Day 1 Jan 8
Ch 9 Beyond hydrogen, Pauli exclusion principle |
Day 2 Jan 10
Ch 9 Shell structure and excited states |
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Day 17 Mar 5
Spring Break |
Day 18 Mar 7
Spring Break |
Day 3 Jan 15
Ch 10 Molecules and molecular spectra |
Day4 Jan 17
Ch 10 Vibration and rotation |
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Day 19 Mar 12
Ch 15 High Tc Superconductors |
Day 20 Mar 14
Ch 15 Hight Tc Superconductors |
Day 5 Jan 22
Ch 11 The Nucleus |
Day 6 Jan 24
Ch 11 Nuclear models, Radioactivity |
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Day 21 Mar 19
Ch 16 High energy physics: accelerators |
Day 22 Mar 21
Ch 16 Accelerator principles, Particle detectors |
Day 7 Jan 29
Ch 11 Nuclear reactions, Nuclear spin |
Day 8 Jan 31
Ch 12 Quantum Statistics |
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Day 23 Mar 26
Ch 16 Particle detectors |
Day 24 Mar 28
Ch 17 Classification of particles |
Day 9 Feb 5
Ch 12 Quantum Statistics |
Day 10Feb 7
Ch 13 Masers and Lasers |
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Day 25 Apr 2
Ch 17 The quark model |
Day 26 Apr 4
Ch 17 Leptons, heavy quarks |
Day 11 Feb 12
Ch 14 Conductors and Insulators |
Day 12 Feb 14
Ch 14 Energy bands in solids, Heat capacity |
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Day 27 Apr 9
Ch 18 Quarks and color |
Day 28 Apr 11
Ch 18 Quarks and the weak interaction |
Day 13 Feb 19
Ch 14 Electrical properties of solids |
Day 14 Feb 21
Chapter 14 Semiconductors |
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Day 29Apr 16
Ch 18 Theories of everything?, Very small to very large |
Day 30 Apr 18
Ch 19, Foundations for modeling early universe |
Day 15 Feb 26
Midterm |
Day 16 Feb 28
Ch 15 Superconductivity |
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Day 31 Apr 23
Ch 19 Stellar evolution |
Day 32 Apr 25
Ch 19 Physics of expanding universe |