Difference between revisions of "Physical Significance of the Vector Potential"
Jump to navigation
Jump to search
(Imported from text file) |
(Imported from text file) |
||
Line 11: | Line 11: | ||
==Abstract== | ==Abstract== | ||
− | Empiricism indicates that the Lorentz force is in need of additional terms. Phipps suggests that the force law could be generalized simply by redefining electric intensity as ?[grad][phi] ? dA/dt, where d/dt is defined as the total time derivative. The difference from the Lorentz force law would have escaped observation because it integrates to zero in closed circuits. Phipps presents the current status of his research and invites interested parties to help resolve remaining anomalies, either experimentally or theoretically.[[Category:Scientific Paper]] | + | Empiricism indicates that the Lorentz force is in need of additional terms. Phipps suggests that the force law could be generalized simply by redefining electric intensity as ?[grad][phi] ? dA/dt, where d/dt is defined as the total time derivative. The difference from the Lorentz force law would have escaped observation because it integrates to zero in closed circuits. Phipps presents the current status of his research and invites interested parties to help resolve remaining anomalies, either experimentally or theoretically. |
+ | |||
+ | [[Category:Scientific Paper|physical significance vector potential]] |
Latest revision as of 10:53, 1 January 2017
Scientific Paper | |
---|---|
Title | Physical Significance of the Vector Potential |
Author(s) | Thomas E Phipps |
Keywords | Ampere force, invariants, Lorentz force, VACE?s, vector potential |
Published | 1998 |
Journal | Electric Spacecraft Journal |
Number | 26 |
Pages | 20-22 |
Abstract
Empiricism indicates that the Lorentz force is in need of additional terms. Phipps suggests that the force law could be generalized simply by redefining electric intensity as ?[grad][phi] ? dA/dt, where d/dt is defined as the total time derivative. The difference from the Lorentz force law would have escaped observation because it integrates to zero in closed circuits. Phipps presents the current status of his research and invites interested parties to help resolve remaining anomalies, either experimentally or theoretically.