Session Seven Of Course Eleven About Orbifolds

Orbifolds exist in a differentiable spot.  Individual orbifolds are not constantly maintained.  An orbifold may exist as an entity in one location at one time, and the orbifold may be transferred to another location at another time.  The area surrounding an orbifold is the neighborhood of that orbifold.  An orbifold exists as an indistinguishably different entity at any prior or future orbifold transmutation.  An orbifold neighborhood is the sub-space within a specific locus of a given universe that is common to that orbifold that surrounds the given orbifold.  Each universe has its own set of differentiating orbifolds that exist indistinguishably different when this is considered relative to any past or future transmutation of the respective individual orbifolds of each given arbitrary universe that this would here reffer to in an individual scenario.  An orbifold may have kernels that work to surround it in this given universe that we belong to, yet, there may be Planck-related phenomena that surround the given orbifold that come from parallel universe in a transient period of time from when such discrete units of energy impedance had initially been from a different universe.  The adjacency of Planck-related phenomena from parallel universes does not constitute a necessary adjacency of Planck-related phenomena from the given universe that the initially mentioned discrete unit of energy impedance came from.  Kernels are associated with gaps in-between a fractal of magnetic fields in one given arbitrary universe.  Planck-related phenomena do not actually genereally touch in a Gliossi manner, even when these are of different universes.  The normalcy here is not a borne normalcy.  Rather, the adjacency of the said Planck-related phenomena of one universe is one that involves a density of mini-string segments that interact over time.  When fractals of magnetic fields give off a Real exchange of mini-string that directly correspond to one another in a codeterminable covariant manner during a relatively brief metric, then, these are of the same orbifold.  When the density of mini-string interconnection is weak, or, is exchanged in an imaginary manner among adjacent Planck-related phenomena, then, these Planck-related phenomena are of different orbifolds.  The spaces in-between orbifolds & the surrounding holonomic substrate of the said prior mentioned orbifolds are what work to comprise the respective orbifold neighborhoods.