Hostname: page-component-586b7cd67f-l7hp2 Total loading time: 0 Render date: 2024-11-30T15:13:25.912Z Has data issue: false hasContentIssue false

Carl Gottfried Neumann

Published online by Cambridge University Press:  26 September 2008

Robert Disalle
Affiliation:
Department of PhilosophyUniversity of Western Ontario

Abstract

Carl Gottfried Neumann was born in Königsberg, Prussia, in 1832 and died in Leipzig in 1925. His father was the physicist Franz Neumann (1798–1895), notable for his contributions not only to the study of electricity and magnetism but also to the development of physics education in nineteenth-century Germany. Carl Neumann studied at the University of Königsberg and received his doctorate in 1855 with a work on the application of elliptic integrals to mechanics (Neumann 1856). In 1858 he became Privatdozent, and in 1863 Professor of Mathematics at Halle. Later that same year he moved to Basel, and in 1865 he became Ordinary Professor of Mathematics at Tübingen. Finally in 1868 he was appointed Professor of Mathematics at Leipzig, a post he held until he retired in 1911; of the two mathematics professorships at Leipzig, this was the one formerly held by F. A. Möbius, and it was officially devoted to “the higher mathematics, especially physics” (quoted in Jungnickel and McCormmach 1986, 1:181). So Neumann's academic career, along with his role as one of the founding editors of the Mathematische Annalen beginning in 1869, can be seen as reflecting the enormous advance in mathematical sophistication that German physics underwent in the latter part of the nineteenth century.

Type
The Context of Classical Physics
Copyright
Copyright © Cambridge University Press 1993

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Barbour, Julian. 1989. Absolute or Relative Motion? Cambridge: Cambridge University Press.Google Scholar
DiSalle, Robert. 1988 Space, Time, and Inertia in the Foundations of Newtonian Physics, 1870–1905. Ph.D. dissertation, University of ChicagoGoogle Scholar
Helmholtz, Hermann von 1910. Handbuch der Physiologischen Optik, 3rd ed. Hamburg: Voss.Google Scholar
Hölder, Otto. 1925. “Carl Neumann.” BKSG 77:154–80. (Contains a list of Neumann's works; reprinted in MA 96 [1927]:1.)Google Scholar
Jungnickel, Christa, and McCormmach, Russel 1986. The Intellectual Mastery of Nature: Theoretical Physics from Ohm to Einstein. Chicago: University of Chicago Press.Google Scholar
Kirchoff, Gustav. 1876. Vorlesung liber Mechanik. Leipzig: Teubner.Google Scholar
Lange, Ludwig. 1883. Die geschichtliche Entwickelung des Bewegungsbegr Leipzig Teubner.Google Scholar
Lange, Ludwig. 1885a. “über das Beharrungsgesetz.” In BKSG 36: 335–51.Google Scholar
Lange, Ludwig 1885b. “über die Wissenschaftliche Fassung des Beharrungsgesetzes.“ Wundt's Philosophische Studien 2:276–97.Google Scholar
Leibmann, H. 1927. “Zur Erinnerung an Carl Neumann.” Jahresberichte der Deutschen Mathematikvereinigung 36: 175–78.Google Scholar
Mach, Ernst 1872 Die Geschichte und die Wurzel des Satzes von der Erhaltung derArbeit. Prague.Google Scholar
Mach, Ernst 1913. Die Mechanik in ihrer Entwickelung, 7th ed. Leipzig: Brockhaus.Google Scholar
Newton, Isaac 1728. The Mathematical Principles of Natural Philosophy, translated by Motte, Andrew. London.Google Scholar
Salié, H. 1965. “Carl Neumann.” In Bedeutende Gelehrte in Leipzig, vol. 2, edited by Hang, G. Leipzig.Google Scholar
Streintz, Heinrich, 1883. Die physikalischen Grundlagen der Mechanik. Leipzig: Teubner.Google Scholar
Thomson, J. 1884. “On the Law of Inertia.” Proceedings of the Royal Society of Edinburgh 12:568–78.Google Scholar
Torretti, Roberto 1984. Relativity and Geometry. Oxford: Pergamon Press.Google Scholar