Sub-Atomic Particles And The Wave-Tug Of Legendre Homology

The higher that the quantity is to be, as to the number of Legendre-related superstrings of discrete energy permittivity that there are then to be  present, in so as to work to form an eminent wave-tug upon a set of one or more mass-bearing superstrings of discrete energy permittivity -- the higher that the scalar amplitude will then tend to be, as to what the velocity of the directly corresponding orbifold eigensets, that are comprised in part of such said mass-bearing strings -- will then work to bear, over time.  Consequently -- the less Legendre-related superstrings of discrete energy permittivity that there are here to be present, in so as to work to form an eminent wave-tug upon a set of one or more mass-bearing superstrings of discrete energy permittivity -- the less that the scalar amplitude will then tend to be, as to what the velocity of the directly corresponding orbifold eigensets, that are comprised in part of such said mass-bearing strings -- will then work to bear, one time.
This then works to show, -- that electrons tend to bear a significantly higher Hodge-Index of Legendre-related superstrings, that are here to help at working to tug these so-inferred individually taken electrons, into their correlative multiplicit path, at a relatively external reference-frame, than, instead, what the correlative Hodge-Index that would here be present, when it comes to the number of Legendre-related superstrings, that would here be present, in so as to help at tugging the individually taken nucleons into there correlative multiplicit path, at a relatively external reference-frame.  This is a major factor -- that works to show the obvious fact, as to the physical rational that is here to be associated with the condition as to being part of, -- as to why electrons tend to travel from within the  Ward-Cauchy-bounds of an atom, at a rate that is far faster than nucleons.  From the vantage-point of the Poincare level of an atom, -- nucleons tend to act, in so as to be vibrating from within the nucleus of an atom at nearly a standstill, whereas, as well as from the vantage-point of the Poincare level of an atom, -- electrons tend to act, in so as to be consistently be in the process of oscillating around the nucleus of an atom in an elliptical manner, over time.
I will continue with the suspense later!   To Be Continued!  Sincerely, Samuel David Roach.