Course 3 on Lorentz-Four-Contractions, Session 12, Part

Everything influences certain particular shape and behavioral characteristics of every string, yet the overall general Ward and eigenaction conditions that define the world-sheet operand and homotopic residue of a string may maintain exact discrete topology, sway, and angular momentum without considering each alteration in the Continuum, yet alone all the "zooming around" of sort of nearby strings. However, after many "close encounters", differentiating strings will eventually become interdependent with its "commonly" nearby constituents. The more a set of strings co-differentiate, the more of a chance that these will soon be interdependent upon each other. Strings do not act exactly like yarn or a pencil. (No Doy!) They vibrate! Yes, these are a basic form of energy, and vibration is energy, yet remember what I said of the necessity of point particles?! This is stuff that's smaller! The smaller you get, the more vibration that it has for its size. This is because the smaller stuff gets, the more it gets shoved around. So, when you detect a superstring, you are actually detecting a neighborhood of substringular iterations of the same phenomenon. If this wasn't true, the string wouldn't be able to vibrate, or thus exist. So, since the strings vibrate, we would have to be detecting such a neighborhood. What I mean by a "neighborhood" is the local region where such a given superstring is differentiating over a relatively small amount of instantons. Each "instanton" is the course of what I term as one iteration. Go ahead and assimilate what I have just written, and I will soon instruct you further in a better understanding of how and why Lorentz-Four-Contractions work.