1) The three general forms of energy -- when not including entropic photons -- are electromagnetic energy, plain kinetic energy, and mass.
2) Electromagnetic energy always has a Yang-Mills light-cone-gauge topology. (This is when not including entropic photons.) Mass that is not translated at the speed of light or faster always has a Kaluza-Klein light-cone-gauge topology. Plain kinetic energy may have either a Yang-Mills or a Kaluza-Klein light-cone-gauge topology. Electromagnetic energy has partially hermitian singularities amongst the superstrings that work to comprise it. Plain kinetic energy tends to have partially Chern-Simmons singulariies amongst the superstrings that work to comprise it. Mass as a mass -- that is not tachyonic -- has purely hermitian or Yau-Exact singularities amongst the superstrings that work to comprise this.
3) An orbifold eigenset is a set of one or more orbifolds that operate in so as to perform a specific function.
4) The Ricci Scalar effects mass via the activity of the directly affiliated Rarita Structure eigenstates. Such a general genus of interaction is here brought into existence by the Gliossi-based delineation of second-ordered Schwinger Indices. The condition of mass, being involved here -- is due to the consideration of those Calabi-Yau manifolds that are undergoing any given arbitrary eigenmetrics of the Noether Current.
5) Mass is that general form of energy that is most viabely effected by gravity. Those bosons -- that are the heterotic strings known of as E(6)XE(6) strings, or gauge-bosons -- work to "pluck" second-ordered light-cone-gauge eigenstates, in so as to form those second-ordered Schwinger-Indices that work to correlate any directly affiliated given arbitrary Rarita Structure eigenstates with superstrings of mass -- in so as to bring the gravitational effect of gravitons and gravitinos upon closed-loops, that are undergoing the respective local Noether Current, this current of which is what works to make gravity take its general effect upon mass. (This is considering, though, the condition that gravity effects all substringular phenomena to some certain amount or another -- yet it is most effective upon the constituent force that works to bind different covariant discrete groups of mass-bearing phenomena.) Weight is mass times any correlative given arbitrary local acceleration of gravity. This works to make "weight" that particular term -- which makes the condition that mass is primarily that general format of phenomena that is effected by gravity -- an ansantz.
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