Both one and two-dimensional superstrings differentiate relative to light. Light consists in part of Planck-like phenomena that have both a fractal of an electric field and also a fractal of a magnetic field that fluctuate relative to one another over time. This is why light is called electordynamic or electromagnetic energy. Superstrings, both one and two-dimensional, are connected to Planck-like phenomena via the light-cone-gauge eigenstates that directly associate with the corresponding superstrings. When Planck-like phenomena that work to comprise a mass move fast, when relative to the speed of light, the length of the object that the given mass is made up of is contracted, and, the mass of the given object increases. The length in this case increases as is according to
L=(1-v^2/c^2)^.5, and, the mass goes up as is according to M=1/(1-v^2/c^2)^.5. This type of contraction effects both the individual Planck-like phenomena and their directly corresponding superstrings that work to comprise the given mass. This contraction just stated also effects the object that is traveling at any given arbitrary relatively fixed or variant speed, as a whole. For instance, the direction of such a general format of contraction is based on the integrative effect of the directorals that the given object is undergoing over the course of any extrapolation of the motion of any said specific phenomenon. Such contraction is called Lorentz-Four-Contraction, since time is also effected as is according to T=(1-v^2/c^2)^.5. To Be Continued! Sincerely, Sam Roach.
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