Thursday, July 9, 2026

Other NEAT Ideas

 The spin-orbital momentum of a kinematically propagated charge eigenstate, tends to be eminently corroborative, with the magnetic drive, of the directly affiliated, kinetically transferred, mass-bearing, Hamiltonian Topological Manifold, of which is here to be in the reductional process, of expressively demonstrating, the general likings, of such a respectively stated physical charge eigenstate. 

The transversal momentum, of a kinematically propagated charge eigenstate, tends to be eminently corroborative, with the electrical drive, of the directly affiliated, kinetically transferred, mass-bearing, Hamiltonian Topological Manifold, of which is here to be in the reductional process, of expressively demonstrating, the general likings, of such a respectively stated physical charge eigenstate. 

The net momentum, of a kinematically propagated, mass-bearing, Hamiltonian Topological Manifold, is eminently corroborative, with the electromagnetic-related drive, of the directly associated implicit team, of the respective cohesive mass-bearing eigenstates. 

When there is an equipoise, between the magnetic drive, in conjunction with the electrical drive, of the eminently corroborative charge-related flow, of the directly affiliated, kinematically propagated, mass-bearing, Hamiltonian Topological Manifold, that it will spontaneously tend to occur, that there will consequently be an enhanced probability, that such an implicit cohesive team of mass-bearing eigenstates, will thereupon have a heightened expectation value, of working to exhibit a De Rham-like cohomology.

Spurious electromagnetic charge-related flow, often tends to work to exhibit, a Dolbeault cohomology.



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