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This idea came to me many years ago. In atoms, the electrons occupy orbitals such as S,P, etc, with electrons pairing up in twos, having opposite spin. With the EM force both electrostatic and magnetic the orbital reflect magnetic addition to help moderate the electrostatic repulsion of the electrons. Based on Newton's law of action and reaction, does the directional and magnetic nature of the electron orbitals (shapes) induce/reflect positive charged based orbitals in the nucleus? It makes no sense for a random nucleus surrounded by orbital order for electrons, seeing plus and minus charged are connected and balance. If the action/reaction was the case, we could conceivable use electron orbital inductions to alter nucleus orbitals; excited states. If these are new states are stable, these will then reflect in the electrons to make the electrons assume unique orbital positions. For example, magnetic iron upon heating will lose its magnetic properties, yet the iron in the core of the earth can stay magnetic at 7000C. This could be done if the nucleus orbitals were induced to change and force the electrons to stay in magnetic alignment. I am not saying this is the case, but was used as a visual example.
In an atom, the electrons are distributed spherically around the nucleus,