1) A mass has both a Kaluza-Klein light-cone-gauge topology and Yau-Exact singularities.
2) Entropy eigenstates have a Kaluza-Klein light-cone-gauge topology and completely Chern-Simmons singularities.
3) Electromagnetic energy has a Yang-Mills light-cone-gauge topology and Yau-Exact singularities.
4) Plain kinetic energy that bears an even accelleration/deccelleration has a Yang-Mills light-cone-gauge topology that has singularites that are not hermitian and not spurious.
5) Plain kinetic energy that fluctuates in its accelleration/deccelleration has a Yang-Mills light-cone-gauge topology has singularities that are both hermtian and spurious.
6) Mass that is translated through a worm-hole safely (in this case, it technically is not a mass) has a Yang-Mills light-cone-gauge topology that is not hermtian, and, the said singularities are not spurious. (Partially Yau-Exact singularities.)
7) Mass that is translated through a worm-hole in a manner that is not safe (in this case, it technically is not a mass) has a Yang-Mills light-cone-gauge topology that is spurious yet not hermitian. (Another case of partially Yau-Exact singularities.)
The directly previous is a heads up to Course 16 that may help one to better understand Course 11.
I will continue with the suspense later!
Sincerely,
Samuel David Roach.
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