A Different Tense Of Relative Covariance

Let us say that one were to have an orbifold eigenset, that was comprised of a set of smaller orbifolds, of which functioned as Hamiltonian operators from within the Ward-Neumman confines of the initially said orbifold eigenset.  Let us next say that the initially stated orbifold eigenset, was just acted upon by a group-attractor eigenbase -- in so as to go from moving in a divergent tense, via its respective given arbitrary Fourier-based translation, into moving as a Hamiltonian operator that is then put into a state of static equilibrium -- to where the overall orbifold eigenset of such a case, is put into a tense of conformal invariance over the course of a Wess-Zumino interaction -- that would exist here between the group-attractor and the said overall eigenset, over a relatively transient duration of time.  Let us then say that the orbifolds that are here to exist from within the Ward-Neumman bounds of the holonomic substrate of the orbifold eigenset, had here just been perturbated in a harmonic manner -- to where these are differentiating in a Fourier-based manner, over time, in such a manner that is cyclical, in a divergent manner, that is of less of a conformally invariant tense of kinematic motion.  This is to where, ironically enough, the interior-based orbifolds that are of a Ward-Caucy relationship with the overall orbifold eigenset that is of an external Ward-Neumman bounds, are in less of what may here be considered as a tense of static equilibrium, than the initially so-stated orbifold eigenset -- that had just been brought into a higher state or optimum relaxation -- over a sequential series of instantons.  Even though the orbifolds that are of a Ward-Caucy relationship with the externally constructed orbifold eigenset -- that work to contain the Ward-Neumman boundaries of the internally proximal localized orbifolds -- are of a relatively less stable covariant tense of both codetermination and codifferentiation, over time -- the internally proximal localized eigenindices, that are of the internal genre of a multiplicit framework, are of more of an entropic state of Fourier Transformation than the relative state of rest,that is associated instead with the Fourier Transformation of the external framework of codetermination and codifferentiation -- as the initially so-stated orbifold eigenset is oscillating in a tense of what may be here considered as a state of relative static equilibrium.  So -- this means that what would here be an externalized physical framework of Ward-Caucy Hamiltonian operation, is acting as a state of holonomic substrate that is in a  Majorana-Weyl-Invariant-Mode -- even though the action of the so-stated group-attractor that had brought the initially said orbifold eigenset into a Wess-Zumino interaction, in so as to bring the said eigenset into a harmonic perturbation that had then brought it into a tense of conformal invariance, did not simultaneously, through the vantage-point of a central conipoint, work to bear a Wess-Zumino interaction upon the Yukawa-based topology of the holonomic substrate of the internally-based orbifold-related fields that are Gliosis to the Hamiltonian operation of the overall said orbifold eigenset.  To Be Continued!  Sincerely, Sam Roach.