Part One Of Session 3 Of Course 13 About Stringular Transformations

One and two-dimensional superstrings are often in static equilibrium.  When a one-dimensional string or a two-dimensional string seems to come back to the same spot with the same positioning, the string that is actually at the last mentioned locus is not the same superstring that was there at the said locus during the directly prior iteration of instanton in this given arbitrary situation.  What happened is a case of indistinguishable replacement.  Indistinguishable replacement is when it appears that a certain phenomena is existing at a certain spot over a given extrapolated duration, while yet, the phenomenon that was initially at a said locus is replaced from one moment to the next by a phenomenon that is identical yet different from the initial phenomenon.  An individual one-dimensional string or an individual two-dimensional string must always spatially differentiate after each successive iteration due to the condition that discrete energy must constantly be moving per instanton in order to actually be a form of energy.  So, when a one-dimensional string or a two-dimensional string seems to be stagnant after two successive iterations of instanton, the string's positioning and location have been replaced by another respective one-dimensional string or two-dimensional string that works to cause these discrete units of energy permittivity to form a conditional response of the stringular iteration here to be a form of superconformal invariance.  Superconformal invariance is the condition of substringular phenomena to be relatively strong in terms of the genus of how tightly-knit the distribution of the said substringular phenomena is at over a certain period of time.  This is also considered conformal invariance because the initial superstring that occupied a certain location and at a certain positioning has gone elsewhere, yet, the net effect of the given one or two-dimensional string is maintained.  I will continue with part two of this session later!  Sam Roach.