Difference between revisions of "Velocity Dependent Gravitational Interaction"
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The motion of a particle in a gravitational field is analyzed taking into account the inertia to be associated with the potential energy. Louis de Broglie noted in 1924 that inertial mass must be associated with potential energy. The mass defect is calculated for all particles at rest in a gravitational field. This accounts for the gravitational red shift. | The motion of a particle in a gravitational field is analyzed taking into account the inertia to be associated with the potential energy. Louis de Broglie noted in 1924 that inertial mass must be associated with potential energy. The mass defect is calculated for all particles at rest in a gravitational field. This accounts for the gravitational red shift. | ||
− | [[Category:Scientific Paper]] | + | [[Category:Scientific Paper|velocity dependent gravitational interaction]] |
[[Category:Gravity]] | [[Category:Gravity]] |
Revision as of 11:37, 1 January 2017
Scientific Paper | |
---|---|
Title | Velocity Dependent Gravitational Interaction |
Author(s) | Jorge A Guala-Valverde, L F Gatto |
Keywords | Velocity-Dependent Gravitation |
Published | 1987 |
Journal | None |
Pages | 227?232 |
Abstract
The motion of a particle in a gravitational field is analyzed taking into account the inertia to be associated with the potential energy. Louis de Broglie noted in 1924 that inertial mass must be associated with potential energy. The mass defect is calculated for all particles at rest in a gravitational field. This accounts for the gravitational red shift.