Why Electrons Pair in Orbitals Around Atoms

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In summary, electrons pair in orbitals around an atom in order to reach the lowest energy state, with the principle of lowest energy and the Pauli exclusion principle guiding their placement. The Pauli exclusion principle dictates that no two electrons can occupy the same quantum state, but electrons with opposite spin numbers can occupy the same orbital. This means that each orbital can hold a maximum of two electrons, each with a different spin number. The explanation provided is more concise than some chemistry books, which may go into further detail about repulsion and other factors.
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trollcast
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When electrons pair in orbitals around an atom what's the best description of why it happens, there's a bit of variation of the answers on google.

The lowest energy state is the most favourable, therefore electrons will inhabit the orbitals of the lowest energy first ie. 1s, 2s, 2d and so on.

However due to the Pauli exclusion principle no 2 fermions can occupy the same quantum state, however electrons with opposite spin numbers do not have the same quantum state therefore 2 electrons of opposite spins can occupy the same orbital.

It just the explanation in my chemistry books starts talking about repulsion and stuff but the above sounds more concise?
 
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Difficult to know what your chemistry books are discussing without more information.

However the rest of your post is accurate.

Another way to state the Pauli principle is that no two electrons in one atom can possesses the same set of quantum numbers.

Also note that there are only two options for the spin quantum number which implies two per orbital.
 

What is the significance of electrons pairing in orbitals around atoms?

Electrons pairing in orbitals around atoms is a fundamental principle in quantum mechanics and explains the stability and chemical properties of atoms.

Why do electrons pair in orbitals?

Electrons pair in orbitals to lower their overall energy and increase the stability of the atom. This is due to the attractive forces between opposite-spin electrons in the same orbital.

How do electrons pair in orbitals?

Electrons pair in orbitals according to the Pauli exclusion principle, which states that no two electrons in an atom can have the same set of quantum numbers. This means that one electron must have a spin up while the other has a spin down.

What is the relationship between electron pairing and the shape of orbitals?

The shape of orbitals is determined by the attractive and repulsive forces between electrons, which are in turn influenced by the pairing of electrons. This pairing determines the overall stability of the atom and therefore the shape of its orbitals.

Can electrons pair in any orbital?

Electrons can only pair in orbitals that have the appropriate energy level and spin orientation. This is dictated by the laws of quantum mechanics and the Pauli exclusion principle.

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