Direct Kinematic Interaction, In Terms Of Orbifolds

Superstrings that are of the same universe directly interact with each other.  This means that orbifolds and orbifold eigensets that are of the same universe directly interact with each other. If either two superstrings, two orbifolds, and/or two orbifold eigensets are not of the same universe, then, the direct kinematic interactions that such phenomena have toward phenomena that are of the same universe will not happen as such upon each other.  Even though there is a certain degree of cohomological and Gliossi-like interaction that involves the inter-relations between certain superstrings, orbifolds, and orbifold eigensets that are of different universes, due to the conditions that such substringular phenomena that are of different universes bear different tenses as to what works to define their corresponding spaces that resultantly works to define whether various given arbitrary substringular phenomena exist overtly relative to one another -- on account of the covariant codeterminations that are here directly related to variations in certain norm-based conditions that involve certain viable Ward-based boundaries that work to inter-relate the limitations of what superstrings will bear any directly viable interactions upon certain other substringular phenomena in a detectably extrapolatory manner, substringular phenomena that are of different universes are generally not able to bear either a directly detectable nor a directly extrapolatory wave-tug-based influence upon other substringular phenomena that are of other universes in a manner that may be perceived of by ordinary means.  This does not disclude the conditions that every substringular phenomena bears some physical effect upon every other substringular phenomena over the course of the Fourier and sub-Fourier-based translations and the Fourier and sub-Fourier-based transformations that work to define the kinematic flow of phenomena as the result of pertainant holonomic-based motion tha exists over time.  I will continue with the suspense later!  Sincerely, Sam Roach.