A Little Bit Of Metaphorical Explaination

Imagine a line or a chord that is jointal after every substringular placement that is localized along its world-sheet until a group of other superstrings that are eigenstates of the related homotopy that the origanally denoted strings codes for the prior.  Since it is jointal after every kerneled string, the said homotopy of the original string is taut.  By taut, I mean that the tenses of Njenhuity that are propagated by the given homotopy here give a placeholder loop tug in a transversal manner, yet, also in a radial manner as the affiliated superstrings are distributed around the bounds (Njenhuisly Derichlet) of the kerneled superstrings' general neighborhood.  A taut homotopy has a more interdependant stress modulae, since it may induce the local point commutators to assort in a manner that is randomized as an attractor covariant integrating fractal basis that may reassort the associated arrangement -- if not the    "phenotypical" coding -- of the affiliated kerneled strings.  The more jointal the associated waves of the prior mentioned scenario are, the less "fatigue" that the given homotopy has, if the general locant that impells this happens in a manner in which it is able to take a relatively great load.  If the jointal propagation here impedes the related conformal invariance of the affiliated kerneled superstrings, then, the related homotopy's related locus can not take much of a load, and thus, the said locus will be then be relatively scattered or broken down yet, here not frayed.  The more jointal, yet less ghost-anomaly-based, and, the more that the point commutation altering the condition of the related locus is, the less correspondence that the wave-fronts of the sequence of the relating homotopy is relative to the other said group of superstrings. The substringular condition described in this case subsequently, after each slice of the series of the sequential recurrence that works to determine the related bounds of the corresponding static equilibrium will then, in the process of the condition that the related superstrings will here maintain an even keel of conformal invariance, in such a manner so that there will here be a corresponding semi-group of the eigenstates and kernels of the related homotopic eigencondion in order to bear a proximal field that has a sound stress modulus that incorporates a covariant generation of affected field delineation in which there may be an effect in which the said kernels may not be able to render a "perminant" damage to their corresponding eigencondition of conformal invariance. The said wave-fronts, in order to have a viable permanance, must conform to the Ward Caucy bounds of a shape-wise thin "tube" of a neighborhood during each instanton-quaternionic interaction in terms of the said wave-fronts' field distribution.  Alterations in the related orbifolds that may exist here that are beyond this point must then conform to the wave-based emmisions of their corresponding attractor locant in such a manner that the related point commutators in each corresponding orbifold eigenset may be able to induce the here implied wanted condition.  This here is due to the kinematic codifferentiation of the morphology and the kinematic codifferentiation of the related topological structure of the integration of the directoralized sum of the related Popov-Ghost-Trace phenomena of the associated tori-sector-range that, in turn, works to recycle the corresponding norm and ground matrices in a manner that is both discrete and singular-wise unique. I am sorry if my wording is here a little out of it!  Sincerely, Sam Roach.