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| * '''Lecture 13&4''', ~-Feb 18 & 20-~: <<la("Lecture13_14.pdf", "Conduction, Semiconductors, and Superconductivity")>> (<<la("Lecture13powerpoint.pdf", "ppt13")>>)(<<la("Lecture14powerpoint.pdf", "ppt14")>>) * '''Lecture 16''', ~-Feb Feb 27-~: <<la("Lecture16.pdf", "Nuclear Physics")>> (<<la("Lecture16powerpoint.pdf", "ppt")>>) * '''Lecture 17''', ~-Mar 4-~: <<la("Lecture17.pdf", "Nuclear models")>> (<<la("Lecture17powerpoint.pdf", "ppt")>>) * '''Lecture 18''', ~-Mar 6-~: <<la("Lecture18.pdf", "Nuclear decay")>> (<<la("Lecture18powerpoint.pdf", "ppt")>>) * '''Lecture 19''', ~-Mar 11-~: <<la("Lecture19.pdf", "Nuclear reactions/Elementary particles")>> (<<la("Lecture19powerpoint.pdf", "ppt")>>) * '''Lecture 20''', ~-Mar 13-~: <<la("Lecture20.pdf", "Fundamental Forces and Feynman Diagram")>> (<<la("Lecture20powerpoint.pdf", "ppt")>>) |
Lecture Notes
Lecture 1, Jan 7: Wave, Schrodinger Eq, Bound states and unbound states (ppt)
Lecture 2, Jan 9: Schrodinger Eqs in Cartesian coordinates (ppt)
Lecture 3, Jan 14: Hydrogen Atom in 3D and Orbital Quantization (ppt)
Lecture 4, Jan 16: Hydrogen Atom solutions and whereabouts (ppt)
Lecture 5, Jan 21: Hydrogen like Atoms, L and S quantization, and periodic table (ppt)
Lecture 6, Jan 23: Angular momenta under magnetic fields (ppt)
Lecture 8, Jan 30: Statistical Distributions (ppt)
Lecture 9, Feb 4: Quantum Gases (ppt)
Lecture 10, Feb 6: Black body radiation & Laser (ppt)
Lecture 11, Feb 11: Molecular Bonding (ppt)
Lecture 12, Feb 13: Crystals, energy bands, and conduction (ppt)
Lecture 13&4, Feb 18 & 20: Conduction, Semiconductors, and Superconductivity (ppt13)(ppt14)
Lecture 16, Feb Feb 27: Nuclear Physics (ppt)
Lecture 17, Mar 4: Nuclear models (ppt)
Lecture 18, Mar 6: Nuclear decay (ppt)
Lecture 19, Mar 11: Nuclear reactions/Elementary particles (ppt)
Lecture 20, Mar 13: Fundamental Forces and Feynman Diagram (ppt)