Authors: Dino Bruniera
In the article titled “Each Point of Space in Expansion is the Preferred Reference Frame for Any Object Transiting to that Point”, published on March 30th, 2017, I presented a theory that demonstrates the existence of the Preferred Reference Frame and at which speed the Earth moves relative to it. I also stated that further theories about various phenomena of the Universe, may be derived from this theory and that it, therefore, opens a new path towards the truth about how the Universe works. And now, with this article, I will tray to begin to walk the above path, exposing some hypotheses explaining various phenomena of the Universe, in a way compatible with said theory. Here are, in short, these hypotheses. The Universe is exclusively composed of an infinity of space quanta, which tend to expand and thus cause it to expand, as a consequence. Matter manifests on sets of space quanta, which are compressed and thus enable the neighbouring quanta, and later the quanta further apart, to expand further. Gravity is the effect of the fact that each object tends to move towards the least compressed space quanta and, therefore, towards other objects. Speed of light depends on the degree of compression of space quanta in the locations (or points) in which it transits, meaning that the greater the compression, the higher the speed. But since also clocks move more or less rapidly according to their degree of compression, speed of light results always the same at any location. Therefore, in the past, when the degree of compression of space quanta was greater, speed of light was also greater. Cosmological redshift is due to the speed of the location in which the celestial object receiving photons, is moving, compared to the location in which the celestial object emitting it, has moved, in a Universe in decelerating expansion. In support of this hypothesis, I present two tables that simulate the journey of the photons of a high-redshift galaxy and that of CMBR photons, and, above all, a formula for calculating apparent luminosity, compatible with the observations of the high-redshift type Ia supernovae. I would like to point out that I haven’t mentioned either the dark energy or dark matter, since I haven’t considered it necessary for this model of the Universe.
Comments: 16 Pages.
[v1] 2017-07-05 01:55:53
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