Difference between revisions of "Quantum Nonlocal Action and Inertial Mass from Mach's Conjecture"
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− | The Mach momentum qA of a particle, the product of its conjectured Mach charge q and the ambient Mach vector potential A, is the homolog of its electromagnetic inductive momentum. If the particle's velocity is , its ?inertial mass? is the ratio m = qA/v. It is conjectured that the field of the Mach charge is propagated at hyperluminal velocity, causing physical relations underlying quantum laws presently understood as ?acausality,? ?nonlocal action,? or ?action-at-a-distance.?[[Category:Scientific Paper]] | + | The Mach momentum qA of a particle, the product of its conjectured Mach charge q and the ambient Mach vector potential A, is the homolog of its electromagnetic inductive momentum. If the particle's velocity is , its ?inertial mass? is the ratio m = qA/v. It is conjectured that the field of the Mach charge is propagated at hyperluminal velocity, causing physical relations underlying quantum laws presently understood as ?acausality,? ?nonlocal action,? or ?action-at-a-distance.? |
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+ | [[Category:Scientific Paper|quantum nonlocal action inertial mass mach 's conjecture]] |
Latest revision as of 10:57, 1 January 2017
Scientific Paper | |
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Title | Quantum Nonlocal Action and Inertial Mass from Mach\'s Conjecture |
Author(s) | Robert B Driscoll |
Keywords | inertial mass, quantum nonlocal action, hyperluminal velocity, Mach's conjecture |
Published | 1989 |
Journal | Physics Essays |
Volume | 2 |
Number | 3 |
Pages | 237-238 |
Abstract
The Mach momentum qA of a particle, the product of its conjectured Mach charge q and the ambient Mach vector potential A, is the homolog of its electromagnetic inductive momentum. If the particle's velocity is , its ?inertial mass? is the ratio m = qA/v. It is conjectured that the field of the Mach charge is propagated at hyperluminal velocity, causing physical relations underlying quantum laws presently understood as ?acausality,? ?nonlocal action,? or ?action-at-a-distance.?