Session Eight Of Course 11 About Orbifolds

Orbifolds ideally are basically round.  Orbifolds ideally have at least three up-close dimensional curved-shaped kernels surrounding them.  Yet, in the real world, orbifolds come in all sorts of shapes and sizes.  If Planck-related phenomena of a multi-dimensional configuration that, here, exist in a given arbitrary universe, are centralized in a rod-like shape, then, the orbifold of the fractal of the related magnetic effect of the directly corresponding Planck-related phenomena will be rod-like shaped.  If the Planck-related phenomena of the said multi-dimensional configuration that exists within a given arbitrary universe are centralized in a square-like shape, then, the orbifold of the fractal of the magnetism of the said Planck-related phenomena will be square-like shaped.  If the Planck-related phenomena of a given arbitrary orbifold bears a multi-dimensional configuration within a given arbitrary universe that is centralized in a permutative shape, then, the said orbifold of the fractal of the magnetism of the said Planck-related phenomena will have a permutative shape.  If the Planck-related phenomena of a multi-dimensional configuration within a given arbitrary universe is centralized in a triangle-like shape, then, the orbifold of the fractal of the magnetism of the said Planck-related phenomena will have a triangle-like shape.  If the Planck-related phenomena of a multi-dimensional configuration within a given arbitrary universe is centralized in a disc-like shape, then, the orbifold of the fractal of the magnetism of the said Planck-related phenomena will be of a disc-like shape.  If the Planck-related phenomena of a multi-dimensional configuration within a given arbitrary universe is centralized is in a pyramid-like shape, then, the orbifold of the fractal of the magnetism of the Planck-related phenomena will be of a pyramid-like shape.  If the Planck-related phenomena of a multi-dimensional configuration within a given arbitrary universe is centralized in a plane-like shape, then, the orbifold of the fractal of the magnetism of the said Planck-related phenomena will be of a plane-like shape.  If the Planck-related phenomena of a muti-dimensional configuration within a given universe is centralized in a rectangular-like shape, the, the orbifold of the fractal of the magnetism of the said Planck-related phenomena will be of a rectangular-like shape.  If the Planck-related phenomena of a multi-dimensional configuration within a given arbitrary universe is centralized in a round-like shape, then, the orbifold of the fractal of the magnetism of the said Planck-related phenomena will be of a round-like shape.  If the Planck-related phenomena of a multi-dimensional configuration within a given arbitrary universe is centralized in a given arbitrary shape, then, the orbifold of the fractal of the magnetism of the said Planck-related phenomena will be of the here mentioned given arbitrary shape.  I will continue with the suspense later!  Sam Roach.