The Propagation of Electric Currents in Telephone and Telegraph Conductors" (1908) Constable, 316 pages.
* "An Elementary Manual of Radiotelegraphy and Radiotelephony" (1911) Longmans Green, London, 340 pages.
* "On the power factor and conductivity of dielectrics when tested with alternating electric currents of telephonic frequency at various temperatures " (1912) Gresham, 82 pages, ASIN: B0008CJBIC
* "The Wonders of Wireless Telegraphy : Explained in simple terms for the non-technical reader" Society for promoting Christian Knowledge (1913)
* "The Wireless Telegraphist's Pocket Book of Notes, Formulae and Calculations" The Wireless Press (1915)
* "The Thermionic Valve and its Development in Radio Telegraphy and Telephony" (1919).
* "Fifty Years of Electricity" The Wireless Press (1921)
* "Electrons, Electric Waves and Wireless telephony" The Wireless Press (1923)
* "Introduction to Wireless Telegraphy and Telephony" Sir Isaac Pitman and Sons Ltd. (1924)
* "Mercury-arc Rectifiers and Mercury-vapour Lamps" London. Pitman (1925)
* "The Electrical Educator" (3 volumes), The New Era Publishing Co Ltd (1927)
* "Memories of a Scientific life" Marshall, Morgan & Scott (1934)
* "Evolution or Creation?" (1938) Marshall Morgan and Scott, 114 pages, ASIN: B00089BL7Y - outlines objections to Darwin.
* "Mathematics for Engineers" George Newnes Ltd (1938)

References

*

External articles

* [http://www.ieee.org/web/aboutus/history_center/biography/fleming.html IEEE History Center biography]
* [http://www.ee.ucl.ac.uk Department of Electronic & Electrical Engineering, UCL - home of the original Fleming valve]
* [http://www.ee.ucl.ac.uk/Fleming 100 Years of Electronics 2004 - The Centenary of the Fleming Valve]

Persondata
NAME= Fleming, Sir J. Ambrose
ALTERNATIVE NAMES=
SHORT DESCRIPTION= Electrical engineer and physicist
DATE OF BIRTH= birth date|1849|11|29|mf=y
PLACE OF BIRTH= Lancaster, Lancashire, England
DATE OF DEATH= death date|1945|4|18|mf=y
PLACE OF DEATH= Sidmouth, Devon, England