Difference between revisions of "The Spinning Charged Ring"
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| title = The Spinning Charged Ring | | title = The Spinning Charged Ring | ||
| author = [[Domina Eberle Spencer]], [[Uma Y Shama]], [[Philip J Mann]], [[Terri L Mascardo]] | | author = [[Domina Eberle Spencer]], [[Uma Y Shama]], [[Philip J Mann]], [[Terri L Mascardo]] | ||
− | | keywords = [[ | + | | keywords = [[spinning charged ring]], [[charge cluster]], [[New Gaussian electromagnetic theory]] |
− | | published = | + | | published = 2006 |
| journal = [[None]] | | journal = [[None]] | ||
}} | }} | ||
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==Abstract== | ==Abstract== | ||
− | The gravitational and electromagnetic forces | + | The simplest model of a charge cluster is a spinning charged ring. The gravitational and electromagnetic forces must add to zero if charge clusters are to be in dynamic equilibrium. The paper investigates whether spinning rings of charge can be in dynamic equilibrium according to classical electromagnetic theory and according to the New Gaussian electromagnetic theory. |
− | + | [[Category:Scientific Paper|spinning charged ring]] | |
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− | + | [[Category:Gravity|spinning charged ring]] | |
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− | [[Category:Gravity]] |
Latest revision as of 20:08, 1 January 2017
Scientific Paper | |
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Title | The Spinning Charged Ring |
Author(s) | Domina Eberle Spencer, Uma Y Shama, Philip J Mann, Terri L Mascardo |
Keywords | spinning charged ring, charge cluster, New Gaussian electromagnetic theory |
Published | 2006 |
Journal | None |
Abstract
The simplest model of a charge cluster is a spinning charged ring. The gravitational and electromagnetic forces must add to zero if charge clusters are to be in dynamic equilibrium. The paper investigates whether spinning rings of charge can be in dynamic equilibrium according to classical electromagnetic theory and according to the New Gaussian electromagnetic theory.