The faster that the speed of a mass-bearing orbifold eigenset is, when this is taken in relationship to the motion of electromagnetic energy, -- the less partition-based discrepancies that those individually taken superstrings, that work to comprise such a said respective given arbitrary orbifold eigenset, will tend to be exhibited in the process. (This is in the process of an increased Lorentz-Four-Contraction.) The less partition-based discrepancies that are thence to be exhibited, by those superstrings that work to comprise any one given arbitrary orbifold eigenset, over time, -- the less mini-stringular segmentation that will thence tend to be fed-into the Ward-Neumman bounds, of the eminent light-cone-gauge-related field, that is of such a set of so-inferred superstrings, over time. The less mini-stringular segmentation that is thence to tend to be fed-into the Ward-Neumman bounds, of the eminent light-cone-gauge-related field, that is of those superstrings that work to comprise any one respective said given arbitrary orbifold eigenset, over time, (which is over the course of an increased Lorentz-Four-Contraction) -- the lower the scalar amplitude of the directly corresponding Polyakov Action will then tend to be. The lower that the scalar amplitude of the directly corresponding Polyakov Action will tend to be, -- the shorter that the relative length of the correlative length of such a set of related superstrings will then tend to appear as -- as would be apparent to a terrestrial observer, that would here be at a relative standstill. The shorter that the relative terrestrial length of those superstrings, that work to comprise any one given arbitrary orbifold eigenset, will appear to be to an observer that is standing still, -- the smaller that the directly corresponding length that such a said respective orbifold eigenset, will then tend to appear to have.
To Be Continued! Sincerely, Sam Roach.
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