Difference between revisions of "Hertz's Relativity: A Complimentary Theory to Einstein's SR"
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==Abstract== | ==Abstract== | ||
− | In this work, Maxwell-Hertz electrodynamics (MHE), valid for non-uniform motions as they occur in the physical reality and hold for the non-inertial reference frame of our laboratory but at small velocities only, is extended at relativistic velocities. The new theory, called Hertz's relativistic electrodynamics only, is completely independent and built-up in a completely different way as regards Einstein's special relativity (ESR). HRE, a coordinate-free formulation, does not need postulates, but confirms the constancy principle of speed of light in vacuum. All experiments of first and second order in <em>v<sup>2</sup>/c<sup>2</sup></em> are correctly interpreted. To this theory a Hertzian kinematics and dynamics are associated. HRE with its corresponding mechanics from Hertz's special relativity (HSR), as a complementary theory to ESR. According to the principle of complementary and neglecting the gravitational effects, the Extended Special Relativity (ExSR) is a double faced theory which becomes either ESR when the motion is inertial or HSR when the motion is non-inertial. The complementarity of both theories assumes that the two descriptions cannot be employed for the same motion, being mutually exclusive. Consequently, to every statement of one of the ExSR a complementary statement of the other ExSR corresponds. The completeness of ESR with HSR ensures an extended view over the relativity in our physical world. | + | In this work, Maxwell-Hertz electrodynamics (MHE), valid for non-uniform motions as they occur in the physical reality and hold for the non-inertial reference frame of our laboratory but at small velocities only, is extended at relativistic velocities. The new theory, called Hertz's relativistic electrodynamics only, is completely independent and built-up in a completely different way as regards Einstein's special relativity (ESR). HRE, a coordinate-free formulation, does not need postulates, but confirms the constancy principle of speed of light in vacuum. All experiments of first and second order in <em>v<sup>2</sup>/c<sup>2</sup></em> are correctly interpreted. To this theory a Hertzian kinematics and dynamics are associated. HRE with its corresponding mechanics from Hertz's special relativity (HSR), as a complementary theory to ESR. According to the principle of complementary and neglecting the gravitational effects, the Extended Special Relativity (ExSR) is a double faced theory which becomes either ESR when the motion is inertial or HSR when the motion is non-inertial. The complementarity of both theories assumes that the two descriptions cannot be employed for the same motion, being mutually exclusive. Consequently, to every statement of one of the ExSR a complementary statement of the other ExSR corresponds. The completeness of ESR with HSR ensures an extended view over the relativity in our physical world. |
− | [[Category:Relativity]] | + | [[Category:Scientific Paper|hertz 's relativity complimentary theory einstein 's sr]] |
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+ | [[Category:Relativity|hertz 's relativity complimentary theory einstein 's sr]] |
Latest revision as of 19:36, 1 January 2017
Scientific Paper | |
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Title | Hertz\'s Relativity: A Complimentary Theory to Einstein\'s SR |
Author(s) | Constantin I Mocanu |
Keywords | ESR, Maxwell-Hertz electrodynamics, Hertz's special relativity |
Published | 1995 |
Journal | Galilean Electrodynamics |
Volume | 6 |
Number | 1 |
Pages | 11-22 |
Abstract
In this work, Maxwell-Hertz electrodynamics (MHE), valid for non-uniform motions as they occur in the physical reality and hold for the non-inertial reference frame of our laboratory but at small velocities only, is extended at relativistic velocities. The new theory, called Hertz's relativistic electrodynamics only, is completely independent and built-up in a completely different way as regards Einstein's special relativity (ESR). HRE, a coordinate-free formulation, does not need postulates, but confirms the constancy principle of speed of light in vacuum. All experiments of first and second order in v2/c2 are correctly interpreted. To this theory a Hertzian kinematics and dynamics are associated. HRE with its corresponding mechanics from Hertz's special relativity (HSR), as a complementary theory to ESR. According to the principle of complementary and neglecting the gravitational effects, the Extended Special Relativity (ExSR) is a double faced theory which becomes either ESR when the motion is inertial or HSR when the motion is non-inertial. The complementarity of both theories assumes that the two descriptions cannot be employed for the same motion, being mutually exclusive. Consequently, to every statement of one of the ExSR a complementary statement of the other ExSR corresponds. The completeness of ESR with HSR ensures an extended view over the relativity in our physical world.