It has been observed under many circumstances that substances stick together. The nucleus of an atom, the plastic floating in the ocean and matter as a part of a planet or star tends to stick together. These different types of stick-together-edness may or may not be related.
Gravity and the semiconductor pn-diode may have something in common. If the n-doped portion of the diode is oriented towards the center of mass the p-doped portion might well model the relative expanse towards the outside or periphery of a mass. The electrons get squeezed and they form a depletion effect which means that the electrons are out of position in the mass structure with respect to the charge balance needed for the perfect equilibrium we all learned about in grade eleven chemistry class.
Slower moving protons, neutrons and electrons are drawn towards the center of mass through charge balance neutralization. This geometrically induced electromagnetic effect gives us what we see as gravity.
The electron depletion effect mentioned in the second paragraph is most pronounced towards the center of mass. Towards the outside of a large mass such as the Earth or the Sun we get a cumulative or additive effect of more and more electromagnetic pull that adds to the pressure felt at the surface of the center of mass.
The proportion of force that is exerted on an object can be seen by studying the volume and surface areas of a sphere or a cube. Surface integrals and volume integrals will give answers on the dynamics of the gravity force as it pertains to a mass such as the Earth.
Adding the products of the volume integrals from the center of a mass to the periphery of a mass gives us the answers we need to understand the pressures and densities observed in our solar system. These analyses can get quite complicated fast. Is the surface of a mass liquid or solid? What about the atmosphere? How does this affect gravity? Model this as buoyancy. Move forward with models considering liquids at the surface of an object the size of the sun.
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