The Relative Directional Flow Of Gravity

The flow of any particular locus of a gravitational-based flow -- as this may be typified by any given arbitrary eigenstate of the functional attribute of a Ricci-Scalar-based eigenstate -- tends to be in the direction of the wave-tug/wave-pull of the integration of the Hamiltonian-based operations of the activity of what I term of as the centralized knotting of the directly correlative Rarita Structure eigenstates, over any respective successive series of the correlative group-related instantons.  The genearal composition of what I term of as the eigenstates of the centralized knotting of the correlative Rarita Structure eigenstates, is the multiplicit holonomic substrate of what may be generally termed of as discrete quanta of the strong force.  The strong force tends to be formed by the substringular operators, that are of the same basic nature as those subatomic eigenmembers that are of the same general genus as gluons and the like.  The Rarita Structure, in and of itself, is the framework by which the gravitational force is to be able to kinematically active, over any directly pertinent duration in time -- in which the pull of gravity is to then be able to take into effect.  The strong force itself is of a much stronger nature than the gravitational force.  Yet, the strong force is related to the gravitational force, by means of the apparatus of the compositional construction of the activity of the so-stated Rarita Structure.  Ironically enough -- where the apparatus that works to form the structural framework of the kinematic-based existence of gravity, works to form membranous nodes of the so-stated general "centralized knotting" of the said gravitational-based framework -- the activity of such nodes works to form an integration of what may be termed of as fractals of angular momentum eigenstates, whose antiderivative-based Hodge-Indices will then tend to work here to form that inter-binding of mass-related constituencies -- that come together in so as to work at forming what is known of as the "strong force."  At the reverse-norm-to-holomorphic end of the activity of the individually taken Hamiltonian-based operations of subatomic particles, that are of the same general nature of what may be termed of as gluons -- the individually taken fractals of angular momentum that have been here formed, tend to pull in the said reverse-norm-to-holomorphic direction of the kinematic but conformally invariant eigenstates of the so-eluded-to centralized knotting.  What is here the substringular-based "choice" as to what the relatively reverse-norm-to-holomorphic end of such individually taken eigenstate of the so-stated centralized knotting happens to be,  in part, is determined by the directoral-based Laplacian eigenbase of that respective given arbitrary Lagrangian, that tends to bear the highest Hodge-Index of the phenomenology of open-loop amplitude -- from within the here proximal-based general locus of the Ward-Caucy-based region of the Rarita Structure, when this is taken relative to the so-eluded-to individually taken particles that are alike to the genus of gluons.  To Be Continued!  Sincerely, Sam.