Classical Physics

   

In Support of a New Gravitational Model

Authors: Richard A Peters

If gravity is mediated by the exchange of gravitons between objects, then the acceleration of an object toward a gravitational body (GB) is proportional to the graviton flux emitted by the GB that impinges on the object. Any motion of the object relative to the GB will affect the graviton flux from the GB on the object. The acceleration of the object relative to the GB will thus depend on both the object’s distance from the object and its motion relative to the GB. This behavior defies the known acceleration profile that is absent any factor of the velocity of an object in the gravitational field. If an object were directly subject to gravity, the gravitational field of a GB could not be characterized, as it is known to be, solely as a function of the active gravitational mass and distance of the GB. The only mechanism that can be invoked to nullify the certain and irrefutable effect of the augmentation of graviton flux by the velocity of an object toward a GB is one that denies altogether the direct effect of graviton flux on the acceleration of an object in a gravitational field. In simpler terms: massive objects are not directly subject to gravity! The Temporal InertiaI (TI) field model of gravity and inertia is a conjecture of this author. The TI field acts as an intermediary in the transmission of the gravitational force between objects. Particles of the TI field are directly subject to gravity but objects are not. An object is accelerated toward a GB at the same rate as the TI field. The TI field supports the propagation of gravitons. No matter how the TI field moves, the velocity of gravitons is constant relative to the TI field, hence there is no increase in graviton flux as the TI field moves toward a GB except for the increase in graviton flux caused by the proximity to the GB.

Comments: 41 Pages.

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[v1] 2018-09-11 19:10:09

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