The force field due to gravity is characterized by a function in i, j and k that has negative components. The gravitational constant, G, is multiplied by the mass of the two objects being attracted to each other. This is divided by the distance between the two masses squared. The result is a force field that points towards the center of mass.
This blog has been exploring what likely happens from an electromagnetic perspective to create the force field known as gravity. We know that electrons move so fast (ten to the sixth power m/s or faster) that the root mean squared speed of protons and neutrons looks like it is effectively zero. Electrons in a dense space will likely experience acceleration due to an effect like buoyancy. The forces on the electrons closer to the center of mass will be greater.
If electrons are propelled out from the center of mass by a force that diminishes with respect to distance (r) squared they will accelerate at a lower rate.These electrons can only continue to accelerate as long as they don't interact with an atom. That means on the way back to the center of mass the electrons might well jump through the shadows of the ions in the mass to balance charge at the center of mass or wherever the negative charge is needed. It is likely that the trip from the atmosphere to the center of mass is a velocity compared with an acceleration on the way from the center of mass outwards.
The acceleration shall be less and less as the electrons move away from the center of mass. A relative velocity (zero acceleration for most of the trip) is likely on the return. The gravity circuit electrons accelerating on the way out and pushing inwards on the way back.
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