The individually taken mass-bearing superstrings of discrete energy permittivity, that work to make-up the nucleons of an atom -- tend to exist in what may be termed of as f-fields. F-Fields exist in a minimum of four spatial dimensions plus time. The holomorphic direction of such mass-bearing superstrings, tends to be in the direction of the topological stratum of the external fringes of the core-field-density of those individually taken superstrings, that work in so as to help comprise the eigenstates of an f-field. This would then work to help indicate, part of the condition as to why, orbifolds that are comprised of f-fields tend to exist in Fourier Transforms that work to include less spatial dimensions than either a neutrino, a photon, or an electron. Since this would, as well, work to elude to the condition -- that the mass-bearing superstrings of discrete energy permittivity, that work to comprise a nucleon, act in so as to tend to move in the general direction of their width, -- then, this works to elude to the condition, when it comes to the correlative Fourier-Transforms that operate as is according to a Noether-based flow, that the motion of the internal reference-frame of a nucleon will tend to be less aerodynamic than the motion of the internal reference-frame of a photon, over time.
I will continue with the suspense later! To Be Continued! Sincerely, Samuel David Roach.
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