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That is because gravitons have a minimum speed of 20 billion c and show no wave properties, whereas the light-carrying medium has a wave speed of c and mainly wave properties.
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This is true but that does not mean they are different forces. A dog and a whale look very different but they are both mammals. There are four characteristics that define the nature of a force, speed, strength, range and polarity. If these properties vary with scale we could be observing the same force. I was toying with the idea of force varying with the density of the object according to these rules:
As a body becomes denser...
The strength of force increases
The range of force decreases
The propagation speed decreases
Polarity? (not sure here)
By this view gravity propagates more rapidly because we observe it at the scale of planets and stars (which are the bodies generating it) and these bodies are nowhere close to being the density of an electron. If we take the electromagnetic equations and substitute the general propagation velocity of force for c we can see that the character of electrostatic force will change as the propagation velocity increases. All the secondary terms will diminish to virtually nothing at the propagation speed of gravity and there will be no magnetic field equivalents to make it act like electromagnetism.
At the largest scale (galaxies, galaxy clusters etc) we have these assemblages creating ever weaker but more quickly propagating forces. In the micro realm the forces become stronger and more short range. This is what we observe.
I tend to think of a sea of these force waves being intercepted by matter. Some of this energy is directly converted into the mass of the body and some of that mass is also being directly converted into force waves whose properties depend on the density of the body generating them. Where you see bodies being impacted by particles I tend to think of the bodies themselves as the generators of the forces they appear to have.
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Real electrons have no detectable dimensions, and behave as point sources in all experiments.
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I don't have microscopic eyes so I can't speak too confidently about what an electron actually is. The electron radius must have SOME importance otherwise it wouldn't calculate things so nicely. Perhaps it represents a mean value for where most of the mass is located or perhaps it is a mean radius of pulsation for a spherically pulsating body in the aether. You yourself do not posit them as pure points but as assemblages of ever smaller particles. I assume electron radius in this case would be the mean radius of influence of the subparticle assemblage. I am not locking myself into believing that the electron is actually a microsphere but this is a convenient model to use for the gross features of my idea.
