Course 5 on Compactification and Yakawa Couplings, Session Four, Part Two

Now, to return to my analogy of the ramifications of spin and roll. As the balls of yarn spin and roll while cycling thru the hoop (going around), the twisting from the spin and roll action causes the yarn ends separated from each ball of yarn to interact with each other. How? Each ball of yarn is spinning, rolling, and moving along the hoop at a high rate of speed. The balls of yarn are close enough to where the ends of each ball described are able to interact, yet far enough away from each other to where the balls as a whole will not collide with each other. Since the balls of yarn are spinning, rolling and moving as units so fast, the yarn of the balls extending from these balls will want to hyper extend and move in all sorts of directions. Since the balls of yarn have closeness, and what I said above is happening, the yarn that is extended from the balls will need to interact (touch, rub, and curl around each other). This is because the ends of yarn extended from the balls will be where each other are at for each ball toward each other ball at least once during the one complete rotation of the balls around the hoop that I mentioned earlier. Picture the balls of yarn as point particles. The interaction of the ends of yarn of each ball of yarn in terms of these ends of yarn touching, rubbing, and curling around each other as the balls of yarn go around the hoop described earlier is an interaction symbolizing a Yakawa Coupling. Yakawa is the person's name who described a related phenomena a long time ago, and a coupling is an interaction (touching, rubbing, and curling around). When spouses are a couple, what do they do? They touch each other, rub up against each other, and curl around each other. The words have a similar history (couple -- coupling). Yakawa seemed to think that coupling was based on string as strings. Yet, as I described in previous courses, in order for strings to exist, there must be points that make these up. As far as traveling to other parts of the Continuum in basically no time flat, which I could teach, the smallest form of Yakawa Coupling that is necessary to understand is that of a point particle (within a substring) taken as a piece of yarn. If you will recall from a previous course, the hoop that I am describing is considering the universes in terms of a substringular framework instead of a globally distinguishable framework.