Metrical-Based Chern-Simons Singularities

Let us first consider, in this case -- one distinct given arbitrary superstring of discrete energy permittivty, that is moving at a constant transversal speed in a constant transversal direction, over a set metric over time.  Let us next say -- that the said superstring of this respective case were to evenly vary in the rate of its pulsation, even though the so-stated superstring of this given arbitrary case is said to be moving at a constant Real Reimmanian-based velocity -- over a sequential series of directly related instantons.  Since the so-stated given arbitrary superstring, is to here be moving at a constant velocity in this respective case scenario -- the directly applicable Lorentz-Four-Contractions that may be attributed to both some of the consequential and some of the  resultant attributes, that are to then be displayed by the Fourier-based activity of the said discrete quanta of energy of this respective case -- are to tend to be of the same consistent manner of the correlatively-speaking scalar amplitude, per each succeeding iteration of the directly associated instantons in which the so-stated superstring is to here be moving through the directly associated Hamiltonian operand -- which is to here be related to the directly correlative metrical-based substringular duration of the motion of the said given arbitrary superstring.  Yet, since the said superstring of this case is to here be varying in its pulsation, while it is moving at a constant transversal speed in a constant transversal direction -- the so-stated superstring will then tend to bear a set of tensoric Njenhuis-based indices, that will be applicable to the topological sway of the said superstring of discrete energy permittivity, as the so-stated superstring is to be moving through what would otherwise be a discrete Lagrangian-based path that is to be plotted through the given arbitrary respective substringular environment that is of the directly associated Hamiltonian operand of this given case.  This variance in pulsation of the given superstring of this case, will then work to form one set of metrical-based Chern-Simons singularities, that may be considered as what will tend to be a euclidean acceleration and/or a euclidean deceleration of the rate of the perturbative externalized topological sway of the spin-orbital wave-tug/wave-pull of the so-stated superstring at the Gliosis-based topological surface that is Poincare to the core-field-density of that self-same superstring.  Yet, the earlier mentioned tensoric Njenhuis-based indices, that may be formed by that alteration of substringualr pulse, that will act, ironically enough, to not alter the transversal velocity of the said superstrings -- will work to form a set of complex-root-based indices -- that will here be directly affiliated with the existence of a sort of "fidgeting" that will then tend to happen as the said superstring is altering in the rate of its so-eluded-to pulsation, over the said gauged metric of this given arbitrary case.  Such a fidgeting in the transversal Fourier-based delineation that is of the so-stated superstring, will work to form an externalized rippling of the outer-bounds of the directly associated Ward-Caucy condition of the said discrete quantum of energy permitivity -- of which will as well tend to form in that so-stated state or tense of "rippling," the interactive existence of certain directly associated Lagrangian-based Chern-Simons singularities, over the correlative sequential series of instantons by which such a kinematic-based activity is to then be able to take place.  To Be Continued!  Samuel David Roach.