Notes Posted by Professors
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==Electromagnetism== | ==Electromagnetism== | ||
===Dr. Frank Kowalski=== | ===Dr. Frank Kowalski=== | ||
+ | ====Intermediate Electromagnetism 2007==== | ||
*[[Intermediate_Electromagnetism#Lectures|Intermediate Electromagnetism - 2007 notes]] | *[[Intermediate_Electromagnetism#Lectures|Intermediate Electromagnetism - 2007 notes]] | ||
− | |||
==Quantum== | ==Quantum== | ||
===Dr. John Scales=== | ===Dr. John Scales=== | ||
+ | ====Modern Physics II 2006==== | ||
*[[Modern_2:Evolution_of_Wavepackets|Time Evolution of a Wavefunction]] | *[[Modern_2:Evolution_of_Wavepackets|Time Evolution of a Wavefunction]] | ||
*[[Modern_2:Overview_of_Chapter_3|Measurements and the Momentum Operator]] | *[[Modern_2:Overview_of_Chapter_3|Measurements and the Momentum Operator]] | ||
Line 11: | Line 12: | ||
*[[Modern_2:More_on_Eigenfunctions_and_Measurements|Energy/Time and Schrodinger's equation]] | *[[Modern_2:More_on_Eigenfunctions_and_Measurements|Energy/Time and Schrodinger's equation]] | ||
*[[Modern_2:Square_Well_Potentials|Square Well Resources]] | *[[Modern_2:Square_Well_Potentials|Square Well Resources]] | ||
− | ==Statistical | + | ==Statistical== |
===Dr. Jim McNeil=== | ===Dr. Jim McNeil=== | ||
− | ====2007==== | + | ====Thermal Physics 2007==== |
*[http://www.mines.edu/Academic/courses/physics/phgn341/Lectures/Lecture01/frames.html Course Introduction] | *[http://www.mines.edu/Academic/courses/physics/phgn341/Lectures/Lecture01/frames.html Course Introduction] | ||
*[http://www.mines.edu/Academic/courses/physics/phgn341/Lectures/Lecture02/frames.html Temperature] | *[http://www.mines.edu/Academic/courses/physics/phgn341/Lectures/Lecture02/frames.html Temperature] | ||
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*[http://www.mines.edu/Academic/courses/physics/phgn341/Lectures/Lecture41/frames.html Debye Theroy of Solids] | *[http://www.mines.edu/Academic/courses/physics/phgn341/Lectures/Lecture41/frames.html Debye Theroy of Solids] | ||
*[http://www.mines.edu/Academic/courses/physics/phgn341/Lectures/Lecture42/frames.html Fermion Statistics and The Sommerfield Expansion] | *[http://www.mines.edu/Academic/courses/physics/phgn341/Lectures/Lecture42/frames.html Fermion Statistics and The Sommerfield Expansion] | ||
+ | ==Nuclear== | ||
+ | ===Uwe Griefe=== | ||
+ | ====Advanced Lab II 2006==== | ||
+ | *[http://ticc.mines.edu/csm/wiki/images/3/3c/AdvLab_part1.pdf Introduction to Nuclear Physics] | ||
+ | *[http://ticc.mines.edu/csm/wiki/images/4/41/AdvLab_part2.pdf Radiation Detection and Measurement] | ||
+ | *[http://ticc.mines.edu/csm/wiki/images/3/30/AdvLab_part3.pdf Radiation Safety] | ||
+ | ==Lab== | ||
+ | ===Uwe Griefe=== | ||
+ | ====Advanced Lab II 2006==== | ||
+ | *[http://ticc.mines.edu/csm/wiki/images/3/30/AdvLab_part3.pdf Error Analysis] | ||
+ | *[http://ticc.mines.edu/csm/wiki/images/1/1d/PHGN-326Experiment1.pdf NaI detector] | ||
+ | *[http://ticc.mines.edu/csm/wiki/images/3/31/PHGN-326-Experiment2.pdf Gamma Ray Attenuation] | ||
+ | *[http://ticc.mines.edu/csm/wiki/images/c/c2/PHGN-326-Experiment2_MassAttenuationCoefficients.pdf Mass Attenutation Coefficients] | ||
+ | *[http://ticc.mines.edu/csm/wiki/images/d/d9/PHGN-326-Experiment3.pdf Compton Effect] | ||
+ | *[http://ticc.mines.edu/csm/wiki/images/3/3c/PHGN-326-Experiment4.pdf Energy Loss of Alpha Particles] | ||
+ | *[http://ticc.mines.edu/csm/wiki/images/2/28/PHGN-326-Experiment5.pdf Alpha-Gamma Coincidences] | ||
+ | *[http://ticc.mines.edu/csm/wiki/images/8/89/PHGN-326-Experiment6.pdf Decay Scheme and Angular Correlation of 60Co] | ||
+ | *[http://ticc.mines.edu/csm/wiki/images/9/9b/PHGN-326-Experiment7.pdf Cosmic Ray Telescope] |
Revision as of 22:24, 22 January 2007
Contents |
Electromagnetism
Dr. Frank Kowalski
Intermediate Electromagnetism 2007
Quantum
Dr. John Scales
Modern Physics II 2006
- Time Evolution of a Wavefunction
- Measurements and the Momentum Operator
- Operators, Observables, and Measurement
- Observables, Energy, and Eigenstate Theorems
- Energy/Time and Schrodinger's equation
- Square Well Resources
Statistical
Dr. Jim McNeil
Thermal Physics 2007
- Course Introduction
- Temperature
- Degrees of Freedom, Equipartition Theorem and Energy
- Work Processes
- Heat Capacities
- Heat Capacities and Enthalpy
- Energy and Introduction to Entropy
- 2-state Systems, Sterling's Approximation and Multiplicity Functions
- Einstein Solids and Numbers
- Einstein Solids Continued
- Ideal Gas
- Entropy
- Entropy Continued
- Blackholes and Information
- Another Look at Entropy, Heat Capacity, and Heat
- Temperature, Entropy and The 2-state Paramagnet
- 2-state Paramagnets, Thermal and Mechnical Equilibrium, and Thermodynamic Identities
- Diffusive Equilibrium, Thermodynamic Identities, and Chemical Potential
- Classical Thermodynamics and the Carnot Cycle
- Heat Engines: Carnot and Otto Cycle
- Steam Engines
- Refrigerators and Magnetic Cooling
- Thermodynamic Potentials and Gibbs Free Energy
- Gibbs Free Energy Continued
- Maxwell's Relations and the Claussius Clapeyron Relation
- Claussius-Clapeyron Continued and The Van der Walls Model
- Boltzmann Factor
- Physics 100 Review: Waves on a String
- The Partition Function
- Equipartition Theorem and Maxwell's Velocity Distribution
- Helmholtz Free Energy, The Partition Function and The Boltzmann H-Theorem
- Partition Function for an Ideal Gas and Average Energy
- Partition Function and Chemical Potential
- Catch-up/Review
- Thermal Equilibrium, Diffusive Equilibrium, and the Grand Partition Function
- Fermi-Dirac Distribution, Degenerate Fermi Gas, and Density of States
- Bose-Einstein Statistics and Blackbody Radiation
- Bose-Einstein Statistics, Stefan-Boltzmann Law, Wein Displacement Law
- Photons
- Relativistic Electron/Positron Gas
- Debye Theroy of Solids
- Fermion Statistics and The Sommerfield Expansion