Mathematica: Difference between revisions
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== Mathematica Notebooks for Statistical Mechanics == | == Mathematica Notebooks for Statistical Mechanics == | ||
*[[Media:black_body_bkn.nb|Black-body radiation: Classical vs. quantum statistical mechanics approach]] | *[[Media:black_body_bkn.nb|Black-body radiation: Classical vs. quantum statistical mechanics approach]] | ||
* | *Essentials of quantum mechanics via spin examples: Quantum state of system or subsystems, operators as observables, probabilities and expectation values | ||
*Sommerfeld expansion | *Sommerfeld expansion | ||
**B. Cowan, On the chemical potential of ideal Fermi and Bose gases, J. Low Temp. Phys. '''197''', 412 (2019). [https://link.springer.com/article/10.1007/s10909-019-02228-0 | [PDF and Mathematica notebooks]] | **B. Cowan, On the chemical potential of ideal Fermi and Bose gases, J. Low Temp. Phys. '''197''', 412 (2019). [https://link.springer.com/article/10.1007/s10909-019-02228-0 | [PDF and Mathematica notebooks]] |
Revision as of 21:14, 21 May 2024
Hands-on Tutorials by Wolfram
Quantum Packages
Hands-on Tutorials by the Instructor
Mathematica Notebooks for Statistical Mechanics
- Black-body radiation: Classical vs. quantum statistical mechanics approach
- Essentials of quantum mechanics via spin examples: Quantum state of system or subsystems, operators as observables, probabilities and expectation values
- Sommerfeld expansion
- B. Cowan, On the chemical potential of ideal Fermi and Bose gases, J. Low Temp. Phys. 197, 412 (2019). | [PDF and Mathematica notebooks]