What we normally come into contact with -- when we perceive of material phenomenology -- is the electrical field, that is directly associated with those atoms that work to comprise the molecules and the compounds of material stratum. Whenever electromagnetic phenomenology strikes an electrostatic field, it will tend to always scatter to some degree or another. When this general said genus of the scattering of electromagnetic energy is to happen, it often works to cause one or more electrons to drop back-and-forth an energy level -- in so as to work to form one or more respective photons. Phenomenology of mass, exists in manifolds that may be described of as Calabi-Yau manifolds. The activity of electromagnetic energy, acting to strike superstringular phenomenology of mass -- in so as to work to create this general genus of the scattering of the so-stated electromagnetic energy -- may be described of as the tense of a Calabi-Yau interaction. Even if electromagnetic energy is not constantly bombarding the electrostatic field of a set of one or more atoms -- molecular structures tend to act in groups in such a manner, over time, in so as to at least release photons that are of an infrared nature, or, in other words, the activity of molecules over time -- will always tend to either absorb and/or radiate the holonomic substrate of heat, in the form of infrared photons. An infrared photon is a discrete quantum of heat energy.
I will continue with the suspense later! To Be Continued! Sincerely, Samuel David Roach.
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