When one set of one or more sub-atomic particles acts as the source of a phenotypical bonding cite, while a second set of one or more sub-atomic particles acts as the source of a recessive bonding cite -- the said set of sub-atomic particles that works to act as having the phenotypical bonding cite, acts as a "catylist," while, the said set of sub-atomic particles that works to act as having the recessive bonding cite acts as a substrate, -- by which the bonding cite that is to exist here, in so as to work to help to allow for the bonding that is to exist here between the two so-stated sets of sub-atomic particles, is to be Gliosis at the Poincare level -- at the set of those sub-atomic particles that act as having here a phenotypical bonding cite. When the bonding cite, that is to exist at a locus that is positioned on the proximal locus of one set of one or more sub-atomic particles, is phenotypical -- this will tend to mean that there will here be a certain given arbitrary respective Hodge-Index of mini-stringular segmentation, that is effectual at the respective bonding cite, that is either of a cylindrical and/or of a shaft-like nature -- in so as to act as an eigenstate of the centralized knotting of the Rarita Structure. Whereas, when the bonding cite, that is to exist at a locus that is positioned on the proximal locus of one set of one or more sub-atomic particles, is recessive -- this will tend to mean that there will be a certain given arbitrary respective Hodge-Index of mini-stringular segmentation that is effectual at the respective bonding cite, that is either of an oriface and/or of an annulus-based nature -- in so as to act as an eigenstate of what may here be thought of as a complentary homotopic nature in a directly covariant manner, towards the specific local correlative eigenstate of the centralized knotting of the Rarita Structure. Often, one given arbitrary sub-atomic particle may have both of the just mentioned general types of bonding potentials immediately attatched to the holonomic substrate of its Gliosis-based topology, yet, the manner by which these so-eluded-to particles come together with other particles, will work to effect whether or not this will act as a particle that will act as having either a phenotypical or as a recessive bonding cite.
I will continue with the suspense later! To Be Continued! Sincerely, Samuel David Roach.
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