6) The "dance" of energy is Fourier translated discrete Planck phenomena related phenomena. The "dancer" of energy is Fourier translated superstrings. Fock energy is the Fourier translated norm states that consist of point commutators. A single unit of Planck energy is an eigenstate of energy. The actual motion of discrete Planck phenomena and superstrings is their gauge-metrics, or, in other words, their activity that exists both per iteration and also within discrete units of time.
7) Electrons surround nuclei at a relatively fast rate (close to light speed). We normally encounter matter, which is made up of atoms. Atoms, with the exception of H+ ions, are composed of electrons orbiting their nuclei.
8) If the electromagnetic energy interacting with an electron was controlled, one would have a higher probability of "pinning" down an electron's position and what it is giving off at the same time. If you traced the given electron down to its path of kinematically differentiating locus, if no energy was added to the given electron, and if the given detection had no aberrations both in terms of angle of inspection and the directoralization of the inspection, one could better detect an electron with a higher probability.
9) An ideal line is straight with no aberrations. A one-dimensional superstring is a very thin vibrating strand that would be almost like an ideal line if it wasn't for the exterior forces acting upon the given one-dimensional superstring.
10) A point particle exists as a mesh of mini-string in a locus. The substance of this mini-string that is in this locus is the point particle itself, while the whole locus of where the point particle extends is the neighborhood of the said point particle.
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