Kinematic Torsion Upon Space-Related Vacuum

 The more of a kinematic torsion, that is here to be exhibited upon a space-related vacuum, -- the more viscous that such a space-related vacuum will consequently tend to be. A more viscous space-related vacuum, will tend to work to bear a greater physical attribute of impedance. Therefore; the more of a kinematic torsion, that is here to be exhibited upon a space-related vacuum, -- the more likely that such a said vacuum, will tend to work to bear a greater physical attribute of impedance. Furthermore; the less of a kinematic torsion, that is here to be exhibited upon a space-related vacuum, -- the less viscous that such a space-related vacuum, will consequently tend to be. A less viscous space-related vacuum, will tend to work to bear a lower tense of a physical attribute of impedance. Therefore; the less of a kinematic torsion, that is here to be exhibited upon a space-related vacuum, -- the more likely that such a said vacuum, will tend to work to bear a lower tense of a physical attribute of impedance. To Be Continued! Sincerely, SAM (1989).