The Bridgman effect (named after P. W. Bridgman), also called the internal Peltier effect, is a phenomenon that occurs when an electric current passes through an anisotropic crystal – there is an absorption or liberation of heat because of the non-uniformity in current distribution.
The Bridgman effect is observable in geology. It describes stick-slip behavior of materials under very high pressure. [1]
- ^ Griggs, David (1960). Rock Deformation (A Symposium). Geological Society of America. p. 339. ISBN 9780813710792. Retrieved 9 September 2017.
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The Bridgman effect (named after P. W. Bridgman), also called the internal Peltier effect, is a phenomenon that occurs when an electric current passes through an anisotropic crystal – there is an absorption or liberation of heat because of the non-uniformity in current distribution.
The Bridgman effect is observable in geology. It describes stick-slip behavior of materials under very high pressure. [1]
- ^ Griggs, David (1960). Rock Deformation (A Symposium). Geological Society of America. p. 339. ISBN 9780813710792. Retrieved 9 September 2017.
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| This electromagnetism-related article is a stub. You can help Wikipedia by expanding it. |