Quantum Physics

   

Diffusion Gravity: Dynamics and Scalability

Authors: DH Fulton

A previous paper introduced the heuristic model of Diffusion Gravity (DG) based on the principle of mass diffusion [1]. That work provided an initial development of an explanation of inertia, acceleration, and gravity from the interaction of mass objects with the active quantum vacuum environment via virtual particle mechanisms. This follow-on article extends the model to incorporate the related dynamics of the virtual particle outflows from mass objects and presents model specifics for inertia, kinetic energy, and orbital motion. Mass Diffusion is the primary active force that drives interactions of the virtual particle agents of the quantum vacuum to produce linear and orbital motion; the active quantum vacuum may be more accurately described as a an agent in gravitation; these aspects of diffusion gravity and other mass-energy considerations are described and discussed in this paper, including derivation and consistency with mass-energy E 0 =mc 2 . Motion models and their descriptions, which comprise Diffusion Gravity Dynamics (DGD), are added to the Diffusion Gravity theory. The Diffusion Gravity model and theory implies application to other physical phenomena such as relativity, light refraction and the role of virtual particles therein, and the model’s scalability to astrophysical phenomena such as flattening of the galactic rotation curves.

Comments: 13 Pages.

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Submission history

[v1] 2019-04-13 13:50:44

Unique-IP document downloads: 8 times

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