When in a Noether-based flow -- the quicker the rate of motion that a given arbitrary orbifold eigenset is to be exhibiting -- the higher that its correlative Lorentz-Four-Contraction will tend to be. The higher that the correlative Lorentz-Four-Contraction will be -- the less partition-based discrepancies that will then be existent from within the Ward-Cauchy-related bounds of the individually taken superstrings, that work to comprise the said orbifold eigenset. The less partition-based discrepancies that are to exist from within the Ward-Cauchy-related bounds of the individually taken superstrings, that work to comprise an orbifold eigenset -- the more likely that the said individualy taken strings are, to bear a low absolute value of a Beti number -- when in both going into and going out of the correlative iterations of BRST -- in which such a high rate of a so-eluded-to tense of speed of the said orbifold eigenset, is to be going on. The less likely that the superstrings that work to comprise a said orbifold eigenset, are to be either gaining and/or losing partition-based discrepancies, -- the less likely that such a said eigenset will be perturbating much, in the number of spatial dimensions that it is to be exhibiting. Such individually taken superstrings of a said orbifold eigenset will then tend to be more stable in the number of spatial dimensions that it then has -- even though such an orbifold eigenset will then be contracting in the dimension of its relative length.
I will continue with the suspense later! To Be Continued! Sincerely, Samuel David Roach.
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