Part Three Of The Twelvth Session of Course 13

The Grassman Constant for such a superstring/counterstring inter-relation is in part the multiplicitly-based  angle of difference that exists in-between the partitions of the given one or two-dimensional superstring, respectively, and the directly associated one or two-dimensional counterstring.  So, at the norm-to-forward-holomorphic Laplacian-based  maximum of a given arbitrary two-dimensional superstring, the directly related counterstring has a partition that angles here toward the directly associated Planck-like phenomenon that here works to form the discrete energy impedance of the corresponding said discrete unit of energy.  And at the directly corresponding norm-to-reverse-holomorphic end of the just mentioned given arbitrary superstring during the same during iteration of BRST that appertains to the same "Instant Under Consideration," the counterstring that is here directly related to the corresponding two-dimensional superstring that is here being evaluated, has a partition angling inward and yet away from the holonomic substrate that works to comprise the said directly related two-dimensional counterstring.  Of the latter mentioned locus of the said format of partition-based topological substrate, (that here works to define the physical behavior of discrete energy that corresponds to a two-dimensional superstring and its directly corresponding two-dimensional counterstring), the point particles of such are displaced relatively transversally by one point particle in diameter -- while yet being also displaced just to the Njenhuis side of the given arbitrary topological mapping of the Laplacian-based trajectory of the ensuing first-ordered point particles, in such a manner that goes outward for the said topological mapping of the said two-dimensional superstring when going from the norm-to-forward-holomorphic static-based positioning of the said string while yet simultaneously (through a central conipoint) going relatively inward for the directly related two-dimensional counterstring from the same norm-to-forward-holomorphic static-based positioning of the said related two-dimensional counterstring.  The topological substrate that works to form the field that inter-binds a two-dimensional superstring with its counterpart is fed into its locus, in part, from mini-string segments that are initially fed into the directly related Fadeev-Popov-Trace that works to form the discrete energy impedance that directly corresponds to the discrete energy permittivity that the said superstrings work to comprise.