Discrete energy -- particularly superstrings of discrete energy permittivity, -- tend to be delineated at the central cite of merging, that exists here, between the cohomological divergence of homotopic residue And the cohomological convergence of homotopic residue. Homotopic residue is created by the general interdependent interaction of electromagnetic energy, as it is made Yukawa with other phenomenology of discrete energy in a discrete manner. Partition-based discrepancies exist, due to a certain general genus of a set of Wess-Zumino/Cevita-related conditions, that are involved with the process in which kinematic vibrations of discrete quanta of phenomena -- that are produced by the action of gauge-bosons -- act, in so as to work to inter-relate discrete quanta of electromagnetic energy with other discrete quanta of energy in a particular manner. The E(6)XE(6) strings work to inter-relate the E(8)XE(8) strings. (explain later). As mass moves towards light speed, the number of partition-based discrepancies per individually taken superstring of discrete energy permittivity decreases, in so as to allow for the continued kinematic motion of mass, when this is taken relative to light. This is due to the condition, that the Polyakov Action decreases as the Lorentz-Four-Contraction increases. The correlative individually taken orbifold eigensets, are to then to acquire more superstrings of discrete energy permittivity, as these work to bear more mass -- as is as according to the nature of the Lorentz-Four-Contractions. As the Polyakov Action is decreases in its scalar amplitude, the correlative individually taken superstrings of discrete energy permittivity -- are then to bear less partition-based discrepancies.
I will continue with the suspense later! To Be Continued! Sincerely, Samuel David Roach.
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