1.3 Review 1 Phys.131 First law
1.4 Review 2 Phys.131 Boltzmann kinetics
1.5 Review 3 Phys.131 Entropy Carnot cycle
1.6 Review 4 Microscopic ensemble

2.1 TD Thermodynamics Joule-Thomson effect
2.2 TD Magnetic work
2.3 TD Mayer's relation
2.4 TD Third law
2.5 TD Exact differential
2.6 TD Adiabatic atmosphere
2.7 TD Demagnetization cooling
2.8 TD Ergodic hypothesis
2.9 TD Magnetic moment and Gaussian distribution
2.10 TD Maxwell's relation
2.11 TD Ratio gamma determination
2.12 TD Rubber
2.13 TD Surface tension
2.14 TD Thermal effusion

3.1 MC-I Microcanonical ensemble
3.2 MC II Ergodic hypothesis
3.3 MC III
3.4 MC and CE Frenkel and Schottky type defects
3.5 MC-CE Negative temperature I
3.6 MC-CE Negative temperature II
3.7 MC-CE Density of states and Partition function
3.8 MC Simple harmonics multiplicity
3.9 MC Binary alloy systems
3.10 MC Permutation and combination dice
3.11 MC-C-GC ensemble s comparison
3.12 MC Binary magnetic system
3.13 MC Spin one-half spin and Gaussian distribution
3.14 MC Balls in bowls
3.15 MC Graphite vacancy site

4.1 Entropy of mixing gas
4.2 Entropy of the universe
4.3 Sackur-Tetrode equation

5.1 CE Canonical ensemble I
5.2 CE- GCE Maxwell-Boltzmann  particles
5.3 CE Diatomic molecule
5.4 CE Spin one half particle in field
5.5 CE Lagrange multiplier method
5.6 CE Energy fluctuation
5.7 CE Boltzmann factor of M-B
5.8 CE Paramagnetism
5.9 CE up and down under gravity
5.10 CE Zigzag problem
5.11 CE Graphite interstitial and vacant
5.12 CE Zipper problem DNA
5.13 CE Kubo effect
5.14 CE photon gas and ideal gas
5.15 CE Relativistic gases
5.16 CE Rotation of diatomic molecule
5.17 CE Magnetism
5.18 CE Potential energy-Boltzmann factor
5.19 CE Schottky heat capacity
5.20 CE Quantum concentration for ideal gas
5.21 CE Langevin function
5.22 CE Dielectric susceptibility

6.1 PD Planck distribution function
6.2 PD Black body problem
6.3 PD Stefan-Boltzmann law - E Fermi
6.4 PD Cosmic microwave background
6.5 PD Greenhouse effect
6.6 PD Helmholtz free energy photon gas
6.7 PD Cosmic neutrino background

7.1 GCE-I Grand canonical ensemble
7.2 CE and GCE relation
7.3 From CE to GCE from Baierlei
7.4 GCE-II Ideal gas and simple harmonics
7.5 GCE Occupation number representation
7.6 GCE Gibbs sum-distribution function
7.7 GCE Langmuir adsorption
7.8 GCE Fluctuation
7.9 GCE Adsorption of O2 in a magnetic field
7.10 GCE Hemoglobin on blood
7.11 GCE Scaling relation of thermodynamics
7.12 GCE Fluctuation and scattering
7.13 GCE Gibbs sum for semiconductors

8.1 FD and BE Grand potential
8.2 FD and BE Method of Lagrangian multiplier
8.3 FD and BE statistics 1
8.4 FD and BE statistics 2

9.1 CP Chemical potential from Baierlein
9.2 CP Monatomic ideal gas GCE
9.3 CP Collection of problems from Blundell
9.4 CP Collection of problems from Kittel
9.5 CP photon
9.6 CP of a pair of electron and positron
9.7 CP Chemical reaction
9.8 CP Chemical reactions van 't Hoff equation

10.1 BE Bose-Einstein Condensation
10.2 BE Heat capacity 1
10.3 BE Heat capacity 2
10.4 BE Equation of states
10.5 BE Superconductivity
10.6 BE Josephson effect
10.7 BE Liquid He 4 superfluidity
10.8 BE Liquid He three
10.9 BE Alkali metal atom-phase transition
10.10 BE Condensation in alkali atoms
10.11 BE 1D BE condensation possible

11.1 FD Fermi-Dirac: Fermi energy of fermions
11.2 FD Free electron Fermi gas model
11.3 FD Relativistic Fermi gas-I
11.4 FD Relativistic Fermi gas-2
11.5 FD Richardson Emission
11.6 FD Semiconductor statistics
11.7 FD White dwarf and neutron star
11.8 FD Bloch electron in a periodic potential
11.9 FD Bloch theorem
11.10 FD Fermi function
11.11 FD Pauli paramagnetism
11.12 FD Sommerfeld formula
11.13 FD Statistics at 0 K
11.14 FD Chemical potential of 1D, 2D and 3D fermions
11.15 FD Fermi liquid- Properties of Liquid He three

12.1 Photon condensation
12.2 Photon gas thermodynamics
12.3 Radiation pressure

13.1 Phonon I. lattice wave
13.2 Phonon II Thermal properties
13.3 Phonon heat capacity of d-dimension
13.4 Phonon statistics
13.5 Heat capacity of 1D, 2D and 3D phonon

14. Identical particles

15.1 QM Problem and solution from Rigamonti
15.2 QM Density operator-magnetization susceptibility
15.3 QM Density operator
15.4 QM Density operator in statistical mechanics
15.5 QM Magnetization susceptibility

16.1 PT Density of states for one-particle
16.2 PT Ising system with spin 1
16.3 PT Landau theory of phase transition
16.4 PT Fundamental-van der Waals gas
16.5 PT van der Waals-equation of state
16.6 PT Mean-field theory
16.7 PT Superheating and supercooling
16.8 PT Clausius-Clapeyron equation
16.9 PT 1D Ising model
16.10 PT Problem and solution Blundell Clausius-Clapeyron eq.
16.11 PT problem and solution Huang van der Waals eq.
16.12 PT Renormalization group

17 Brown motion Einstein relation

18.1 CE Formula
18.2 GCE formula-1
18.3 GCE Formula-2