Course 4 On The Substringular Vs. The Globally Distinguishable, Session 15, Part 2 (Two)

If the set of points will "bounce out" of the vacuum, then it will form a new string that will be of a different kind than before unless the initial conditions forming the string are the same. If the conditions are the same, then an identical string may be formed by the same set of points. If the vacuum is kept, then the design of this vacuum will be kept by the Lorentz-Four-Contractions of the given set of points. These contractions will be determined by the roll, spin, transformational motion, and pointal iteration of these given points relative to the basis of light. This is done since there is a lot of pointal motion of surrounding all of the strings. The pointal motion includes all of the points of the given set that we have discussed. As this set of points contains waves which interconnect with all waves and thence related strands of points, the differentiation of any set of points work on all other points. If something works on all other points, then it works on all light eigenstates. If something works on all light eigenstates, then its differentiation is done relative to light as a unit. Not only do these factors influence how a set of points or a string differentiates relative to light, yet also the axes of the strings and points relative to the ultimon influences this. Strings have a tensoric axis that goes in the direction of the width of the ultimon under normal conditions when the given superstring is in a completely holomorphic mode. The "axis" here is normal to point flow. When a tachyon is formed, the axis here is renormalized to go in the "length" direction of the ultimon -- majorized as it is. When a string has such an "axis," it may differentiate as a unit in a compactive manner at the speed of light, since the string is now nonabelian and may now flow in the direction of light eigenflow. (Singularized photon eigenbases flow 90 degrees to normal strings.) If a string had an axial that was in-between its basic axials in orientation, it may move faster than light, yet it would not be able to catch up with light when slower. This is since only by a stringular flow at the speed of light and in the direction of the flow of light may a string, which is constantly moving around the ultimon anyways, may a phenomenon move "toward" light. The ability or inability of a string to move toward light influences the appearance and detectability of the phenomenology of that string. This ability has a lot to do with the axes of the given strings. Such axes are controlled by the gravitational indices of the strings as these are propagated in space. This set of gravitational indices may be altered by swaying the region surrounding the strings. Such sway may be controlled via an electromagnetic/magnetic field delineation altered on a given superstring by changing the topological bases of the field through each layer that the given superstring is distributed within.