Difference between revisions of "Action-at-a-Distance: A Key to Homopolar Induction"
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==Abstract== | ==Abstract== | ||
− | The crucial character of relative motion and Ampeers force law in interpreting homopolar induction was pointed out in recent experimentation performed by us. H. Montgomery suggests the compatibility of that experimental results with Maxwell's field theory. With the purpose of elucidating the applicable rationale this article identifies three independent energy-conversion mechanisms definable within the basic homopolar-machine frame and, hinging on a specially developed finite-element software, introduces an Amperian analysis of associated electro-and ponderomotive effects. | + | The crucial character of relative motion and Ampeers force law in interpreting homopolar induction was pointed out in recent experimentation performed by us. H. Montgomery suggests the compatibility of that experimental results with Maxwell's field theory. With the purpose of elucidating the applicable rationale this article identifies three independent energy-conversion mechanisms definable within the basic homopolar-machine frame and, hinging on a specially developed finite-element software, introduces an Amperian analysis of associated electro-and ponderomotive effects. |
− | [[Category:Relativity]] | + | [[Category:Scientific Paper|action-at-a-distance key homopolar induction]] |
+ | |||
+ | [[Category:Relativity|action-at-a-distance key homopolar induction]] |
Latest revision as of 19:15, 1 January 2017
Scientific Paper | |
---|---|
Title | Action-at-a-Distance: A Key to Homopolar Induction |
Read in full | Link to paper |
Author(s) | Jorge A Guala-Valverde, Ricardo A Achilles |
Keywords | Homopolar Induction |
Published | 2007 |
Journal | Apeiron |
Volume | 14 |
Number | 3 |
No. of pages | 15 |
Pages | 169-183 |
Read the full paper here
Abstract
The crucial character of relative motion and Ampeers force law in interpreting homopolar induction was pointed out in recent experimentation performed by us. H. Montgomery suggests the compatibility of that experimental results with Maxwell's field theory. With the purpose of elucidating the applicable rationale this article identifies three independent energy-conversion mechanisms definable within the basic homopolar-machine frame and, hinging on a specially developed finite-element software, introduces an Amperian analysis of associated electro-and ponderomotive effects.