If you are talking about the Pauli Exclusion Principle, then it would be Wolfgang Pauli. However, Pauli is Austrian.
The next electron would be placed in the next available lowest energy orbital according to the aufbau principle, Hund's rule, and the Pauli exclusion principle.
Simple stated, no two electrons can have the same quantum numbers. Electrons at the same level would have a + and - spin.
Of course, if any two were in the same state it would violate both fermi statistics and the pauli exclusion principle.
according to hund's rule ,electrons are distributed among the orbitals having equal energy [degenerate orbitals] in such a way that the number of unpaired electrons is maximum.In other words , if the number of electrons is less or equal to the orbitals of same energy then all these electrons will be unpaired.But when the number of electrons is more than the available orbitals , then first all the orbitals will be singly occupied and then pairing of electrons will start.Due to this interelectronic repulsion will be minimum when the electrons occupy separate orbitals and when number of unpaired electrons with same spin is greater than exchange energy will also be greater this stablizes the system. While pauli's exclusion principle is that an orbital can accomodate not more than 2 electrons that too with opposite spins.
If you are talking about the Pauli Exclusion Principle, then it would be Wolfgang Pauli. However, Pauli is Austrian.
The next electron would be placed in the next available lowest energy orbital according to the aufbau principle, Hund's rule, and the Pauli exclusion principle.
Simple stated, no two electrons can have the same quantum numbers. Electrons at the same level would have a + and - spin.
Of course, if any two were in the same state it would violate both fermi statistics and the pauli exclusion principle.
The Pauli exclusion principle would require that an electron sharing the same orbital would have to have opposite spin from the other particle in the pair. They therefore have different spin quantum numbers of +(1/2) and -(1/2)
An orbital can hold not more than 2 electrons, and if there are two electrons in the orbital, they must have opposite (paired) spins. Therefore, no two electrons in the same atom can have the same set of four quantum numbers. otherwise the Pauli exclusion principle explain that the feature of particles dependent on its nature. for example electrons is fermion thus 2 electrons can accommodate in one level (orbital) but proton is bozone thus 1 proton accommodate in one level.
no it is not possible"Pauli exclusion principle states that no two electronsin an atom can have the same set of four quantum numbers"
according to hund's rule ,electrons are distributed among the orbitals having equal energy [degenerate orbitals] in such a way that the number of unpaired electrons is maximum.In other words , if the number of electrons is less or equal to the orbitals of same energy then all these electrons will be unpaired.But when the number of electrons is more than the available orbitals , then first all the orbitals will be singly occupied and then pairing of electrons will start.Due to this interelectronic repulsion will be minimum when the electrons occupy separate orbitals and when number of unpaired electrons with same spin is greater than exchange energy will also be greater this stablizes the system. While pauli's exclusion principle is that an orbital can accomodate not more than 2 electrons that too with opposite spins.
The Pauli exclusion principle states that no two electrons in an atom can have the same set of quantum numbers, including spin. Therefore, electrons in the same orbital must have opposite spins to adhere to this principle. This helps to ensure the stability of the electron pair within the orbital.
This sounds to me like the Pauli exclusion principle, which says that 2 electrons cannot occupy the same state at the same time (which is sort of like the same position). The basic idea is that you can't have two things occupying the same exact position at the same time; that they can't 'overlap'. If this is true, it explains a lot of things in physics, but it also poses some interesting questions, like what happens in the centre of a black hole...
Yes, a stable atom can have an orbital with three electrons. An atomic orbital can hold a maximum of two electrons with opposite spins, following the Pauli exclusion principle. The third electron would go into a different orbital within the same energy level.
ms = +1/2