Not a physicist, just a crackpot. Take everything with a grain of salt.
Okay, so... one advantage my unified field has is that it is inherently normalized; the sum metric distortion is either 0 or equal to the mass, a question I don't have the mathematical ability to answer. (I suspect mass, though, since the white hole took some metric with it)
This brings me to an interesting puzzle, however. Given that the acceleration wave produced by gravity-gravity field interactions in my model is acting on mass which is, effectively, just a gravitational field itself, and which extends into infinity, this implies some of the interaction is happening really far from the center itself. (This is fine for the model, mind. Imagine our concentric rings of distorted fabric, and "dragging" on one of the outer edges of a distant ring. Without friction, you are dragging the whole mess.)
Interactions far from the center of the mass might imply something surprising: First, the gravitational field as a whole is being affected, rather than just the center. And second, the majority of the active force on the center of mass may not even be at the gravitational phase. The effect of the repulsive cosmological constant phase interactions, much much further away, might have a huge impact on the overall forces.
Assuming these interactions are fundamentally repulsive, this implies that gravity must be much stronger than we would otherwise believe, but that a significant portion of the overall force is being counteracted by distant interactions. Granted these interactions have to propagate at lightspeed across large distances, but the gravitational fields are always interacting and always have been, so the effect is continuous.
This would provoke some
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