8.S: Multielectron Atoms (Summary)

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Hydrogen atom wavefunctions are used as a basis for multielectron atoms.
Electrons in \(s\) orbitals “shield” the nuclear charge from \(p\) and higher orbitals, causing the \(s\) orbitals to lie lower in energy.
Electrons have intrinsic spin angular momentum \(\pm \hbar/2\). There is no classical analog for this.
Pauli exclusion principle– wavefunctions must be antisymmetric with respect to permutations of fermions (particles with half-integer spin, such as electrons). Implication is that only two electrons may share the same wavefunction, and then only if they have opposite spin.
Slater determinants of hydrogen atom wavefunctions can be used to construct antisymmetric total wavefunctions: these are called linear combinations of atomic orbitals.
Term symbols (\(^{2S+1}\mathbf{L}_{2J+1}\)) describe the coupling of electron angular momenta– distinguish between otherwise identical electron configurations.
Hund’s rules predict the ground-state term symbol (i.e., ground-state electron configuration).

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