Wednesday, February 21, 2018
Relatively Dense Centralized Knotting
The strong force is multiplict at a locus, at which there is an eigenstate of the centralized knotting of the Rarita Structure. Gravitational waves tend to move outward and perpendicular to the transversal medium that these are here to be moving through, over time. The strong force is that force that works to inter-bind those subatomic particles together, in so as to work to bring phenomenology together -- such as that force that works to bring quarks and/or leptons together in so as to form protons, neutrons, and electrons. A high density of subatomic particles will tend to mean that there will thereby be a high density of atoms. A relatively high density of atoms eludes to the condition of a relatively high tense of gravity. The more dense that the delineation of eigenstates of the centralized knotting of the Rarita Structure is, the more that the gravitational force will tend to act upon its surroundings -- in so as to work to push-in such external phenomenology upon itself. Therefore -- the more dense that the delineation of the strong force is, the more that the gravitational force will tend to act upon its surroundings -- in so as to work to push-in such external phenomenology upon itself. I will continue with the suspense later! To Be Continued! Sincerely, Samuel David Roach.
Posted by
samsphysicsworld
at
11:16 AM
Labels:
atoms,
centralized knotting,
eigenstate,
gravity,
leptons,
locus,
phenomenology,
quarks,
Rarita Structure,
subatomic particles
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