High probability that “gravity” is actually describing a magnetic field. The equations even show its strength dropping as a square function of the distance just like a field equation (see wi-fi signal strength equation). Mass is likely related to the strength of the attractive EM field so this is likely how they are disguising it: https://www.wikihow.com/Calculate-Force-of-Gravity
Well, that's not how a magnetic field varies, since they are not spherically symmetric and only affect moving charges. You are thinking of an electric field, which is also a conservative force field. Mass is related to the number of protons and neutrons (and electrons, but they are fluff) in the nuclei of the matter under consideration.
High probability that “gravity” is actually describing a magnetic field. The equations even show its strength dropping as a square function of the distance just like a field equation (see wi-fi signal strength equation). Mass is likely related to the strength of the attractive EM field so this is likely how they are disguising it: https://www.wikihow.com/Calculate-Force-of-Gravity
Well, that's not how a magnetic field varies, since they are not spherically symmetric and only affect moving charges. You are thinking of an electric field, which is also a conservative force field. Mass is related to the number of protons and neutrons (and electrons, but they are fluff) in the nuclei of the matter under consideration.