Mass-Bearing Nodes

When any one given arbitrary Noether-based orbifold eigenset is to increase in its velocity in relation to electromagnetic energy, those individually taken superstrings of discrete energy permittivity that work to comprise such a said eigenset, are consequently to tend to increase in their attribution, as a set of mass-bearing nodes in time and space.  As a Noether-based superstring of discrete energy permittivity is to increase in its attribution as a mass-bearing node, it will consequently tend to work to bear less, of what I term of as being "partition-based discrepancies."  As such a Noether-based superstring of discrete energy permittivity is to increase in its velocity, in relation to electromagnetic energy, it will increase in its Lorentz-Four-Contraction -- and thereby decrease in its directly corresponding Polyakov Action.  This is part of the reason as to why a Noether-based superstring with a relatively lowered Polyakov Action, will tend to bear less partition-based discrepancies.
I will continue with the suspense later!  To Be Continued!  Sincerely, Samuel David Roach.