Phase, group or drift velocity are interesting concepts. The idea of a drift velocity is the sum total of all the particle movements will add up to a speed that can be very different than the instantaneous speed of the individual particles. The drift velocity has been calculated to be orders of magnitude slower than the instantaneous velocities of the particles. The term 'drift velocity' comes from electrical engineering where the individual electrons may be travelling at 1% * c (where c is the speed of light) yet the sum total of all of the electrons moves far slower.
The reason for the smaller value of drift velocity is that the electrons will slam into the lattice often enough and end up stopping or traveling against the direction of electron drift. The electrons are re-accelerated by an electric field before slamming into the lattice once more at a momentous speed.
The question I'd ask now is: if we take any point in a mass within a sphere and looked at two points close to each other. One point is closer to the centre of the spherical mass and one point is further from the centre. The point closer to the centre will have more interactions and the point further from the centre will have less interactions. Can we relate this to the idea of statistical total velocity or drift velocity?
Points further from the centre of a sphere are more likely to have a higher combined velocity than those closer to the core of a sphere. We could introduce a pendulum analogy here between the closer point and the further point from the core if they were attached by a tether. One might imagine two ends of a pocket-watch.
The further end of the pocket-watch oscillate more quickly than the centre-most end of the pocket watch which have a carillon of interactions to slow down its relative movement. The relative speed of the further out particles vs. those particles further in will bind the particles towards the centre of the sphere together. This phenomenon may not be observable on a particle by particle basis and is complicated by the relative differences between electrons, neutrons and protons. (The differences are notably mass and velocity).
Gravity could be the result of this combined difference in electrostatic and electro-dynamic group velocities at various points in a sphere. Focus on the fact that the centre of a sphere has to relate electro-statistically with all of the points on the outside of the sphere.
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