Let's go back to the situation -- to where one is pretending to be an object, that is positioned, -- in so as to be standing on the topological contour of a ball. Any touch works to involve tangency. Tangency involves what may be described of as being normalcy. Normalcy involves 90 degrees. So, when something pushes a given arbitrary phenomenon to its boundaries, due to this working to define the limits of what's inside of it, -- the transpiration of that objects tangency, is then to be partially delineated along the topological framework of the proscribed circumference, that is here to exist along the surface of the sphere -- that in this case, is manifested as the metaphorical "ball" that one would be standing upon. The delineation of the relative placement -- as to where one would be upon the ball -- would be completely arbitrary. The harmonic/anharmonic relation of one's tangency upon the said ball, is here to be spin-related -- while the harmonic/anharmonic relation of the norm tangency in this case, is here to be orbital-related. With electrons, -- such motion pushes the electron on -- just like "X marks the spot." In art, whenever you want to know right where something is -- relative to a vanishing point -- one is to use two different lines. This works to define right where the point that you want to determine, is to be located at. If you are starting somewhere, and you wanted to know a straight line to a destination -- you would need to know at least three different points. So, by utilizing tangent (norm) radiation, when this is in terms of spin and orbit -- the transversal and radial conditions of the motion of the electron as a unit, may thence be defined. So, the spin-orbital interaction helps to define, with less uncertainty than otherwise, both the direction of an electron & the "push" of its energy -- while the angular momentum inter-relationship works to help define, with less uncertainty than otherwise, where the electron is going and its directoral impetus. Directoral impetus is the drive that a particle has, due to the way that its stuff is positioned in a particular direction. As stated before, these mentioned spin-orbital momentum and angular momentum -- are related to fields.
To Be Continued! Sam Roach.
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