Rigidity Of Torsion Applied To Mini-Stringular Segmentation

The higher that the scalar amplitude of the substringular pressurized vacuum, that is here to be applied upon a relatively proximal local holonomic configuration of mini-stringular segmentation -- as this is here to be taken over an evenly-gauged Hamiltonian eigenmetric, -- the Greater that the the scalar amplitude will tend to be, of the rigidity of torsion, that will consequently tend to be applied upon the holonomic substrate of such a configuration of mini-stringular segmentation.  Consequently; the lower that the scalar amplitude of substringular pressurized vacuum, that is here to be applied upon a relatively proximal local holonomic configuration of mini-stringular segmentation -- as this is here to be taken over an evenly-gauged Hamiltonian eigenmetric, -- the Lower that the scalar amplitude will tend to be, of the rigidity of torsion, that will consequently tend to be applied upon the holonomic substrate of such a configuration of mini-stringualr segmentation. Samuel David Roach.