Part Four Of The Twelvth Session Of Course 11 About Orbifolds

All Planck-like phenomena exist relative to one another based on the relative conormalcy that depends upon which universe that one is in relative to the other universes.  This conformally invariant differentiation is based upon relative conormalcy, and, it works to define certain of the differences between the different Gaussian formats that work to describe the corelations between the different universes that exist as Real Reimmanian spaces relative to univeses that are of the same genus -- and Planck-like phenomena that are of different universes bear spaces that may be compared through the use of Imaginary numbers via Li Algebra.  The spin-orbital fields of this codifferentiation, as is based upon conormalcy, works to define the Caucy-Ward bounds of the orbifolds that work to comprise the spaces that operate to perform the specific functions in the substringular -- and thus, the orbifolds that exist per group instanton work to comprise the functional holonomic substrates that make-up the space-time-continuum's function per such group instanton.  Orbifolds interact, as the magnetism that works to make up space and time works to interact with each other via the basis of the fractal of magnetic field-like-basis that orbifolds form via their kinematic differentiation over time.  As different universes interact directly, these different universes differentiate directly in both the considerations of the related Laplacian Transformations and in the considerations of the related Fourier Transformations over the kinematic interactions that happen as superstrings move relative to one another over time.  As different universes interact directly with one another, the directly related magnetism formats that work to comprise the said different universes differentiate directly via the orbifolds that work to comprise those physical entities in which such magnetism is inherent in.  So, when one has phenomena from different universes that bears certain holonomic substrates  in which magnetism is derived from, in such a manner in so that such magnetism directly interacts in any Yakawa manner that may be deemed -- then, the directly related orbifolds that are here eluded to will here interact in a direct manner.  As the orbifolds that work to describe the spaces that physically make up the operational phenomena that comprise space-time-fabric in any given arbitrary scenario are varied to where the assortment of such orbifolds that are mentioned here are from different universes, and, when such orbifolds that are here from different universes are to interact in any direct manner that involves some sort of Yakawa-based interaction that is not Gliossi when one wishes to describe the kinematics of the Poincaire field that is subtended from the nature of the directly related physical interactions, then, the directly related orbifold eigenbases are said to differentiate in some form of a direct manner over some sort of an established time-wise framework.  Orbifold eigenbases tend to differentiate via a basis of conormalcy-based interaction.  Conormalcy interaction is based on a the orbifold eigenbases of an individual set of parallel universes.  Each set of universes has its own basic set of differential conormalcy, of which is based on the directly related relativistic Gaussian Space-Basis that works to determine which spaces are Real Reimmanian to what other spaces, and which spaces are Njenhuisly-based to what other spaces over both a basis of Laplacian Transformations and over a basis of Fourier Transformations.  The three sets of universes (parallel to one another) vary with a discrete phase difference of 32piI degrees via the Main Heterotic String Fabric that staggers these via the actitivites of the Royal Arc.  So, even though all of the universes of one set of universe are near each other where ever you go, the universes of the other two sets of universes only have a residue that is near you wherever you go.  I will continue with the suspense later!  Sincerely, Sam Roach.