John Tyndall

British physicist (1820–1893)

Tyndall was born at Carlow (now in the Republic of Ireland) and after leaving school began work as a draftsman and civil engineer in the Irish Ordnance Survey. He later became a railway engineer for a Manchester firm. His drive for knowledge caused him to read widely and attend whatever public lectures he could. In 1847 he became a teacher of mathematics, surveying, and engineering physics at the Quaker school, Queenwood College, Hampshire.

The following year Tyndall entered the University of Marburg, Germany, to study mathematics, physics, and chemistry; after graduating in 1850 he worked in H. G. Magnus's laboratory in Berlin on diamagnetism. He was appointed professor of natural philosophy at the Royal Institution in 1853 and became a colleague and admirer of Michael Faraday; he succeeded Faraday as director of the Royal Institution in 1867 and held this position until his retirement in 1887.

Tyndall's activities were many-sided. His chief scientific work is considered to be his researches on radiant heat; these included measurements of the transmission of radiant heat through gases and vapors published in a series of papers starting in 1859. But he is perhaps better known for his investigations on the behavior of light beams passing through various substances; he gave his name to the Tyndall effect – the scattering of light by particles of matter in its path, thus making the light beam visible – which he discovered in 1859. Tyndall elucidated the blue of the sky following the work of John Rayleigh on the scattering of light. He also discovered the precipitation of organic vapors by means of light, examined the opacity of the air for sound in connection with lighthouses and siren work, demonstrated that dust in the atmosphere contained microorganisms, and verified that germ-free air did not initiate putrefaction.

Tyndall was especially noted in his day as a great popularizer of science and advocate of scientific education, rather than as a great scientist. Among his many books for the nonspecialist the famous Heat Considered as a Mode of Motion (1863), the first popular exposition of the mechanical theory of heat, went through numerous editions. He was a member of the ‘X’ Club, a group of prominent British scientists formed to ensure that the claims of science and scientific education were kept before the government of the day. He also helped to inaugurate the British scientific journal Nature. In 1872 and 1873 he undertook public lecture tours in America, giving the proceeds to a trust set up to benefit American science.

Tyndall died in 1893, accidentally poisoned by his wife with an overdose of chloral hydrate. “You have killed your John,” he is alleged to have told her shortly before he died the following day. Louisa Tyndall lived another 47 years.

The Irish physicist John Tyndall (1820-1893) is best known for his work on the scattering of light by atmospheric particles and on the absorption of infrared radiation by gases. He also did much to popularize science among laymen.

John Tyndall was born on Aug. 2, 1820, at Leighlin Bridge, near Carlow, Ireland, where his father was a constable. After a little formal schooling, he gained a practical education by working as a surveyor and engineer. He entered the University of Marburg, Germany, in 1848 and earned his doctorate 2 years later. His dissertation research interested Michael Faraday, who later brought him to the Royal Institution of London. In 1867 Tyndall succeeded Faraday as superintendent there. He retired in 1887.

Tyndall is noted for his study of the scattering of light by atmospheric particles, a phenomenon sometimes called the Tyndall effect. In 1869 he provided explanations for the color of the sun at the horizon and of clear skies; about 2 years later Lord Rayleigh provided the relevant theory. Tyndall showed that if broth was placed in air which was without scattering particles, the usual life forms did not develop. His work thus did much to invalidate the "spontaneous generation" theory of life.

Tyndall's studies of the transmission of infrared radiation through gases and vapors did much to clarify the nature of the absorption process and brought him the Rumford Medal in 1869.

In connection with consulting work on navigational aids Tyndall gave much attention to sound phenomena. This resulted in his interesting book On Sound (1867), written "to render the science of acoustics interesting to all intelligent persons including those who do not possess any special scientific culture." He wrote 15 other popular treatises, many of which are still enjoyable reading. "As a popular writer on the phenomena of physics he had no equal."

Tyndall's passion for justice was never better demonstrated than during the bitter scientific controversy of 1864-1866 concerning the priority rights of J. R. Mayer, whose cause Tyndall supported, as originator of the conservation-of-energy concept. Mention is also due his 1874 address at Belfast, in which he firmly advocated the right of science to follow its course without restrictions by dogma or theology, and in which he equally firmly denied that there was any basic conflict between science and religion.

Tyndall was an expert mountain climber and in 1861 made the first ascent of the Weisshorn. At the age of 56 he married the woman who, he said, "raised my ideal of the possibilities of human nature." He died at his home near Haslemere on Dec. 4, 1893.

Further Reading

A full and interesting account of Tyndall is provided in A. S. Eve and C. H. Creasey, The Life and Work of John Tyndall (1945). Tyndall's life and contributions to science are discussed in James Gerald Crowther, Scientific Types (1970).

Additional Sources

John Tyndall, essays on a natural philosopher, Dublin: Royal Dublin Society, 1981.