Let us consider a case scenario -- in which there is here to be a mass-bearing orbifold eigenset, that is to maintain the rate of its "velocity," -- over an evenly-gauged Hamiltonian eigenmetric. Orbifold eigensets -- that are here to be comprised of by mass-bearing superstrings of discrete energy permittivity -- that are of a tightly-knit tense of a Majorana-Weyl-Invariant-Mode, are to work to bear an internal reference-frame, that is here to bear a basically non-existent tense of a correlative Lorentz-Four-Contraction, -- when such a tense of the said Lorentz-Four-Contraction, is here to be relativistic to the "vantage-point" of such a so-stated internal reference-frame. The less that the Lorentz-Four-Contraction is to be, for any one given arbitrary orbifold eigenset, the higher that the scalar amplitude of the here correlative Polyakov Action eigenstate, is then to tend to enfold as. The higher that the scalar amplitude of the correlative Polyakov Action eigenstate is to be, for any one given arbitrary orbifold eigenset of such a respective case, the more partition-based-discrepancies that will then tend to be present per individually taken superstring of discrete energy permittivity -- along the Laplacian-based flow of that topological stratum, that is here to be taken -- along the contour of the directly affiliated surface, that is Gliosis to the surface of the said composite individually taken superstrings of discrete energy permittivity -- when this is taken at the Poincare level to the core-field-density of the here mentioned individually taken superstrings. This will then tend to mean, that any given arbitrary orbifold eigenset, that is here to work to bear a tightly-knit tense of a Majorana-Weyl-Invariant-Mode, when this is as taken at the internal reference-frame of the said orbifold eigenset -- the less of a tendency that there will then be, of there being the presence of a proximal local Fourier-related exchange, of those said partition-based-discrepancies, that are here to be directly corresponding to the individually taken superstrings of discrete energy permittivity, that are here to work to comprise those mass-bearing strings, that are here to work to comprise the said orbifold eigenset. This will then work to mean, -- that there will here, in this case scenario, be a lower scalar amplitude of the resultant process of the Ward-Cauchy-based conditions of homotopic residue, for such a said orbifold eigenset, than there would otherwise be existent, for an orbifold eigenset, that is to, instead, be of the nature of either not being superconformally invariant, or of such a condition as to at least not being of such a tightly-knit tense of superconformal invariance -- at an internal reference-frame.
I will continue with the suspense later! To Be Continued! Sincerely, Samuel David.
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