Part Two Of Session 7 Of Course 20

The first type of such scattering that I will introduce you to in this part of the course, is that general genus of scattering -- that is to occur, when a beam of light or a beam of any other form of electromagnetic energy, is to strike another phenomenon, - that is, for all practical purposes, a shear form of matter or mass, that is here to be positioned in the immediate Lagrangian-based path of the said electromagnetic energy, as an eigenbase of a respective Hamiltonian operand, to where the so-eluded-to mass-bearing superstrings of discrete energy permittivity, are to be in the path of that electromagnetic energy that is here about to strike it -- when one is to consider that electromagnetic energy is to travel in the direction of least time.  This is to  happen, when that electromagnetic energy that is about to strike the so-eluded-to mass-bearing manifold -- is to bear a cohomological mappable-tracing, that is to have a directoral-based bearing that is directed in a geometric manner, -- towards the Ward-Cauchy-based locus of a set of one or more orbifold eigensets of mass, -- to where the so-eluded-to propagation of a beam that is to here to act as a Calabi-Calabi-related manifold, is to be directed upon the topological stratum of a Calabi-Yau-related manifold.  Electromagnetic energy is propagated from a given source.  An electromagnetic beam of energy is to be propagated through a vacuum, at a tending velocity of 3.0*10^8 meters per second.  As a beam of electromagnetic energy is to strike another orbifold eigenset, that is comprised of by the holonomic substrate of mass-bearing superstrings of discrete energy permittivity, -- the photons are to collide here in an individually taken manner, upon the externalized core-field-density of the light-cone-gauge-related eigenstate that is most is its path, as an eigenstate that is to be propagated in the direction of least time, -- to where the resultant collision of each resulting scattered photon upon the said externalized field-density of each directly corresponding discrete quantum of energy, is to consequently act in so as to work to cause a back-and-forth motion of each core electron that is to have just been struck in an eminently Yukawa-based manner, to where this motion is to then to tend to result in the release of the excess energy of each electron that had just been struck, in the form of each individually taken photon.   This is the general tendency, when light is to strike mass-bearing manifolds -- since electrons orbit the outer part of an atom, and mass tends to exist in atoms.  It is the E(8)XE(8) strings that act, in so as to hold together the multidimensional structure of a sub-atomic particle -- like a metaphorical "microtubule," that works to help to allow for the resultant Gliosis-based collision, that is of the tendency of a photon that is to strike an orbifold eigenset of an electron -- to domino-out such an inward thrust, in so as to then to push the multiplicit electron into the means of such a so-eluded-to Fujikawa Coupling.
I will continue with the suspense later!  To Be Continued!  Sincerely, Samuel David Roach.