If a given arbitrary superstring of discrete energy permittivity, that is to bear no scalar effect of a Lorentz-Four-Contraction -- is to work to bear what may be described of here as three discrete spatial dimensions plus time, over the course of any respective given arbitrary duration of BRST -- its conformal dimension will then tend to be: 2+(3^((3*10^8)/10^43)), (and anything taken to the zero-power is one), which is equal to 2+(~1) = ~3 spatial dimensions plus time. (Just a hare over the general number of spatial dimensions.)
So -- a given arbitrary superstring of discrete energy permittivity, that is to exhibit N number of general spatial dimensions, during any one given arbitrary duration of an iteration of BRST, as a generic genus of an equational extrapolation, -- will work to bear a conformal dimension of:
(N-1)+(N^((the inverse of what the Lorentz-Four-Contraction will respectively be)/10^43)), or, in other way of exhibiting such a general idea for an equation may be written as:
(N-1)+(N^((the scalar amplitude of what the Polyakov Action will respectively be)/10^43)).
Again -- anything to the zero-power will be one, so, the conformal spatial dimension of any one given arbitrary superstring of discrete energy permittivity during BRST, will tend to always be just a tiny fraction of a scalar amplitude of numerical extrapolation -- above what its discrete spatial dimension will be.
Any discrete spatial dimensionality will always be of a specific integer value, yet, the conformal dimension will tend to always be just a basically insignificant fraction above such a general said discrete value.
I will continue with the suspense later! To Be Continued! Sincerely, Sincerely, Samuel David Roach.
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