Difference between revisions of "An Invariant Ratio in Magnetic Acceleration"
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This paper presents a simple new rule that is followed by every free charged particle in acceleration caused by a spatially-uniform magnetic field. Every particle in such magnetic acceleration has, ''not only'' an acceleration with respect to a stationary reference frame, ''but also'' an acceleration with respect to a ''rotating'' reference frame, which rotates about the direction of the magnetic field with a quasi Larmor frequency; ''these two accelerations are in constant ratio''. This simple new rule is followed perfectly, regardless of how the other concerned laws of physics operate. This simple new rule brings us a brand new picture of magnetic acceleration, and a brand new analytic tool as well. | This paper presents a simple new rule that is followed by every free charged particle in acceleration caused by a spatially-uniform magnetic field. Every particle in such magnetic acceleration has, ''not only'' an acceleration with respect to a stationary reference frame, ''but also'' an acceleration with respect to a ''rotating'' reference frame, which rotates about the direction of the magnetic field with a quasi Larmor frequency; ''these two accelerations are in constant ratio''. This simple new rule is followed perfectly, regardless of how the other concerned laws of physics operate. This simple new rule brings us a brand new picture of magnetic acceleration, and a brand new analytic tool as well. | ||
− | [[Category:Scientific Paper]] | + | [[Category:Scientific Paper|invariant ratio magnetic acceleration]] |
Latest revision as of 10:00, 1 January 2017
Scientific Paper | |
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Title | An Invariant Ratio in Magnetic Acceleration |
Author(s) | Jia-Qiang Cheng |
Keywords | {{{keywords}}} |
Published | 2010 |
Journal | Galilean Electrodynamics |
Volume | 21 |
Number | S1 |
Pages | 17-18 |
Abstract
This paper presents a simple new rule that is followed by every free charged particle in acceleration caused by a spatially-uniform magnetic field. Every particle in such magnetic acceleration has, not only an acceleration with respect to a stationary reference frame, but also an acceleration with respect to a rotating reference frame, which rotates about the direction of the magnetic field with a quasi Larmor frequency; these two accelerations are in constant ratio. This simple new rule is followed perfectly, regardless of how the other concerned laws of physics operate. This simple new rule brings us a brand new picture of magnetic acceleration, and a brand new analytic tool as well.