Student Review: Difference between revisions
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* [[PHZ3400 Symmetry Breaking#Spontaneous Symmetry Breaking and Thermodynamic Limit|Broken Symmetry in Solids]] 1/21 | * [[PHZ3400 Symmetry Breaking#Spontaneous Symmetry Breaking and Thermodynamic Limit|Broken Symmetry in Solids]] 1/21 | ||
** [[PHZ3400-09 Problem Set 1|Problem Set 1]] | |||
:: [[Solution to Set 1#Part a|Planck’s radiation formula]] | |||
:: [[Solution to Set 1#Part b|Wien's Law]] | |||
:: [[Solution to Set 1#Part c|Stefan-Boltzmann law]] | |||
* [[PHZ3400-09 Atoms#Van der Waals Force|Van der Waal's Equation]] 1/23 | * [[PHZ3400-09 Atoms#Van der Waals Force|Van der Waal's Equation]] 1/23 | ||
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* [[PHZ3400 Phase Transition|Simplest Model of Phase Transition]] 1/28 | * [[PHZ3400 Phase Transition|Simplest Model of Phase Transition]] 1/28 | ||
** [[PHZ3400-09 Problem Set 2|Problem Set 2]] | |||
* [[PHZ3400 Phase Transition|Phase Transitions]] 1/30 | * [[PHZ3400 Phase Transition|Phase Transitions]] 1/30 | ||
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* Scattering Methods 2/6 | * Scattering Methods 2/6 | ||
** [[PHZ3400-09 Problem Set 3|Problem Set 3]] | |||
* [[PHZ3400 Crystals|Crystals]] 2/9 | * [[PHZ3400 Crystals|Crystals]] 2/9 | ||
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* UNTITLED 2/13 | * UNTITLED 2/13 | ||
** [[PHZ3400-09 Problem Set 4|Problem Set 4]] | |||
* Linear Differential Equations 2/16 | * Linear Differential Equations 2/16 | ||
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* Quantum Hall Effect 3/2 | * Quantum Hall Effect 3/2 | ||
** [[PHZ3400-09 Problem Set 5|Problem Set 5]] | |||
* Electron Degeneracy Pressure 3/4 | * Electron Degeneracy Pressure 3/4 | ||
* Fermi Energy Derivation 3/6 | * Fermi Energy Derivation 3/6 | ||
* UNTITLED 3/20 | |||
** [[PHZ3400-09 Problem Set 6|Problem Set 6]] | |||
* [[Band theory of solids|Electronic Structure of Solids]] 3/23 | * [[Band theory of solids|Electronic Structure of Solids]] 3/23 | ||
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* [[Mott metal-insulator transition and magnetism|(Animal) Magnetism]] 4/8 | * [[Mott metal-insulator transition and magnetism|(Animal) Magnetism]] 4/8 | ||
** [[PHZ3400-09 Problem Set 7|Problem Set 7]] | |||
* [[Mott metal-insulator transition and magnetism|Mott Insulator]] 4/10 | * [[Mott metal-insulator transition and magnetism|Mott Insulator]] 4/10 | ||
* [[Solid State Physics of Neutron Stars|Superfluidity]] 4/13 | * [[Solid State Physics of Neutron Stars|Superfluidity]] 4/13 | ||
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* [[Superconductivity|Superconductivity Continued]] 4/20 | * [[Superconductivity|Superconductivity Continued]] 4/20 | ||
* [[PHZ3400 Term Project|Term Project]] | |||
** Extra credit will be awarded for answering bonus questions about the term projects | |||
<font color=660099> If you have titles I don't please add them! [[User:HollyBrown|HollyBrown]] 15:10, 24 April 2009 (EDT) </font> | <font color=660099> If you have titles I don't please add them! [[User:HollyBrown|HollyBrown]] 15:10, 24 April 2009 (EDT) </font> | ||
Revision as of 18:50, 28 April 2009
Hello All! I would like to first say that this page is not official. I repeat: THIS IS NOT OFFICIAL!!!!!!
However, I wanted something that we could all add to and comment on. Each lecture Dr. Dobrosavljevic writes down a Title which serves as a topic or theme for the day. I have gone through my notebook and these are the lecture titles I have written down. If they are incorrect or lacking, please fill in what you have, my notes are not perfect. My idea is that we can use this page as a spring-board for discussion of the various topics and as a lead in to independent study. This is not meant to be as comprehensive as the lecture notes. This is not meant to be an exhaustive study guide. This is absolutely not meant to replace going to office hours if you need to. It is meant only to give us a more organized way of asking questions and getting help from each other.
With that being said, please feel free to add anything you want. If you have questions about something in the notes, ask. Someone may understand it better and be able to explain in a way that makes sense. If you feel that you have a really good understanding of a particular topic, offer us your interpretation. I would ask that everyone would sign their questions/comments, but other than that, have fun and Good Luck!!!
HollyBrown 15:10, 24 April 2009 (EDT)
The Final: Thursday 4/30/2009, 10:00 AM - 12:00 PM, HCB 317
The Condensed Matter Final Exam will cover the following topics:
- UNTITLED 1/26
- Phase Transitions 1/30
- Crystals 2/2
- Primitive Lattice Vector 2/4
- Scattering Methods 2/6
- Crystals 2/9
- UNTITLED 2/13
- Linear Differential Equations 2/16
- Crystal Vibrations, Bose-Einstein Model 2/20
- Specific Heat of Phonons, Wein's Law 2/23
- Metals 2/25
- Electrons in Metals 2/27
- Quantum Hall Effect 3/2
- Electron Degeneracy Pressure 3/4
- Fermi Energy Derivation 3/6
- UNTITLED 3/20
- Review of Midterm I 3/25
- Electronic Structure in a Periodic Potential 3/27
- Band Structure 3/30
- Mott Insulator 4/10
- Superfluidity 4/13
- Review of Midterm II 4/15
- Superconductivity 4/17
- Term Project
- Extra credit will be awarded for answering bonus questions about the term projects
If you have titles I don't please add them! HollyBrown 15:10, 24 April 2009 (EDT)