More About Orbifolds and Lorentz-Four-Contractions

Let us take into consideration a given arbitrary case of a set of orbifolds that move in one general direction, at such a velocity in which their directly associated Lorentz-Four-Contraction is of a scalar amplitude of two.  Let us say that the physical phenomenon that is here -- under this given arbitrary case scenario -- bearing a spatial range of 10 spatial dimensions plus time, over the course of that motion at which the said directly corresponding physical phenomenon works to bear a Lorentz-Four-Contraction of two.  Those superstrings that work to comprise the spatial dimension that is in the here direction of the unitary basis  in which the so eluded to physical phenomenon that is traveling here is going in, will be the superstrings that will contract to the scalar amplitude of two -- over the course of that kinematic activity that works to cause the said Lorentz-Four-Contraction that I stated in this case to be 2.  The other 9 spatial dimensions that were here eluded to -- that work to comprise that physical entity that is here to be traveling in so as to bear the so-stated Lorentz-Four-Contraction -- will only be contracted as according to the extent at which their directly affiliated physical parametric-based spatial dimensionality is moving st as a velocity, that is, in conisderation of the condition as to the velocity of each of the other spatial dimensions, when taking at a unitary basis for each of such eluded to respective dimensions taken individually.  So, the Lorentz-Four-Contraction of the so eluded to spatial dimension that is being contracted is contracted as such in this case, at both the level that is Poincaire to the so-stated superstrings, as well as at the level that is Poincaire to the so-stated orbifolds.  I will continue with the suspense later! To Be Continued!  Sincerely, Sam Roach.