| The Gravitational Electric Theory use rotating | | | | force, similarly to a lot of free pieces of magnets. |
| electric fields for explaining both magnetic and | | | | The gravitational domains are not limited to |
| gravitational fields. | | | | rotating electric gaps involving electrons and |
| Magnetic fields are produced by electric currents, | | | | protons; it can be produced by interactions |
| specifically by interaction between negative and | | | | between subatomic particles like quarks, and |
| positive charges. | | | | leptons, probably due to "color charge" exchanging. |
| Magnetic domain is probably a region where | | | | Some experiments show that oscillation on |
| electrons circulate creating electric gaps. The | | | | electric fields may propagate instantaneously for |
| circulating electric gaps produce rotating electric | | | | all directions to neighbor electric fields, inversely to |
| fields which produce the magnetic fields. | | | | the square of the distance E=K( q/r²). Then the |
| The gravity can be better explained by electric | | | | speed of gravity may be instantaneous similarly |
| gravitational domains, which is similar to magnetic | | | | to the electric field, and also similarly in distance |
| domains. | | | | strength 1/r². |
| It is known that a flow of electrons in a metallic | | | | The Newton's law of universal gravitation F=G( |
| wire produces magnetic fields. Two parallel metallic | | | | (m1×m2)/r²) is likely correlated to Coulomb's |
| wires, having electrons flowing to same direction, | | | | law F=K( (q1×q2)/r²) due to the gravitational |
| attracts each other due to a natural | | | | field being an effect of the rotating electric fields. |
| synchronization of their electric gaps, and two | | | | The Faraday rotation effect shows that a |
| parallel metallic wires, having electrons flowing to | | | | magnetic field rotates the light polarization, and |
| opposite direction, repeals each other due to a | | | | then is clear that it may be an effect of the |
| lack of synchronization of their electric gaps. In a | | | | rotating electric fields. The magnetic levitation |
| same way, electric gravitational domains repeal | | | | experiments confirm that electrons circulating in a |
| each other, for a little time, until reach a natural | | | | winding coil produce the rotating electric fields, the |
| synchronization between their electric gaps and | | | | rotating electric fields produce the magnetic fields, |
| then attract each other. | | | | and also the rotating electric fields produce a |
| It is known that the electric field is 1e36 stronger | | | | gravitational force. |
| than the gravitational field. The gravitational fields | | | | The Gravitational Electric Theory is supported by |
| are very weak meaning that has low coercion, | | | | evidences in practice. Probably, the rotating |
| and its rotating electric field is naturally | | | | electric field will be a best way of explaining both |
| synchronized with others to form an attraction | | | | magnetic and gravitational fields. |