Positive charge generation tends to move things Into the relative forward-holomorphic direction From the relatively reverse-holomorphic direction. Negative charge generation tends to move things Into the relative reverse-holomorphic direction From the relatively forward-holomorphic direction. Adjacent charge generation -- that works to bear a trivially isometric tense of reverse-chirality -- will tend to push each other towards one another. This is part of what happens when opposite charges attract each other. Here. Picture yourself at the center of an atom. (Remember -- forward-holomorphicity is to the relative left, and reverse-holomorphicity is to the relative right.) The center of the atom is positively charged, while the electrons that work to surround the nucleus of the atom are negatively charged. Next -- let's consider the constraint that, from the centerpoint of the so-eluded-to action, one is to bear a consideration of left-handedness. The protons at the nucleus will be attracted to the electrons that surround it, and thereby, these said protons will have an inherent wave-tug towards the relative left. Furthermore -- the electrons at the outskirts of the atom will be attracted to the protons that are at the nucleus, and thereby, these said electrons will have an inherent wave-tug towards the relative right. This is why I have here arbitrarily eluded-to, that protons have a tendency of "wanting" to go into the relative holomorphic direction from the relative reverse-holomorphic direction -- while electrons have a tendency of "wanting" to go into the relative reverse-holomorphic direction from the relative holomorphic direction.
I will continue with the suspense later! To Be Continued! Sincerely, Samuel David Roach.
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