Jump to content

Gustav Heinrich Wiedemann

From Wikipedia, the free encyclopedia

This is an old revision of this page, as edited by BOTijo (talk | contribs) at 14:18, 8 October 2007 (+DEFAULTSORT). The present address (URL) is a permanent link to this revision, which may differ significantly from the current revision.

Gustav Heinrich Wiedemann (October 2, 1826 - March 24, 1899), German physicist, was born at Berlin.

After attending the Cologne gymnasium, he entered the university of Berlin in 1844, and took his doctor's degree there three years later. His thesis on that occasion was devoted to a question in organic chemistry, for he held the opinion that the study of chemistry is an indispensable preliminary to the pursuit of physics, which was his ultimate aim.

In Berlin he made the acquaintance of Hermann von Helmholtz at the house of HG Magnus, and was one of the founders of the Berlin Physical Society. In 1854 he left Berlin to become professor of physics in Basel University, removing nine years afterwards to Brunswick Polytechnic, and in 1866 to Karlsruhe Polytechnic. In 1871 he accepted the chair of physical chemistry at Leipzig. The attention he had paid to chemistry in the earlier part of his career enabled him to hold his own in this position, but he found his work more congenial when in 1887 he was transferred to the professorship of physics. With Rudolf Franz Wiedemann developed the Wiedemann-Franz law relating thermal and electrical conductivity in 1853. He died at Leipzig on the March 24, 1899.

His name is probably most widely known for his literary work. In 1877 he undertook the editorship of the Annalen der Physik und Chemie in succession to JC Poggendorff, thus starting the series of that scientific periodical which is familiarly cited as Wied. Ann. Another monumental work for which he was responsible was Die Lehre van der Elektricitat, or, as it was called in the first instance, Lehre von Galvanismus und Elektromagnetismus, a book that is unsurpassed for accuracy and comprehensiveness. He produced the first edition in 1861, and a fourth, revised and enlarged, was only completed a short time before his death.

But his original work was also important. His data for the thermal conductivity of various metals were for long the most trustworthy at the disposal of physicists, and his determination of the ohm in terms of the specific resistance of mercury showed remarkable skill in quantitative research. He carried out a number of magnetic investigations which resulted in the discovery of many interesting phenomena, some of which have been rediscovered by others; they related among other things to the effect of mechanical strain on the magnetic properties of the magnetic metals, to the relation between the chemical composition of compound bodies and their magnetic properties, and to a curious parallelism between the laws of torsion and of magnetism. He also investigated electrical endosmosis and the electrical resistance of electrolytes.

His eldest son, Eilhard Ernst Gustav, born at Berlin on August 1, 1852, became professor of physics at Erlangen in 1886, and his younger son, Alfred, born at Berlin on July 18, 1856, was appointed to the extraordinary professorship of Egyptology at Bonn in 1892.

References

  • Public Domain This article incorporates text from a publication now in the public domainChisholm, Hugh, ed. (1911). Encyclopædia Britannica (11th ed.). Cambridge University Press. {{cite encyclopedia}}: Missing or empty |title= (help)