It is gluons that work to help, in the connection of those sub-atomic particles that come together -- in so as to form the nucleons of an atom. Gluons are one genus of a sub-atomic particle -- that acts as the eigenstates of the centralized knotting of the Rarita Structure. There are other genre of sub-atomic particles, that work to help connect other sub-atomic particles -- in so as to help to form other particles, besides those particles that work to form the nuclei of an atom, in general. For instance, there is a different genus of a multiplicit eigenstate of the centralized knotting of the Rarita Structure -- that works in so as to bind the three leptons together, that are needed in so as to work to help form an electron. The main difference that exists in-between a gluon (that helps to bind quarks with leptons) and the genus of a sub-atomic particle that helps to bind three leptons together -- in so as to work to form an electron -- is that the torsioining of a gluon, in so as to work to help to make the charges that are directly associated with the nucleons (a positive charge for a proton, and a neutral charge for a neutron), act in a Fourier-based manner -- in such a way, to where this so-eluded-to activity works to bear individually taken whole spins, over time. Whereas, the torsioning of that multiplicit genus of a particle -- that works to help to make the charge of an electron, acts in a Fourier-based manner -- in such a way, to where this so-eluded-to activity works to bear individually taken fractional spins. Bosons work to bear a whole spin, while fermions work to bear a fractional spin. Likewise, that genus, in general, of an eigenstate of the centralized knotting of the Rarita Structure -- that acts in so as to pull together those sub-atomic particles that work to make the composition of a boson -- works to bear torsional eigenindices, that have an integer-based spin. Thurthermore, that genus, in general, of an eigenstate of the centralized knotting of the Rarita Structure -- that acts, in so as to pull together those sub-atomic particles that work to make the composition of a fermion -- works to bear torsional eigenindices that have a fractional-based spin. This is the general case of two different genre of eigenstates -- that are, in general, of the centralized knotting of the Rarita Structure.
I will continue with the suspense later! To Be Continued! Sincerely, Samuel David Roach.
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