To get a feel for why particles tend to attract one another one can start with a few simple particles and move towards what looks like an infinite number of particles in a large mass. When there are few particles involved the phenomenon is known as the London force. The London force shows that seemingly inert or non-bonding atoms will still attract one another.
The London forces have been simulated. Electrons moving at one percent the speed of light repel each other much faster than their nucleus repel each other. Electrons neutrons and protons fill in where the electron was ejected. This forces the neutrons and protons together with the electrons circulating.
The same phenomenon repeats itself in a linear manner as a mass of particles grows. It never hurts to underline just how many particles a mass has. One kilogram of a given material may have more than ten to the twenty atoms in it. The vast number of particles with a linear growth in attractive forces due to the asymmetry between electrons and their ionic nucleus make for a 'weak attraction' known as gravity.
The tendency towards the center of mass will be for the electrons to interact and be ejected towards the periphery of the mass. Meanwhile the charge balance theorem and the missing mass from the ejected electron will force electrons, neutrons and protons towards the center of mass in what is known as the 'weak force'.
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