5) Protons and neutrons are nucleons. Nucleons are comrprised of more closed-strings over time than electrons do. Closed strings in nucleons work to form the mass of phenomena -- in this case, particularly in the said nucleons.
6) Real-Based cohomology is substringular Yakawa interconnection that is both Gliossi during group instanton, and also here involving a topological interconnection that is focused on the relative Real Reimmanian plane.
7) Imaginary or Njenhuis cohomology is substringular Yakawa interaction that is Gliossi outside of group instanton, and/or Njenhuis cohomology may also often involve a cohomological bonding that is off of the relative Real Reimmanian plane.
8) When two-dimensional world-sheets interact in a cohomological manner with three-dimensional world-sheets that bear even Ward-Neumman boundaries, the respective cylindrical ghost anomalies that are directly associated with the two-dimensional world-sheets are twisted or torqued by the respective three-dimensional shaft-like ghost anomalies in so as to form a Chern-Simmons effect upon the eluded to Yakawa Coupling that thus forms a resulting Doubolt cohomology.
9) Njenhuis ghost anomalies are the residue of ghost anomalies that exist outside of the iterations of group instanton, and/or these may also be ghost anomalies that are situated off of the relative Real Reimmanian plane.
10) When a cohomology that is Rham is connected into a Doubolt cohomology -- or vice-versa -- this is a cohomology shift. A Rham-based cohomology is hermitian, while a Doubolt-based cohomology is Chern-Simmons.
11) Cohomologies shift when a hermitian ghost-anomaly-based pattern is to shift from being harmonic to being anharmonic -- and vice-versa. This is to happen in order for there to be both essential entropy, reassorted entropy, and also for there to be a shift of anharmonic ghost-based patterns back into harmonic ghost-based patterns.
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