Inertial Modulation: A New Tool for Probing the Law of Electromagnetic Force ? Part III, Tuning Fork Experiment: Difference between revisions
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Part I of this three-part article discussed how absurdities are built into theories of electrodynamics by ignoring longitudinal forces between current elements. These forces were first postulated by Andre-Marie Ampere, and have since been demonstrated in the lab. Part II described Neal Graneau?s demonstration of Ampere?s law through the introduction of spark gap asymmetries to the classical Robson and Sethian experiment. In the third and final part of this article, an experiment is described wherein a tuned electric current, applied perpendicularly across the tines of a tuning fork, exerts longitudinal forces that cause the fork to resonate.[[Category:Scientific Paper]] | Part I of this three-part article discussed how absurdities are built into theories of electrodynamics by ignoring longitudinal forces between current elements. These forces were first postulated by Andre-Marie Ampere, and have since been demonstrated in the lab. Part II described Neal Graneau?s demonstration of Ampere?s law through the introduction of spark gap asymmetries to the classical Robson and Sethian experiment. In the third and final part of this article, an experiment is described wherein a tuned electric current, applied perpendicularly across the tines of a tuning fork, exerts longitudinal forces that cause the fork to resonate. | ||
[[Category:Scientific Paper|inertial modulation new tool probing law electromagnetic force iii tuning fork experiment]] | |||
[[Category:Electrodynamics]] | [[Category:Electrodynamics]] | ||
Revision as of 13:33, 1 January 2017
| Scientific Paper | |
|---|---|
| Title | Inertial Modulation: A New Tool for Probing the Law of Electromagnetic Force ? Part III, Tuning Fork Experiment |
| Author(s) | Thomas E Phipps |
| Keywords | Ampere force, longitudinal force, Lorentz force, Robson-Sethian experiment |
| Published | 2006 |
| Journal | Electric Spacecraft Journal |
| Number | 41 |
| Pages | 6-12 |
Abstract
Part I of this three-part article discussed how absurdities are built into theories of electrodynamics by ignoring longitudinal forces between current elements. These forces were first postulated by Andre-Marie Ampere, and have since been demonstrated in the lab. Part II described Neal Graneau?s demonstration of Ampere?s law through the introduction of spark gap asymmetries to the classical Robson and Sethian experiment. In the third and final part of this article, an experiment is described wherein a tuned electric current, applied perpendicularly across the tines of a tuning fork, exerts longitudinal forces that cause the fork to resonate.