As To Why Fermions Tend To Have A Greater Charge Density

 One of the reasons — as to why mass-bearing cohesive sets of discrete energy quanta, that operate, in so as to work to bear a fractional spin (super small particles that work to bear a fractional spin, are commonly  named of as being fermions), tend to work to bear a greater charge density, than mass-bearing cohesive sets of discrete energy quanta, that instead, operate, in so as to work to bear a whole spin (super small particles that work to bear a whole spin, are commonly named of as being bosons), — is to basically be of the herein mentioned reason: mass-bearing cohesive sets of discrete energy quanta, that are here to exhibit a fractional spin, — tend to exhibit a more spurious alteration in their Chern-Simons Invariants, during the process in which such a set of particles, that are here to work to bear a fractional spin (the respective fermions), are to alter in their direction and/or in their rate of motion, when this is here to be considered, in their relationship to the motion of electromagnetic energy. To Be Continued! Sincerely, SAM ROACH. (PHS 1989).