If the Lorentz-Four-Contraction of a phenomenology of mass-bearing superstrings is to be maintained over time -- to where the correlative Polyakov Action eigenstate, that is of the self-same phenomenology of mass-bearing superstrings, is here as well to be maintained over that same period of time, -- the number of partition-related discrepancies that the said phenomenology of mass-bearing superstrings is to gain per each individually taken instanton, will tend to equal the number of partition-related discrepancies that the so-stated phenomenology of mass-bearing superstrings will lose per each individually taken instanton -- over the said duration of time. This will then mean, that the directly corresponding absolute value of the Beti number per instanton -- that is here to be correlative to the directly corresponding scalar amplitude of spatial dimensional compactification, will here tend to be equal to that directly corresponding absolute value of the Beti number per instanton -- that is here to be correlative to the directly corresponding scalar amplitude of spatial dimensional decompactification, -- over the so-eluded-to evenly-gauged Hamiltonian eigenmetric, that is here to correspond to the said time period of such a said case.
I will continue with the suspense later! To Be Continued! Sincerely, Samuel David Roach.
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