Lecture Notes

• Lecture 1, Jan 8: Wave, Schrodinger Eq, Bound state and unbound state (ppt format)

• Lecture 2, Jan 10: Schrodinger Equation: Particle in 1d/3d infinite well and Hydrogen atom (ppt format)

• Lecture 3, Jan 15: Hydrogen atom (ppt format)

• Lecture 4, Jan 17: Hydrogen atom: Electron whereabouts and Hydrogenlike atoms (ppt format)

• Lecture 5, Jan 22: Conservation and invariance, Spin, LS quantization, and Periodic table (ppt format)

• Lecture 6, Jan 24: Angular momentum under magnetic fields (ppt format)

• Lecture 8, Jan 31: Classical and Quantum Statistics (ppt format)

• Lecture 9, Feb 5: Quantum Statistics: Fermions (ppt format)

• Lecture 10, Feb 7: Quantum Statistics: Bosons (ppt format)

• Lecture 11, Feb 12: Solid State: Molecules, Rotation, and Vibration (ppt format)

• Lecture 12, Feb 14: Solid State: Crystals, Energy bands, and Conduction (ppt format)

• Lecture 13, Feb 19: Solid State: Semiconductor Theory and Devices and Superconductivity (ppt format)

• Lecture 16, Feb 28: Nuclear Physics: Nuclear structure, properties, and models (ppt format)

• Lecture 17, Mar 5: Nuclear Physics: nuclear decays (ppt format)

• Lecture 18, Mar 7: Nuclear Physics: nuclear reactions & Elementary Particle Physics: Elementary particles (ppt format)

• Lecture 19, Mar 12: Elementary Particle Physics: Fundamental Forces (ppt format)

• Lecture 20, Mar 14: Elementary Particle Physics: Conservations and Feynman Diagrams (ppt format)