The stability of matter

 

The stability of matter

The fact is that nothing is stable in the universe except change. The universe is the expanding ball and the walls of the ball are moving away. The entire energy that is existing in the universe is released in the Big Bang. That means there is no other energy source than Big Bang if we are thinking that energy is only the wave movement of the material. 

The material or particles that are forming the material's entirety are interacting with each other. They are interacting by wave movement. When energy stress impacts the particle it starts to send oscillation and the oscillation will transfer to the other particles around it. 

So when the universe is expanding the space, what energy or wave movement must fill is expanding. And the energy level will turn lower. Or maybe we can say that the density of energy is turning lower. And what I mean? I mean that we might think that the energy is like vapor and when space where the vapor expands, that thing means that the density of vapor is turning lower. 

In the quantum world, the vapor is forming of electrons and other subatomic particles. The fact is that the electrons are spinning. That thing causes that the electrons will send the radiation. In that case, the electrons will lose their mass, because energy cannot vanish, it can just turn its form. 

And sooner or later the energy of the electrons will end. The thing is that the quarks that are forming protons and neutrons are also spinning or oscillating. When the energy of electron cores is decreasing, that thing makes that the pushing force of the electron core is decreasing. 

That means the oscillation of the nucleus is expanding, and sooner or later the quarks are released from the protons and neutrons. The number of electrons in the electron core is the same as protons and that means that electrons are neutralizing the electricity of the protons. 

The nucleus of the atoms is forming of protons and neutrons. The polarity of protons is positive, and neutrons have poles. That means that protons and neutrons must form the entirety by using the "weak interaction". The protons are repelling each other, and that means that they need the neutron as a medium, and protons can touch only to the south pole of the neutron. So to the nucleus of an atom is mainly affecting the pushing and pulling interactions. The electromagnetic interaction between protons and proton interaction with electrons is ripping the nucleus to pieces. 

And the "weak nuclear forces" are keeping the nucleus in one entirety. The strong interaction ("Color force")  interacts between quarks. The position of quarks determines the direction of the poles of neutrons. And protons can make contact only to the south pole of the neutron. All four fundamental interactions affect the nucleus of an atom, and even the tiny gravitational interaction effects if the interaction remains for thousands or millions of years. 

Or actually, the electrons are pulling protons from the opposite side. The energy that is impacting atoms is normally affecting only the electron cores, where it would transmit to the nucleus. This might feel like a very rare thing because the electrons should pull protons out from the nucleus. 

The electrons are negative particles, and that means that the protons are pulling electrons to them. Or the electrons are interacting with the nucleus. When the energy level of orbiting electron is decreasing it will drop to the inner trajectory of the inner electron core, and the protons, or rather saying the entire nucleus of atoms will load energy to it. When an electron is dropping to the inner trajectory it sends the photon.  So an electron is transmitting energy away from the atom.

Whenever an electron is dropping near the nucleus of an atom it transfers the energy from the atom to itself. And then it will rise to the farther electron core. But sooner or later it will lose its energy, and then it will go to get a new energy load from the nucleus. When an electron sends radiation to space, that thing causes that the mass of an atom is decreasing. 

Sooner or later the existence of an atom is over because its entire mass has been turned to wave movement. And the fact is that we know that every single particle in the universe interacts with others. Every single fundamental force is interaction. As Newton noticed when apple drops from a tree Earth will pull an apple to it. 

Also, the apple pulls Earth to it. The effect of the apple on the trajectory or position of Earth is minimum. We cannot just measure that thing. But the interaction exists. Same way electrons are interacting with protons and neutrons. And in this case, we might say that the only thing that is stable with change is interaction.