The higher that the general tense of the frequency of the vibration of an orbifold eigenset is to be -- when this is to be taken as to the frequency, that is of the rate at which the said orbifold egienset is to be oscillating at at its internal reference-frame -- this will then tend to work to help at causing a lower tense of a Majorana-Weyl-Invariant-Mode, than an ulterior orbifold eigenset, that is here to be vibrating at a lower frequency. If any one given arbitrary orbifold eigenset is to, instead, to bear a higher tense of a correlative Majorana-Weyl-Invariant-Mode -- over an evenly-gauged Hamiltonian eigenmetric -- then, it will then tend to work to bear a tense that is of its composite strings, -- that will, in such a case, tend to be of a lower frequency of their correlative vibrational oscillations, -- to where such a so-eluded-to set of discrete energy that is to perform one specific function over time (of which is a general description of an orbifold eigenset), will then tend to bear more of a resonant vibration, as such a set of superstrings that are here to work to help at comprising the said orbifold eigenset, will, at a reverse-fractal tense, tend to bear a higher tense of magnetism, than a respective set of orbifold eigensets will tend to have, -- at a reverse-fractal tense from the Ward-Cauchy bounds of such a here considered orbifold eigenset.
I will continue with the suspense later! To Be Continued! Sincerely, Samuel David Roach.
No comments:
Post a Comment