The quicker that a mass-bearing orbifold eigenset is to approach light speed, the quicker that such a said eigenset is to attain a respectively greater Lorentz-Four-Contraction -- over the so-eluded-to duration of terrestrial time. The quicker that the respective Lorentz-Four-Contraction is to increase, for any one said given arbitrary orbifold eigenset -- the quicker that the directly corresponding partition-based discrepancies, that are correlative to the so-eluded-to individually taken superstrings that work to comprise the said orbifold eigenset, will decrease in their correlative scalar quantity. This will then work to result, in a relatively increased rate in the directly corresponding i*PI(del) action -- that is here to be proximal local to the relatively internal reference-frame of the said orbifold eigenset. Consequently, a rapid change in the Lorentz-Four-Contraction of this given arbitrary case (the corrilary of this is apparent, too -- and this thus works in the reversal of such a soon mentioned tendency), will then result in a rapid loss of those partition-based discrepancies -- that work to form the correlative tense of the homotopic residue, that may be attributed to the topological-related holonomic substrate, of those superstrings that work to comprise their directly corresponding orbifold eigenset. Yet, as stated in similar words before, -- when an orbifold eigenset is to increase in the rate of its velocity, -- the decrease in the number of partition-based discrepancies, that are of those individually taken superstrings that work to comprise one said orbifold eigenset -- is accompanied by a proportional increase in the number of superstrings of discrete energy permittivity, that work here to comprise the said orbifold eigneset, -- thereby, this general tense of activity may then work at helping to tend to work to allow for a conservation of the proximal local state of homotopic residue.
I will continue with the suspense later! To Be Continued! Sincerely, Samuel David Roach.
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