| 1 | Important experiments in quantum physics: determination of e/m, Millikan oil drop experiment, Franck-Hertz experiment, Stern-Gerlach experiment | [1] s.69, 71, 156, 187 |
| 2 | Zeeman and anomalous Zeeman effects , stark effect | [1] s.191 |
| 3 | Movement of the electron spin | [1] s.177 |
| 4 | Black body radiation, Photon and electromagnetic spectrum, Hydrogen atom, Photo electric effect, Compton effect | [1] s.25 |
| 5 | Wave properties of particles, one-slit diffraction, double slit diffraction and interference, diffraction, crystal structure, Equation of motion of the wave | [2] s.57 |
| 6 | De Broglie hypothesis, Davisson-Germer experiment, Uncertainty Principle | [2] s.65 |
| 7 | Probability and probability density, quantum mechanics postulates | [2] s.79 |
| 8 | The meaning and limitations of the wave function, the operator algebra, properties of the operators, the meaning and importance of the eigenvalue equation | [2] s.87 |
| 9 | Midterm Exam | |
| 10 | Expected value, Expected values of functions with coordinate and momentum variables | [2] s.92 |
| 11 | Dirac notation, comutators | [2] s.97 |
| 12 | As evidence of that real of eigenvalue and ortogonal of eigenvector of Hermitgen operators | [2] s.103 |
| 13 | Derivation of the Schrödinger equation | [2] s.129 |
| 14 | Time-dependent and time-independent solutions of the Schröndinger's equation | [1] s.95 |