principle of the inclusion of Graceli.

two identical fermions can not occupy the same quantum state simultaneously. but it has variables according to types and levels of energies. or categorical variables, being these energies thermal, electric, magnetic, luminescent, radioactive. and with variables of these energies according to Graceli transitions phases of isotopes.


The principle of Pauli's exclusion is a principle of quantum mechanics formulated by Wolfgang Pauli in 1925. He states that two fermionsidentitics can not occupy the same quantum state simultaneously. A more rigorous way of stating this principle is to say that the total wave function of a system composed of two identical fermions must be antisymmetric with respect to the change of two particles. For electrons of the same atom, it implies that two electrons can not have the same four quantum numbers. For example, if the quantum numbers n, l, and {\ displaystyle m_} are the same on both electrons, they must necessarily have different numbers {\ displaystyle m_}}, so the two electrons have opposing spins .

principle of the inclusion of Graceli.
two identical fermions can not occupy the same quantum state simultaneously. but it has variables according to types and levels of energies. or categorical variables, being these energies thermal, electric, magnetic, luminescent, radioactive. and with variables of these energies according to Graceli transitions phases of isotopes.

that is, infinite levels of energies can occupy the same quantum state at the same time.


that is, the principle of exclusion becomes categorical relative indeterminate transcendent [during phase transitions of physical energies and state].


and with this comes the principle of inclusion of Graceli where infinite levels of energies can occupy the same quantum state at the same time.


ou seja, as energias e os fenômenos alteram e a simetricidade existente entre os férmicos.