Pauli exclusion principle

 

Wolfgang Ernst Pauli

(1900-1958)

(Wikipedia, Wolfgang Pauli)

Pauli exclusion principle

Pauli exclusion principle is created by Swiss-Austrian physicist Wolfgang Pauli (1900-1958). The idea of that principle is that two similar or identical Fermions like Electrons would not have the same or identical quantum value if they are participants of the same quantum system. Or as Pauli said occupy the same quantum state simultaneously.

That means that the quantum values of the Fermions are always different if they are in the same quantum structure. And that means that if two electrons occupy the same electron core, they spin must be different. And the half-integer spin projections must be -1/2 and +1/2. So when we are thinking more about the Pauli exclusion principle, what is the key element in quantum mechanics, we can ask one very interesting question.

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Image II

"A single point in space can spin continuously without becoming tangled. Notice that after a 360° rotation, the spiral flips between clockwise and counterclockwise orientations. It returns to its original configuration after spinning a full 720°. "(Wikipedia)

So what is the spin -1/2?

In the animation or Image I (Image I) the -1/2 spin is portrayed that when the particle is spinning. The spin-axels are marked by using colors. And when the Fermion is spinning to forward 1/2 axel, it would reach the limit of the spin, and then it would take back the -1/2 axel. The thing that limits the spin is another axel. The quantum field of Fermion is symmetrical, and that means one axial direction of spin cannot cross the other axel.

So those spin axels cannot cross each other, and that means that the particle is turning to rotate backward. And this movement forward and backward are the things, which means that the existence of Fermion is ending someday. The thing that limits the rotation or spin is the energy that is erupting from the Fermion. And the energy is acting like the Aurora Borealis.

The axels that are limiting the spin are the energy showers, and the fact is that the fermion has many north poles. Normally, we are thinking that the Fermion is like a planet, which is rotating around one axel. But Fermion has many axels and that means that the spinning of those things is a little bit more complicated than the simple spinning around one axel.

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What is the area where the Pauli exclusion principle is affecting? Is it possible that there are not two atoms that have the same quantum states in their electron cores? Because the electron core of the atoms is the part of entirety, and the electrons must have different quantum states, is it possible that there are not two perfectly similar atoms in the group of the elements.

So if there are no absolute similar atoms in the family of atoms, what we are calling elements there are either no similar atoms in the entire universe. And if that thing is true the Pauli exclusion principle would affect the entire universe between all atomic and subatomic particles.

Sources:

Fermion: https://en.wikipedia.org/wiki/Fermion

Pauli exclusion principle. https://en.wikipedia.org/wiki/Pauli_exclusion_principle

https://chemistrygod.com/pauli-exclusion-principle

Spin -1/2: https://en.wikipedia.org/wiki/Spin-%C2%BD

Spin: https://en.wikipedia.org/wiki/Spin_(physics)

Image I: https://en.wikipedia.org/wiki/Wolfgang_Pauli

Image II: https://en.wikipedia.org/wiki/Spin-%C2%BD

https://curiosityanddarkmatter.home.blog/2020/11/29/pauli-exclusion-principle/