Abstract
The paper presents an algorithm for calculating the negative mass of an atomic electron, a fact that from a physical point of view shows the possibility of the existence of the matter with the negative mass that could constitute the dark matter that separated from the normal matter with the positive mass due to the huge masses of different matter with positive masses, respectively negative which between them is rejected at a macro level by gravitational forces of mass rejection having different signs. The work represents only a hypothesis proposed by the authors and not a real fact found, so it must be viewed as such and not as a physical conquest already demonstrated, but only as a possible hypothesis, because today we do not know too much about dark matter or about the real constitution of our universe.
Highlights
In astronomy and cosmology, dark matter is currently an unknown type of matter that is considered to contain much of the total mass of the universe.Dark matter does not emit or absorb light or electromagnetic or other radiation, so it cannot be directly observed with telescopes, Trimble (1987)
Presented paper shows an algorithm for calculating the negative mass of an atomic electron, a fact that from a physical point of view shows the possibility of the existence of the matter with the negative mass that could constitute the dark matter that separated from the normal matter with the positive mass due to the huge masses of different matter with positive masses, respectively negative which between them is rejected at a macro level by gravitational forces of mass rejection having different signs
The final Equation (10) supports two real solutions from the physical point of view, theoretically, as seen in the expression (11): If it were to imagine a dark matter with a negative mass that, on the astronomical scale, being concentrated, rejects each other gravitational with our positive matter, we could have a partial picture of the composition of our universe, which presents for us even today a large amount of unknown
Summary
Dark matter is currently an unknown type of matter that is considered to contain much of the total mass of the universe. Dark matter does not emit or absorb light or electromagnetic or other radiation, so it cannot be directly observed with telescopes, Trimble (1987). It is estimated that dark matter constitutes 83% of the matter in the universe and 23% of its mass-energy (Hinshaw, 2010). According to current theories (2010), the rest of the universe matter consists of: Dark energy: About 73% of the total mass-energy of the universe; this is a substance, a matter, very little known, except that its name of "energy" is improper. Neutrinos: About 0.1% Background radiation: Equals about 0.01% of the universe's matter
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