When a photon is to scatter upon an electron, -- the electron will tend to drop back-and-forth an energy level, -- to where in the process, such a just mentioned scattered upon electron, will release each residual discrete quantum of energy that it had just obtained, via the scattering, in the meantime, in the form of a photon. Whenever light (electromagnetic energy) scatters, there is to tend to be a directly corresponding formation of entropic eigenstates. Over the simultaneous course of the general process of such a tense of scattering, there is to tend to be the process, of the formation of infrared photons, that are here to often be basically formed, by the anharmonic "shaking" of such mass-bearing cohesive sets of discrete energy quanta -- such as in the correlative "shaking" of the constituent electrons, protons, etc.. Infrared photons are individually taken discrete quanta of heat. When heat is formed at the atomic level, the general surrounding motion of the proximally adjacent phenomenology, will tend to disperse the directly corresponding just produced infrared photons, that had been formed here (the discrete eigenstates of such heat), to where the just indicated scattered heat that has thereby been created here, by the release of the residual anharmonic motion of mass-bearing cohesive sets of discrete energy quanta, is now to tend to be progressively delineated, into the immediately adjacent regions that are here to surround it. Consequently; since the formation of heat And the formation of entropic eigenstates, generally tend to be formed at the same tense of a progression of activity, it consequently follows, that as heat is to be dispersed, that there is here to be the simultaneous process, in which entropic eigenstates are here to be dispersed. Next; Let us take a fractal of such a just mentioned process. At a lower level than the dispersion of discrete quanta of heat (as in the dispersion of infrared photons), there is to be the general process, in which the correlative Chern-Simons Invariant metric-gauge eigenstates, are also here to be dispersed, as well. Such a said dispersion of metric-gauge eigenstates, will also tend to be delineated progressively, into the immediately adjacent region that is here to surround it. Therefore; it logically follows, that, since as heat is to be in the process of being dispersed -- that there is here to be the simultaneous process, in which entropic eigenstates are here to be dispersed, over the course of the same general tense of a Hamiltonian eigenmetric, -- to where such a stated general type of a process, is thence to simultaneously have a tendency of bearing a tense of a fractal, in which those Chern-Simons Invariant metric-gauge eigenstates, that are here to tend to be formed, in the general process of the spatial transference of a mass-bearing cohesive set of discrete energy quanta, is to likewise be dispersed in an analogous manner of delineation, into its immediately adjacent region that is here to surround it. TO BE CONTINUED! Sincerely, SAM ROACH.
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