What is the role of electrons in nuclear processes?

Distant asteroids in zero-kelvin degrees can exist longer than similar asteroids near the sun.

When we think about organic time, or what time means to the material. We are facing one very interesting thing. Energy is the thing that creates material. When material or atoms are sending photons they are sending their mass. And that thing causes that sooner or later particles turn to wave movement. The thing that causes this thing is the negative energy. That means the energy that travels away from the nucleus of the atom.

The size of the electron is much smaller than protons. But still, they can turn the polarity of atoms neutral. But how the electricity of electrons can be so powerful that it can neutralize the electricity or polarity of the proton. The answer is kinetic energy. When an electron orbits the nucleus that will increase its electric load. But that thing is the thing that is making the material get older.

When an electron orbits an atom it loses its energy. And when the electron loses its energy proton pulls it to it. During that dive movement, the electron would take the energy from the quantum fields of the protons and neutrons. But at the same time electrons are taking part in those nuclear particles.

So why heavy elements are destroying faster than light particles. What causes the radioactivity. That thing is quite simple to explain. When electrons are orbiting the nucleus of the atom. That thing causes that electrons are throwing photons away from the atom. And during that process, electrons are losing their energy.

If there is a large number of electrons in the orbitals. They are transferring the energy faster away from the atom. That thing is the source of the radioactive radiation. The electrons in the inner trajectories would get their energy mainly from the nucleus. And that means the electrons are transferring energy only to one direction away from the atom's nucleus.

Whenever the electron is taking energy from the nucleus. That makes the nucleus of the atom lighter. And sooner or later the atom loses a couple of electrons. That thing causes the asymmetry in electron cores what makes the electrons are pulling the protons asymmetrically. That destroys the nucleus of an atom.

But when energy travels outside the nucleus when electrons are transferring it away from the atom. That thing makes the quantum fields around the atom and especially the nucleus weaker. When the electron cloud expands the quantum fields are growing but they are turning weaker. That allows that the movement of gluons in the protons and neutrons is getting stronger.

The nuclear particles, protons, and neutrons are quark groups. That requires electrons for staying in one piece. If there are no quantum fields around hadrons they are destroyed. And finally when the last electrons are left even protons are turning to the wave movement.

And what makes the energy flow from the nucleus of the atom to the negative? The thing is that when the electrons are orbiting the nucleus the electron that is in the internal orbiter would take the energy mainly from the nucleus of the atom.

The time is a very interesting thing. When we are talking about the material we can determine the time as the existence of material in the particular form. The material is getting old faster in the empty bubbles in space because the energy travels outside the material. Faster in low energetic areas than in high energetic areas.

Energy always travels from the higher-energetic area to the lower energetic area. And that means the material loses its energy faster in low-energy areas than in high-energy areas. The aging process is not so simple. Freezing material to the minimum energy level would not limit its lifetime. Or existence as the particle form.

The vaporization of the black holes means that the energy flows away from the black hole that is the higher energetic area to the space which is the lower energetic area. And the same way all other material is vaporizing or turn wave movement.

If it would pull energy to it from outside. The thing is that low energetic material has longer existence as the form of particles than high-energetic. Low-energy material loses its mass slower than high-energetic material.

Or actually, the speed of energy transfer depends on the difference in the energy level. If the difference of the energy levels is very big the energy flows to a lower level faster than if the difference between energy levels is lower. And that is one thing that destroys the material. So near zero kelvin degrees, the energy flow between material and surrounding space would be weak.

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