The Connection of Gravity, Dark Matter, and Supermassive Black Holes via a Set of Particles Associated With Gravity
- Nikiforos Ierokomos
Abstract
Gravity by far is the weakest force in the Universe and this weakness is not described by the Standard Model. Currently there is no known theory explaining why gravity is so weak or so different from other forces. This paper proposes a solution for this feebleness. In solving the gravity weakness problem, it was found that other unknowns in cosmology find possible answers. It is known that particles are found as groups or as families with special group behaviors. Additionally, not all families of particles interact by all the fundamental forces. For example, neutrals do not interact by the "charge force." This behavior presents the possibility that a special relationship may exist between a specific family of particles and a specific associated force for that family. Such a relationship is believed to have been found and presented in this work. This work finds the coupling constant of strength of a fundamental force and what is an associated family of states for that specific force. This finding has been tested and verified with the known families of particles and forces. This relationship is then used to determine and calculate the parameters of a proposed set of states associated with the force of gravity. The result of this association makes it clear why gravity is different and measured so weak. This hypothesis also provides an explanation why fundamental forces and particles are so related and predicts the possibility of a fifth force.
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- DOI:10.5539/apr.v17n2p22
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