Well hello again world, this is Sam Roach here!
First of all, I would like to elaborate as to what I mean by a "chord." The interconnections that exist in-between all of the second-orderred point particles taken per individual connection of all 91*10^(81) universes of a tori-sector-range that equally involves forward and backward moving time are flush between each individual of such second-ordered point particle and the interconnective one on either of its sides. Yet, the interconnections that exist in-between all of the second-ordered point particles taken per individual connection of all of the universes of the rest of the tori-sector-ranges do not involve such a flush interconnection in-between the described individual succeeding flow of Laplacian-based second-ordered point particles.
Another way of looking at the concept of a "chord" is that the corresponding interconnections of Planck phenomenon related phenomena that involve the same tori-sector-range tend bear a mini-string connection that tends to be more abelian in Yakawa Gliossi based differential geometry than the corresponding interconnections of Planck phenomenoon related phenomena that involve different tori-sector-ranges.
So, what did I mean by the "moment" that I was just describing near the end of the post that I wrote for part 1 of session 5 of course 6? If three people were to view the whole substringular Ultimon at once, and they simultaneously were to observe three tori-sector-ranges -- oneperson viewing each tori-sector-range at once, what each person would describe to each other afterwards would different if they accurately described their persception. This is because no two tori-sector-ranges are exactly the same, plus, the position and distance from where one observes something effects what your observation is, based from the general concept of Lorentz-Four-Contractions. The "chords" you would be observing would actually be segments of reiterating group substringular relations of activity, since these would interconnect to each other, and these would all interconnect to other chord-like segments that would interconnect until these would circle around the Ultimon in-between each instanton. This integration of chord-like segments form a hoop-like majorized surface that exist withing a main world-tube. Each of such hoops is right beside another single hoop, and there is a world-tube relatively "above" or "below" each main world-tube. Their is also a corresponding world-tube to the relative "right" or "left" of each main world-tube. This rectange of world-tubes represents a tensoric state of dimensionality, since we are here talking about the main world-tubes of one set of parallel universes, and, each of such hoops has the dimensional potential of exhibiting 32 spacial dimensions plus time. Each of such "rectangles" forms a ring-like shape. This "ring" interconnects to two other of such rings. These three rings form the instanton-related basis of the Ultimon. Each of such "rings" actually has a basis of three dimensions, though. Each ring needs the other two in order to have the basis of the three dimensions that life-forms are able to generally perceive in day-to-day living. The adjacent main world-sheets or world-tubes represent the fact that every dimension has two sides. The inner/outer world-tube geometric general Ward Conditions represent the fact that time goes both forward and backward simultaneaously in the Ultimon, yet only evenly when under the globally distinguishable terms of the predominant substringular tori-sector-range. So, each ring-like entity that I just described has a basis of three dimensions, in spite of the ability of each of these to exhibit 32 spacial dimensions plus time, yet each of such "rings" require the other two rings to allow an existence of 96 spacial dimensions plus time, and this ability allows for the fact that we as life-forms observe three spacial dimensions that each have two general sides -- not to mention that the iteration of the substance of these world-tubes allows for the dimension of time. This should be enough food for thought for right now. I will continue with the suspense of the third part of this session later.
In the meanwhile, ponder this.: How does the inter-relation of energy in terms of discrete permittivity and discrete impedance get effected by what I just wrote? I will help with this later. Sincerely, Sam.
No comments:
Post a Comment