1) The different forms of the electromotive force are electromagnetic energy, static electricity, and electricity.
2) Both charge and a metric-gauge quantum are the Fourier translation of drive in a direction.
3) A proton's charge in terms of holomorphism is a positive holomorphic charge, since it is left-handed in terms of attraction to an electron.
4) An electron's charge in terms of holomorphism is a negative holomorphic charge, since it is right-handed in terms of its attraction to a proton.
5) A proton's charge in terms of permittivity is positive.
6) An electron's charge is negative in terms of permittivity.
7) A proton's charge is negative in terms of impedance.
8) An electron's charge is positive in terms of impedance.
9) A superconformal gluon starts in one spot, then kinematically differentiates holomorphically, then kinematically differentiates antiholomorphically twice in a row, then differentiates kinematically holomorphically to its original position, then differentiates kinematically norm to holomorphically, then kinematically norm to antiholomorphically twice in a row, then the described gluon returns to its original position to resume the given status of superconformal invariance.
10) A gluon that is breaking down is perturbated by an electromotive and/or gravitational force that forms either a Calabi related or an alterior Kaeler effect that shakes the given gluonic force out of sync at its locus. If added Gaussian Transformation due to an added Higgs Action import can not stabelize the associated locus, the described gluonic force is loosened from the cite where it Lagrangianly differentiated to allow for the activity of the weak force.
11) Some gluons break down due to radioactive decay.
12) A radioactive atom releases alpha particles, that consist of two protons and two electrons, or these release individual electrons known here as Beta particles, and/or these radioactive atoms release electromagnetic energy in the form of Gamma rays.
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