Difference between revisions of "Characteristics of High-Density Charge Clusters: A Theoretical Model"
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− | A mathematical model of charged clusters (Shoulders' EV's) is presented that shows the stability is due to a helical vortex ring possessing an extraordinary poloidal circulation. In this nonrelativistic calculation, the poloidal filament would have to be thin. A spherical electron cluster is unstable and would ten dot form into a toroid by a force balance relationship. The calculation shows that the energy density of the poloidal filament in a charge cluster is a hundred times higher than in a supernova explosion.[[Category:Scientific Paper]] | + | A mathematical model of charged clusters (Shoulders' EV's) is presented that shows the stability is due to a helical vortex ring possessing an extraordinary poloidal circulation. In this nonrelativistic calculation, the poloidal filament would have to be thin. A spherical electron cluster is unstable and would ten dot form into a toroid by a force balance relationship. The calculation shows that the energy density of the poloidal filament in a charge cluster is a hundred times higher than in a supernova explosion. |
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+ | [[Category:Scientific Paper|characteristics high-density charge clusters theoretical model]] | ||
[[Category:Relativity]] | [[Category:Relativity]] |
Revision as of 10:08, 1 January 2017
Scientific Paper | |
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Title | Characteristics of High-Density Charge Clusters: A Theoretical Model |
Author(s) | Hal Fox, Shang-Xian Jin |
Keywords | High-Density Charge Clusters |
Published | 1996 |
Journal | Journal of New Energy |
Volume | 1 |
Number | 4 |
Pages | 5-20 |
Abstract
A mathematical model of charged clusters (Shoulders' EV's) is presented that shows the stability is due to a helical vortex ring possessing an extraordinary poloidal circulation. In this nonrelativistic calculation, the poloidal filament would have to be thin. A spherical electron cluster is unstable and would ten dot form into a toroid by a force balance relationship. The calculation shows that the energy density of the poloidal filament in a charge cluster is a hundred times higher than in a supernova explosion.