More As To Torque And Metric-Gauge

The more torque per metric-gauge that a given arbitrary orbifold eigenset is to be applying, upon the directly corresponding Hamiltonian operand that such a said respective orbifold eigenset is to be moving through, over time, -- the more of a holomorphic-related drive or wave-tug, that will consequently tend to be applied by such a stated eigenset, upon the space-time-fabric that such a said orbifold eigenset will be traveling through -- as it is to be moving with a relatively greater torque, than would otherwise be considered.  Consequently; let's consider an orbifold eigensest, that is here to tend to be moving naturally in its relative holomorphic direction. It is to bear a relatively greater torque per metric-gauge, than another comparative covariant orbifold eigenset.  The holomorphic-related drive in a direction or angular momentum-related wave-tug, of that inferred orbifold eigenset, that is here to work to bear a greater torque per metric-gauge, will tend to be of a higher scalar amplitude, than the holomorphic-related drive in a direction or angular momentum-related wave-tug, that would otherwise exist for the other inferred orbifold eigenset. Sincerely, Samuel David Roach.