The more anti gravity, that is here to be applied to the boundary conditions of a mass-bearing orbifold eigenset, in the substringular -- the less impeded that the said orbifold eigenset will consequently tend to be, in the process of its motion along the general path of its directly corresponding Hamiltonian operand, -- over the course of time. The less impedance that is thereby to be applied to the general motion of an orbifold eigenset, the less inhibited that such a said eigenset will consequently tend to be, -- by the general force of the Ward-Cauchy-related substrate of the correlative substringular pressurized vacuum, that it is here to come into contact with, as well, over the course of such an inferred evenly-gauged Hamiltonian eigenmetric. The less inhibited that such an orbifold eigneset will tend to be, at moving along the general course of its directly corresponding Hamiltonian operand over time, -- the higher that its superstringular permittivity will consequently tend to be. Furthermore; the higher that the superstringular permittivity of an orbifold eigenset will tend to be, the faster that such a said orbifold eigenset will consequently tend to be able to be moving at. Consequently; the more of an increase in the presence of anti gravity, that is thereby to be directly associated with the covariant motion of a mass-bearing orbifold eigenset (that is here to tend to be, of a Noether-based nature), when this is here to be taken over an evenly-gauged Hamiltonian eigenmetric, the faster rate that such a said eigenset will consequently tend be able to accelerate at, over time. As mentioned many times before; the faster that a mass-bearing orbifold eigenset is to accelerate, the quicker that its directly corresponding i*PI(del) Action will then tend to be. Therefore; the more that there is to be an increase in the anti gravity, that is here to be applied to the covariant Fourier-related proximal local kinematic presence of a mass-bearing orbifold eigenset, over time, -- the quicker that its directly corresponding respective i*PI(del) Action will therefore tend to be. The quicker that the i*PI(del) Action is thence to occur for a mass-bearing orbifold eigenset, the more charge that will consequently tend to be present at that varied proximal locus, that is here to be positioned at the directly corresponding region, that is existent at the covariant Fourier-related kinematically altering substringular neighborhood, that is here to be directly appertaining to such a respective eigenset. Therefore; the more anti gravity that is here to be fed into a system, that is thence to be directly associated with a mass-bearing Noether-related orbifold eigenset, -- the more charge that will consequently tend to be associated with such a here stated orbifold eigenset per time, over the course of that duration in which such an inferred impartation of anti gravity is here to be brought into the Ward-Cauchy-related bounds, that is of the motion of such a respective mentioned mass-bearing orbifold eigneset.
I will continue with the suspense later! To Be Continued! Sincerely, Samuel David Roach.
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