Lectures 1 and 2: The Hamiltonian approach to classical mechanics and the analysis of lattice vibrations
Lecture 3: Principles and Language of QM: Representing states, physical quantities, and time evolution
Lecture 4: Quantum Mechanical Systems and Measurements
Lecture 5: Symmetries, conserved quantities, and the labeling of states
Lecture 6: The Hydrogen Atom Labeling states
Lecture 7: Waves in periodic potentials
Lecture 8: Bandgaps and the classification of solids
Lecture 9: The Free Electron Gas Fermi Statistics
Lecture 10: Density of Carriers in Semiconductors
Lecture 11: The P-N Junction