Abstract
In order to explore the nature of photons, no doubts can be allowed to exist concerning the “physics of photons”. While static gravitation plays no role in the physics of photons, this paper will show that the previously unknown nonbaryonic dynamic gravitation of photons determines not only the external physical behaviour of photons but also, in particular, the hitherto unknown physical events occurring within the photons themselves. For this reason, the paper places particular emphasis on dynamic gravitation as a new hitherto unknown physical quantity. Moreover the new type of gravitation postulated here also provides a plausible explanation of the mysterious nonbaryonic dark matter. As no generally accepted scientific explanation of the creation and essence of dark matter exists to date, it is to be anticipated that the nonbaryonic dynamic gravitation of photons is of general interest to physicists as well as cosmologists and may serve to initiate a general debate among them. Furthermore, this paper will also show that there exists a close mutual relationship between electrodynamics dynamic gravitation static gravitation electrostatics electrodynamics (refer to paragraph 4). Due to the fact that the insights into the relationship between photons and their dynamic gravitation have not been described by any other author to date, there exists only a few references that I can cite in support of my paper.
Highlights
Note: for the purpose of a better understanding of the following text on the nonbaryonic dynamic gravitationalHow to cite this paper: Zbiral, G. (2014) The “Dynamic Gravitation of Photons: A Hitherto Unknown Physical Quantity”
The gravitational force of the baryonic components of an atom among themselves within an atom can be completely ignored compared to the electromagnetic force between the proton and electron. This fact forms the basis for the assumption prevalent among physicists that the gravitational force of a photon, compared to its far stronger electromagnetic force, can be completely ignored, whereby static gravitation is always assumed in this regard, since no dynamic gravitation is so far known
The constancy of the speed of light is the result of an extremely finely-tuned interaction between the photons’ dynamic gravitation and their dynamic electromagnetism, from which it follows that at the speed of light there exists a close relationship between these two opposite dynamic forces of nature: On one hand, the photons’ nonbaryonic dynamic gravitation limits the speed of expansion of electromagnetic energy and determining the value of the speed of light c with 299,792,458 m/s in a vacuum, while, on the other hand, maintaining it at this constant value by an internal fast regulation process!
Summary
Note: for the purpose of a better understanding of the following text on the nonbaryonic dynamic gravitational. It is unexpectedly possible to establish a relationship between Maxwell’s theory and gravitation: As according to Maxwell’s so-called Fifth Equation, the following physical relationship between the electrical field constant ε0, the magnetic field constant μ0 and the speed of light c exists: ε0 ⋅ μ0 = 1 c2 G c2 = const , as well as G ⋅ε= 0 ⋅ μ0 const. The gravitational force of the baryonic components of an atom among themselves within an atom can be completely ignored compared to the electromagnetic force between the proton and electron This fact forms the basis for the assumption prevalent among physicists that the gravitational force of a photon, compared to its far stronger electromagnetic force, can be completely ignored, whereby static gravitation is always assumed in this regard, since no dynamic gravitation is so far known. The current school of thoughts in physics is based on the assumption that (static) gravitation is not a factor to be considered with photons or the speed of light and may be completely ignored
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