Lecture 1: Particle-wave duality
Lecture 2: Particles, waves, and interference patterns
Lecture 3: Observers disturb what they measure
Lecture 4: Bell's theorem and Schrodinger's cat
Lecture 5: Quantum paradoxes and interpretations
Lecture 6: Position-momentum uncertainty relation
Lecture 7: Wave quantization
Lecture 8: Quantum wave shapes and the periodic table
Lecture 9: Interference of waves and sloshing states
Lecture 10: Wave shapes in diamond and graphene
Lecture 11: Harmonic oscillators
Lecture 12: Energy-time uncertainty relation
Lecture 13: Quantum angular momentum and electron spin
Lecture 14: Quantum orbital angular momentum
Lecture 15: Quantum properties of light
Lecture 16: Atomic transitions and photons
Lecture 17: Atomic clocks and GPS
Lecture 18: Quantum mechanics and color vision
Lecture 19: Quantum explanation of color
Lecture 20: Quantum tunneling
Lecture 21: Fermions and bosons
Lecture 22: Spin singlets and the EPR paradox
Lecture 23: Quantum mechanics and metals
Lecture 24: Superconductivity.