CH 425 : Chemical Bond and Molecular Geometry

Syllabus

"Postulates of quantum mechanics; hermitian operators; complete set. Derivation of the uncertainty relations. Exactly solvable problems, orbital angular momentum, and the hydrogen atom. Spin, spin orbitals, and characteristics of a many-electron wave function. Variation theorem, variation method, the linear variation method, and the non-crossing rule. Applications: Many-electron atoms, self-consistent field, atomic orbitals, Slater Type Orbitals, Slater exponents and the periodic properties of elements; LCAO-MO, Hückel orbitals; Born-Oppenheimer approximation, Potential energy surface, Hellman-Feynman theorem; Hydrogen molecule ion, Hydrogen molecule; Qualitative molecular orbitals for homo- and hetero-nuclear diatomics, isoelectronic principle, hybrid orbitals, and Walsh molecular orbital diagram. Time-independent perturbation theory - Rayleigh-Schrödinger formulation. Applications: Zeeman effect, Stark effect, crystal field splitting, and simple ligand field treatments. The valence bond treatment of hydrogen molecule; Resonance; Polarity and dipole moment; Electronegativity; Valence-bond wave functions for polyatomic molecules."

Text References

1) R. McWeeny, Coulson’s Valence, Oxford University Press, 1979.
2) D. A. McQuarrie, Quantum Chemistry, Oxford University Press, 1983.
3) I. R. Levine, Quantum Chemistry, Prentice Hall India (Ltd), 1995.
4) S. N. Datta, Lectures on Chemical Bonding and Quantum Chemistry, Prism Books, 1998.