Course grading scheme: Midterm: 30%, final exam: 40%, homeworks (full marks on full submission): 30%
Class timings: 11:00 to 12:15 pm, Monday and Wednesday, Room: 204 SSE Complex.
Course TA: Syed Muhammad Hani, MS student
Course contents and instruments:
- Time-independent perturbation theory (3 lectures): We covered both nondegenerate and degenerate perturbation theory with several examples; also had to exemplify how to construct angular momentum operators though that was not my original intention. Here is homework 1.
Time independent perturbation theory (tutorial)
- The hydrogen atom (3 lectures): These lectures were aimed at deriving the solution to the hydrogen atom, reaching at radial and angular solutions, the latter being the spherical harmonics. We discussed the meaning and form of orbitals and analyzed calculations of probabilities and probability densities. Here is homework 2.
- Orbital angular momentum (2 lectures): We discussed the various components of the orbital angular momentum, their commutation and their role in describing the Hamiltonian of the hydrogen atom. Some specific examples of orbital angular momentum and their applications to spectroscopy were discussed.