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New Theories / Re: Are positive and negative charge equal and opposite?
« on: 28/03/2021 14:14:11 »
The electron, in particle accelerator data, was found to be a single particle composed of negative charge and mass. The mass and negative charge are so merged as to be consider one thing. This, logically, reflects a state of gravity and negative charge that is unified even at accelerator conditions. The electron obeys unified laws of gravity and negative charge. The proton is made of more than one particle and positive charge is not quite as unified to mass. It can associate as one thing; proton under extreme conditions, but not all conditions.
If you look at the EM force, the negatively changed single particle electron is better designed to take advantage of the magnetic side of the EM force, due to its never ending hustle. A charge in motion creates a magnetic field, while an electron is always in motion, allowing negative charge to overcome even negative charge repulsion, without any additional force. The proton's positive charge repulsion needs the nuclear force, since it magnetism is not enough. Negative charge is more self contained as the electron.
For example, the oxygen atom can form oxide or O-2. The oxygen atom can hold two extra negative charges, beyond its number of nucleus positive charges. The electrons and negative charges overcome this change imbalance and negative charge electrostatic repulsion by being always in motion. The motion of the electron in the p-orbitals of oxygen, generates an extra magnetic component, that can overcome the charge repulsion. Mineral oxides can withstand extreme heat and O-2 remains very stable.
Originally, electricity was assumed to be due to the movement of positive charge. When the electron was discovered, this was corrected and electricity was defined as movement of negative charge. These two traditions created a relative reference compromise, since positive charge to the left creates the same affects as negative charge to the right.
The electrons in motion, around the oxygen nucleus, simulates positive charge and negative charge so they appear to charge cancel; opposite motions. This is due to the unity of the EM force. Protons and positive charge do not do this in chemistry, since positive and negative charges are not the same. The extra perpetual motion of the single particle electron, makes this possible, since its motion implies a better integration of magnetism, negative charge and mass. This is super stable even if the most extreme accelerator conditions,
The finish up question is, why is the electron always in motion? My guess is this is connected to its unity of magnetism, negative charge, mass. This unity implies the need for motion. This motion is also very fast and makes another connection; special relativity. Special relativity can increase the relativistic mass and tweak the unified force it displays in space-time. The proton is more GR based. One result is the uncertainty displayed by electrons, due to it being in another state; unified, mass, charge and magnetic state within a perpetual low level SR reference.
If you look at the EM force, the negatively changed single particle electron is better designed to take advantage of the magnetic side of the EM force, due to its never ending hustle. A charge in motion creates a magnetic field, while an electron is always in motion, allowing negative charge to overcome even negative charge repulsion, without any additional force. The proton's positive charge repulsion needs the nuclear force, since it magnetism is not enough. Negative charge is more self contained as the electron.
For example, the oxygen atom can form oxide or O-2. The oxygen atom can hold two extra negative charges, beyond its number of nucleus positive charges. The electrons and negative charges overcome this change imbalance and negative charge electrostatic repulsion by being always in motion. The motion of the electron in the p-orbitals of oxygen, generates an extra magnetic component, that can overcome the charge repulsion. Mineral oxides can withstand extreme heat and O-2 remains very stable.
Originally, electricity was assumed to be due to the movement of positive charge. When the electron was discovered, this was corrected and electricity was defined as movement of negative charge. These two traditions created a relative reference compromise, since positive charge to the left creates the same affects as negative charge to the right.
The electrons in motion, around the oxygen nucleus, simulates positive charge and negative charge so they appear to charge cancel; opposite motions. This is due to the unity of the EM force. Protons and positive charge do not do this in chemistry, since positive and negative charges are not the same. The extra perpetual motion of the single particle electron, makes this possible, since its motion implies a better integration of magnetism, negative charge and mass. This is super stable even if the most extreme accelerator conditions,
The finish up question is, why is the electron always in motion? My guess is this is connected to its unity of magnetism, negative charge, mass. This unity implies the need for motion. This motion is also very fast and makes another connection; special relativity. Special relativity can increase the relativistic mass and tweak the unified force it displays in space-time. The proton is more GR based. One result is the uncertainty displayed by electrons, due to it being in another state; unified, mass, charge and magnetic state within a perpetual low level SR reference.
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