20.08 Overview on thermodynamics and statistical physics
Lecture notes: here
Podcast Part 1: here
Podcast Part 2: here
22.08 Temperature, Heat, Work : First principle of thermodynamics (application to gas expansion)
Lecture notes here
Podcast Part 1: here
Video Part 1: here
Podcast Part 2: here
Video Part 2: here
27.08 Irreversibility, models, ideal gas, equipartition
Lecture notes: here
29.08 Macrostates and Microstates: applications to two-spin systems, random walk and Einstein crystal
Planned lecture notes here
Lecture notes here
03.09 Large multiplicity limit
Planned lecture notes here
Lecture notes here
05.09 Multiplicity of ideal gas
Planned lecture notes here
Lecture notes here
10.09 Entropy and the 2nd law of thermodynamics
Lecture notes here
12.09 Stretching polymers and proteins, bottle rockets and open eyes under water
Lecture notes (PPT) here and handwritten notes here
17.09 Thermodynamic equilibrium and free energies
Lecture notes here
19.09 Thermodynamic potentials and Legendre transform
Lecture notes here
24.09 Phase transitions
Lecture notes here
26.09 Phase transitions and van der Waals model
Lecture notes here
01.10 Van der Waals model (continuation). Heat engines and refrigerators
Lecture notes here
03.10 Boltzmann statistics, partition function
Lecture notes here
29.10 Partition function and the Helmholtz free energy
Lecture notes here
31.10 Maxwell Boltzmann distribution and the ideal gas
Lecture notes here
05.11 Chemical potential
Lecture notes here
07.11 Gibbs factor
Lecture notes here
12.11 Fermi-Dirac distribution; Degenerate gases and white dwarfs
Lecture notes here
14.11 Bose-Einstein distribution; Black body radiation
Lecture notes here
19.11 Bose-Einstein distribution; Debye model of crystals. Thermal vibrations and heat capacity of solids
Lecture notes here
21.11 Summary of the statistical mechanics of ideal gases
Lecture notes here
26.11 Exam 2017
Lecture notes here and some handwritten