The vibrating energy of nucleons is a form of plain kinetic energy, and, this just mentioned energy is therefore comprised of one-dimensional superstrings, or, in other words, these are comprised of open strings. As an object that contains atoms increases in kinetic energy, the object differentiates kinematically with more one-dimensional open strings, likewise. This is because kinetic energy is comprised of open one-dimensional superstrings of discrete energy permittivity. Mass in electrons is comprised of two-dimensional closed superstrings of discrete energy permittivity. Such a given arbitrary mass here -- in the case of electrons -- bears a negative charge. Mass in protons is comprised of closed two-dimensional superstrings of discrete energy permittivity as well. Yet, the difference between the genus of the mass of an electron and the genus of the mass of a proton is related to the spinning tensors of their respective orbifold that work to form both formats of mass as having an opposite genus of spin-orbital parity. Electrons have a fractional spin, whereas, protons have a whole spin. This is because electrons are fermions and protons are bosons. The phenomena of a proton is comprised of more vibrating hoops and less vibrating strands than the phenomena of electrons, on account of the condition that protons bear more mass and less plain kinetic energy than electrons. This is part of what works to cause protons to act as bosons, while, electrons act as fermions. Neutrons are phenomena that are comprised of one quark and two leptons, giving this a neutral charge. (Neutrons bear no physical charge.) Electrons are considered negatively charged because their energy per charge works to repel more per mass than that of their protonic counterparts. -- This is due to the condition that electrons bear a high transversal energy as compared to that of protons. (The given arbitrary electrons of one given arbitrary atom cycle around a relatively speaking motionless nucleus that vibrates in a locally covariant static manner.) Protons are considered to be positively charged because these attract electrons. -- Proton(s) have a wave-pull/wave-tug that acts upon the delineatory basis of the respective electron(s) of any given arbitrary atom. Energy per charge is voltage. Electric voltage works to repel, because the energy per charge that may be considered here works from the interior of the directly corresponding magnetic field of a given said eigenstate of such electric voltage toward the relative outward bearings of the respective Ward-Caucy bounds of the topological substrate where such a field of voltage exists -- this being at a locally static extrapolation of such a field. This corresponds to the condition that electrons are at the exterior of any given arbitrary neutral atom, in relative positioning, when compared to the corelative nucleons, which are interior to the just mentioned electrons. So, when we come into contact with any mass -- what we tend to detect is electrodynamic phenomena. This is why electrons are considered to be the basis of point-mass.
I will continue with the suspense later! Sincerely, Samuel David Roach.
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