Syllabi: Syllabus QM I , Syllabus QM II (notes -in progress- based on Griffiths text book ) Introduction: intro , experiments Wave functions: states and wave functions , normalization , superposition , Schrodinger Equation , expectation values , uncertainty principle Time-independent Schrodinger Equation: intro , infinite square well , orthonormal and complete wave functions , infinite square well - general solutions , harmonic oscillator: part 1 , part 2 , part 3 , free particle , bound and scattering states , Dirac delta well , finite square well Formalism: intro , determinate states , Generalized Statistical Interpretation: part 1 , part 2 , Hilbert space QM in 3D: Schrodinger Equation in 3D , Hydrogen atom , angular momentum , spin , electromagnetic interactions Identical particles: two-particle systems , bosons and fermions , geometrical consequence ...