Let us initially consider a beam of electromagnetic energy, that is traveling right in the direction of a path -- that leads to the topological stratum of a smoothly contoured piece of metal. Metal is comprised of molecules that are made-up of atoms, and such atoms are comprised of electrons and protons and neutrons. These protons and the neutrons just mentioned, are at the multiplict center or nucleus of the said atom. The electrons orbit around the external elliptical perimeter of each of the said atoms. At the reference frame that is just external to those molecules that work to comprise the said metal, the so-stated metal is relatively stationary -- to where the atoms that work to comprise the molecules of the said metal are in a relative condition of conformal invariance. The directly corresponding atoms of the so-stated metal, are here to bear a tense of Majorana-Weyl-Invariance. Back to before. The earlier mentioned beam of electromagnetic energy is to strike the said metal. Let's next say that the said electromagnetic energy is a beam of what may here be called white light. As the beam of light here is to strike the metal, the light scatters to an extent -- in so as to work to form a certain amount of infrared energy or heat. Heat is the most eminent form of electromagnetic energy that is formed,when electromagnetic energy is to strike a mass in a Gliosis-based manner. So, when a Calabi-Calabi manifold is to come into contact with a Calabi-Yau manifold -- the consequent formation of heat energy is the eminent electromagnetic tense of radiation that is thus formed, as an array of infrared or heat energy. The resultant heat energy that is formed, works to effect the physical state of that Calabi-Yau-related manifold, that is here to be interactive with light energy in a Gliosis-based manner over time.
I will continue with the suspense later! To Be Continued! Sincerely, Samuel David Roach.
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