Let us consider two different respective given arbitrary orbifold eigensets, that are both traveling at the same relativistic velocity -- simultaneously, via the vantage-point of a central conipoint. One of the two different respective orbifold eigensets is comprised of a relatively higher Hodge-Index -- as to the amount of phenomenology that it is "carrying along," while the other of the two different respective orbifold eigensets is comprised of a relatively lower Hodge-Index -- as to the amount of phenomenology that it is "carrying along." The first of such mentioned orbifold eigensets -- that works to be the composite of more discrete quanta of energy -- will tend to bear a higher Noether Current, than the other of such orbifold eigensets -- in order to be able to translate that said greater quantity of discrete energy-based phenomenology at the same rate as the other said orbifold eigenset. That "boils" down, to that -- if a larger phenomenon is to travel at the same rate as a smaller phenomenon -- it will tend to take more thrust in order to work to cause the larger of the so-eluded-to entities to move at the same rate as the smaller of the so-eluded-to entities.
I will continue with the suspense later! To Be Continued! Sincerely, Samuel David Roach.
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