Phys467
Lecture notes for Phys467 in UNLV
- Fundamentals of thermodynamics, equations of state, laws of thermodynamics, entropy
- Heat engines and refrigerators
- Free energy and classical thermodynamics
- Boltzmann statistics
- Quantum statistics of ideal gas and simple solid
We main use the following textbook An Introduction to Thermal Physics, D. Schroeder
Table of Contents
- Syllabus
- Lecture_01 Fundamental of Theormodynamics
- Lecture_03 Compression Work
- Lecture_04 Heat Capacity and Enthalpy
- Lecture_05 Microstates and Macrostates
- Lecture_06 Two Einstein Solids Homework_03
- Lecture_07 Multiplicity of Solids and Ideal Gas
- Lecture_08 Entropy
- Lecture_09 Entropy and Temperature
- Lecture_10 Entropy and Pressure
- Lecture_11 Entropy and Chemical Potential
- Lecture_12 Paramagnetism
- Lecture_13 The Principles of Engines
- Lecture_14 The Real Engines
- Lecture_15 Free Energy
- Lecture_16 Free Energy and Phase Transition
- Lecture_17 Phase Transition: the van der Waals model
- Lecture_18 Phase Transition: the mixture model
- Lecture_19 Dilute Solutions
- Lecture_20 Free Energy and Chemical Equilibrium
- Lecture_21 The Boltzmann Factor, Partition Function
- Lecture_22 The Equipartition Therorem
- Lecture_23 Maxwell Distribution
- Lecture_24 Ideal Gas Model in Boltzmann Statistics
- Lecture_25 Bosons and Fermions
- Lecture_26 Debye Model of Solids
- Lecture_27 Free Electron Gases
- Lecture_28 Bose-Einstein Condensation
Full lecture Notes
Here is the link to all lectures in a single pdf