Chern-Simons Invariant-Related Action And The i*PI(del) Action

Let's initially consider two different orbifold eigensets, that are here to work to bear a covariant-related motion in relationship to one another.  Both are here to be similar but different, except for one main factor, -- even though both of these said orbifold eigensets, are here to work to bear the same transversal change in motion, -- when in respect to the motion of electromagnetic energy.  Here is the one main difference between the two so-inferred eigensets; one of these said orbifold eigensets, is to work to bear a greater scalar amplitude of a tense of spin-orbital momentum than the other said orbifold eigenset.  The said eigenset of the two, that is here to work to bear a greater scalar amplitude of a tense of spin-orbital momentum than the other inferred eigenset -- is then to consequently work to tend to bear a greater scalar amplitude of torsion, that is here to be applied to the topological stratum of its directly corresponding entity of holonomic substrate, -- than the amount of a scalar amplitude of torsion that is here to be applied to the other mentioned orbifold eigenset of this particular case.  The here inferred Ward-Cauchy-related Hamiltonian Operator, that is here to tend to work to bear a greater torsional force that is here to be applied to the topological stratum of its directly corresponding entity of its holonomic substrate, -- will then consequently tend to bear a greater plateau of a change in motion, than the other here mentioned inferred Ward-Cauchy-related Hamiltonian Operator.  This will thus work to help in causing there to tend to be more of an applied tense of an i*PI(del) Action, that is here to be "geared" upon this said orbifold eigenset, which is also here to work to bear a greater tense of a torsion of which is here to be applied to its topological stratum, than what is here to be applied to the other said eigenset of the two.  This will thence tend to work to cause the so-inferred orbifold eigneset, that is here to work to bear a greater tense of torsion -- that is here to be applied upon it, to work, as well, to bear a greater scalar amplitude of a Chern-Simons Invariant-Related Gauge-Action, that is here to be applied upon it.  Furthermore; in this particular case, the orbifold eigenset that is here to bear the greater tense of a Chern-Simons-Invariant operation, will then tend to work to be associated with a greater charge, than the other said orbifold eigenset will tend to be associated with, -- over an evenly-gauged Hamiltonian eigenmetric.  To Be Continued!  Sincerely, Samuel David Roach.