Monday, July 18, 2016
Centralized Knotting Versus Superstrings
Those first-ordered point particles that work to comprise superstrings of discrete energy permittivity, work to bear a point-fill that is of a factor of a half full compactification. This is at any spot in any superstring of discrete energy permittivity, for any of such superstrings -- no matter what the degree of either the scalar amplitude of the correlative compactification is, or, no matter what the degeree of the inverse relationship of the scalar amplitude of the correlative Lorentz-Four-Contraction is. Again, this is for any superstring that is of either a Calabi-Yau manifold, a Calabi-Wilson-Gordan manifold, or of a Calabi-Calabi manifold. On the other hand, the eigenstates of the centralized knotting of the Rarita Structure, are holonomic substrate-based phenomenology -- that tend to bear a point-fill that is of a relative scalar amplitude, that is over one-half of full compactification. The phenomenology that is correlative to the eigenstates of the centralized knotting of the Rarita Structure, are strictly associated more to a Calabi-Yau tense of manifolds -- than of rather being associated to either a Calabi-Wilson-Gordan or to a Calabi-Calabi tense of manifolds. Calabi-Yau manifolds are strictly manifolds that are of a mass-bearing nature. This then works to mean, that the centralized knotting of the Rarita Structure -- works to bear its eigenstates most specifically to be associated with the bearings of both mass-related superstrings and mass-related manifolds. The Rarita Structure is what most specifically works to link the activity of superstrings with the activity of both gravitons and gravitinos. The "heart" of the Rarita Structure eigenstates, are due to its centralized knotting. This then works to clarify as to why -- it is the properties of mass-bearing manifolds, that tend to more directly associate with both the activity and the force of gravity -- than the other general genre of superstring-related manifolds do. I will continue with the suspense later! To Be Continued! Sincerely, Samuel David Roach.
Posted by
samsphysicsworld
at
1:45 PM
Labels:
Calabi-Yau,
centralized knotting,
eigenstates,
holonomic substrate,
Lorentz-Four-Contractions,
permittivity,
Rarita Structure,
superstrings
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