Friday, December 21, 2018

Course 20 Session 14

There are more interactions between electromagnetic energy and its surroundings, than just Calabi-Yau and Calabi-Wilson-Gordan interactions.  In other words, light, and for that "matter," any form of electromagnetic energy, does not necessarily just scatter upon matter, and, light and any form of electromagnetic energy, does not necessarily just scatter upon plain kinetic energy too.  Light, or as well, any form of electromagnetic energy -- may also at times, scatter upon other plain electromagnetic energy itself.  So, an electromagnetic beam, or, a set of quantized electromagnetic beams, may occasionally -- scatter upon another electromagnetic beam, or, another set of electromagnetic beams. When light or any other form of electromagnetic energy, scatters upon any set of one or more electromagnetic beams -- the genus of the interactions that will then ensue to happen here, -- may then be described of here in my string theory model, as being a Calabi-Calabi interaction.  A Calabi-Calabi- interaction -- is to often be happening, under the correlative Ward-Cauchy-based conditions that are here to directly be corresponding, when as set of electromagnetic energy is to strike an ulterior set of electromagnetic energy, as as Fourier-related Yukawa transference, that may be thought of as happening at an acute angle -- at a level that is Poincare to the external shell, that is of the homological surface that is of the so-eluded-to Gliosis-related interaction.  However, if, under the correlative Ward-Cauchy-based conditions,  there is here to be, instead, a tense of an obtuse angle --  that is to be transferred at the point in duration, in which the two different said sets of electromagnetic beams are to be translated upon each other in a Gliosi-related manner, -- in so to work to form the proximal local conditions of norm-based conditions, -- that are here to be interdependently correlative, between the two given arbitrary said sets of electromagnetic energy, that have here to have struck each other -- then, the two different said sets of electromagnetic energy will consequently move in so as to quantize among each other instead.  I will continue with the suspense later! To Be Continued!  Sincerely, Sam Roach.


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