The order of atomic orbitals relative to their energies can be remembered using such diagrams, where the path of the arrow reveals the sequence in which electrons are assigned to orbitals. The electron configuration diagram reveals that carbon has two electrons-called core electrons-in the inner shell and four electrons-called valence electrons-in the outermost shells. Hence, for carbon, the two 2 p electrons occupy two different orbitals and have parallel spins. The sixth electron follows Hund’s rule of maximum multiplicity and singly occupies a degenerate orbital rather than pairing.
As orbitals within a subshell are presumed to be degenerate, the fifth electron can enter any of the three degenerate 2 p orbitals.
Therefore, the next two electrons occupy the 2 s orbital and the fifth enters the 2 p subshell. Though energy increases with shell number, the greater penetration of s orbitals lowers the energy of s orbitals relative to that of the p orbitals. As electrons in the same orbital have the same principal, azimuthal, and magnetic quantum numbers, they must have different spin quantum numbers.Īs the spin quantum number has only two possible values, an orbital can accommodate only two electrons, with opposite spins. The 1 s orbital, which has the lowest energy, is filled first.Īccording to the Pauli exclusion principle, no two electrons in an atom can have the same set of four quantum numbers. The relative energies of atomic orbitals are rationalized by Coulomb interactions, the shielding effect, and orbital penetration.Ĭonsider the electron configuration for carbon-an element with atomic number six and thus neutral with six electrons. The Aufbau principle states that in the ground state, atomic orbitals fill in increasing order of energy.
The Pauli exclusion principle, Hund’s rule of maximum multiplicity, and the Aufbau principle can be extended to envisage the electron configuration of any element. The electron configuration of an atom represents the distribution of electrons among its atomic orbitals.
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