Saturday, February 22, 2020
Second-Order Light-Cone-Gauge Eigenstates And Force
The more pronounced that the vibration of those second-order light-cone-gauge eigenstates, that are here to be appertaining to one given arbitrary discrete quantum of energy -- to where such an inferred set of second-order light-cone-gauge eigenstates, are here to work together to comprise one specific correlative first-order light-cone-gauge eigenstate, to where the course of such a general tense of a vibrational mode, is here to be over the duration of an evenly-gauged Hamiltonian eigenmetric, -- this will thereby consequently tend to follow, that the higher that the scalar amplitude will then tend to be, of the directly corresponding intensity of those wave-like Schwinger-Indices, that are here to consequently to tend to be formed by the inferred "plucking" of these said second-order light-cone-gauge eigenstates, by their directly corresponding gauge-bosons. The higher that the scalar amplitude will then tend to be, of the directly corresponding intensity of those wave-like Schwinger-Indices, that are here to be formed by the inferred "plucking" of the correlative second-order light-cone-gauge eigenstates of a certain case, by their directly corresponding gauge-bosons, the more of a general attribute of force, -- that will thereby tend to be exhibited, at least in part, by the here inferred discrete quantum of energy, that may be appertaining to such a given arbitrary respective case scenario. Samuel David Roach.
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