Difference between revisions of "Electromagnetism in Uniformly Accelerated Media"
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| − | Maxwell's equations and constitutive relations have the same expressions in uniformly moving frames and in uniformly accelerated frames, except that in the accelerated case velocity depends on space and time. This last feature makes it difficult to obtain solutions to Maxwell's equations. An interesting approximation is possible when one considers a uniformly accelerated system at a time long enough after its launch to make its velocity approach the velocity of light. We discuss this approximation as applied to electromagnetic plane waves propagating in a uniformly accelerated medium. We prove that a static charge in a uniformly accelerated medium does not radiate.[[Category:Scientific Paper]] | + | Maxwell's equations and constitutive relations have the same expressions in uniformly moving frames and in uniformly accelerated frames, except that in the accelerated case velocity depends on space and time. This last feature makes it difficult to obtain solutions to Maxwell's equations. An interesting approximation is possible when one considers a uniformly accelerated system at a time long enough after its launch to make its velocity approach the velocity of light. We discuss this approximation as applied to electromagnetic plane waves propagating in a uniformly accelerated medium. We prove that a static charge in a uniformly accelerated medium does not radiate. |
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| + | [[Category:Scientific Paper|electromagnetism uniformly accelerated media]] | ||
Latest revision as of 10:20, 1 January 2017
| Scientific Paper | |
|---|---|
| Title | Electromagnetism in Uniformly Accelerated Media |
| Author(s) | Pierre Hillion |
| Keywords | {{{keywords}}} |
| Published | 2001 |
| Journal | Galilean Electrodynamics |
| Volume | 12 |
| Number | 5 |
| Pages | 83-87 |
Abstract
Maxwell's equations and constitutive relations have the same expressions in uniformly moving frames and in uniformly accelerated frames, except that in the accelerated case velocity depends on space and time. This last feature makes it difficult to obtain solutions to Maxwell's equations. An interesting approximation is possible when one considers a uniformly accelerated system at a time long enough after its launch to make its velocity approach the velocity of light. We discuss this approximation as applied to electromagnetic plane waves propagating in a uniformly accelerated medium. We prove that a static charge in a uniformly accelerated medium does not radiate.
