Saturday, June 1, 2019
Some Stuff As To The Fractal Of Electric Current
Now, let us examine the nature of a point-based phenomenology, in general, in lei of what is here to be appertaining to what may be termed of as being related to the Pauli Exclusion Principle. As according to what may be eluded-to by the said Pauli Exclusion Principle, different phenomena can not be at the very same spot at the very same time. More literally, the Pauli Exclusion Principle amounts to the condition, that two adjacent electrons will always tend to bear a tense of an asymmetric spin, when in correlation to one another -- when such a tense of a spin-related nature, is to happen at the sub-atomic level. Now -- let us take the substringular fractal of such a given arbitrary case scenario, when one is here to be considering the general Ward-Cauchy-related tense of activities, -- that are here to be happening, over the course of a Noether-based flow of discrete energy. (As it is here to Not be of a tachyonic nature.) Two superstrings of discrete energy permittivity, that are immediately adjacent, -- are to vibrate, in such a manner that is asymmetric the one to the other. This happens, -- in so as to work to allow for such said superstrings to not impede upon each others space. Furthermore, as a fractal from before -- when one is here to consider the spin-related nature of first-order point particles, that are of one general genus of scalar magnitude-based size smaller than superstrings of discrete energy permittivity, -- when the general process is here to occur; over the course of time in which there is here to be a tense of the gauged-action, in which discrete quanta of energy are to act, in so as to be Gliosis to the Kahler Metric over a transient period of time, there is then to be, not only a refurbishment of both the fractal modulae and the elastic modulae of the directly corresponding superstrings of discrete energy permittivity, yet, such a said so-eluded-to process of refurbishment is to also work, to strengthen both the fractal modulae and the elastic modulae of the directly corresponding said first-order point particles, that are here to work to comprise the said superstrings of discrete energy permittivity. This works to help at keeping the holonomic substrate of superstringular phenomenology, from becoming damaged or frayed. As the earlier mentioned superstrings of discrete energy permittivity are to vary (when one is here to be talking about mass-bearing strings), in both their speed and in their direction, when this is here to be taken relative to both the motion and the existence of electromagnetic energy -- the directly corresponding Lorentz-Four-Contractions, that are here to be pertinent to the nature of such said strings, is to vary, over the so-eluded-to constraints of time. As this is here o happen, the correlative Lorentz-Four-Contraction -- that is to be appertaining to one given arbitrary orbifold eigenset, -- is to be equally applicable to all of the correlative superstrings of discrete energy permittivity, that are here to work to comprise such a said orbifold eigenset. (In other words, whatever the Lorentz-Four-Contraction is to be be for one given arbitrary set of discrete energy that operate to perform one specific function, at one directly corresponding "snapshot" in time (at a Laplacian) -- this said given arbitrary specific Lorentz-Four-Contraction, is to be homogenous to all of the composite superstrings of discrete energy permittivity, that are here to work to comprise such a said orbifold eigenset.) So, as the orbifold eigenset of mass-bearing strings is to move quicker over time, it will tend to become thinner yet more dense, since it will then tend to work to bear a higher mass. Yet, even though such a said eigenset will then tend to bear more mass-bearing strings as it is to go faster -- it will tend to proportionally bear less partition-based discrepancies per string. So, the overall said mass-bearing orbifold eigenset will tend to work to bear the same number of overall partition-based discrepancies, and thus, there will still tend to be a consequent conservation of homotopic residue. The flow of homotopic residue, tends to happen in the direction of the general flow of the fractal of the electric current. To Be Continued later! Sam.
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