General theory of angular momentum: orbital angular momentum in quantum mechanics, spherical harmonics, the relationship between the rotations of a system in three-dimensional space and the rotation operators applied to a state in the Hilbert space of the system, rotations for many-particle systems, spin angular momentum, the Pauli spinors, addition of two angular momenta, Clebsch-Gordan coefficients, Wigner-Eckart theorem.

Exactly solvable systems: rotator, quasi-classical states of a rotator, two-dimensional harmonic oscillator, coherent states of a two-dimensional oscillator, charged particle in a uniform magnetic field and Landau levels, motion in a central potential, free motion in three dimensions, three-dimensional harmonic oscillator, Coulomb potential and hydrogen atom.

Approximate methods: scattering processes (partial waves analysis, phase shifts, the Born approximation), time-independent perturbations (nondegenerate perturbation theory, the Rayleigh-Schrödinger expansion, degenerate perturbation theory, applications: the Stark effect, two-level systems), the WKB method, the adiabatic approximation and Berry’s phase.