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Thermodynamics: classical to statistical [Introduction Video]

Lec 01: Concepts of Heat and Work [First Law of Thermodynamics]

Lec 02: Concepts of Enthalpy and Heat Capacity

Lec 03: Introduction to Entropy

Lec 04: Calculation of entropy for various processes

Lec 05: Gibbs and Helmholtz free energy

Lec 06: Introduction to chemical potential

Lec 07: Clapeyron equation and phase transition; concept of fugacity

Lec 08:Calculation of fugacity; free energy of mixing

Lec 09: Partial molar quantities; excess thermodynamic quantities

Lec 10: Concept of activity and activity coefficients; Debye-Huckel limiting law

Lec 11: Phase Diagram of one component systems

Lec 12: Phase Diagram of two component systems

Lec 13: Phase Diagram of three component system; one dimensional random walk

Lec 14: Macroscopic and microscopic states; Boltzmann distribution; Canonical partition function

Lec 15: Calculation of different thermodynamical quantities using canonical partition function

Lec 16: Introduction to molecular partition function

Lec 17: Translational, electronic and nuclear partition function

Lec 18: Rotational partition function

Lec 19: Vibrational partitition function; Introduction to grand canonical ensemble

Lec 20: Grand canonical distribution; Introduction to microcanonical ensemble

Lec 21: Problems on classical thermodynamics-1

Lec 22: Problems on classical thermodynamics-2

Lec 23: Problems on statistical thermodynamics-1

Lec 24: Problems on statistical thermodynamics-2

Lec 25: Problems on statistical thermodynamics-3

Lec 26: Fermi-Dirac and Bose-Einstein statistics

Lec 27: Ideal Fermi Gas

Lec 28: Ideal Bose gas; Introduction to Bose-Einstein condensation

Lec 29: Bose-Einstein Condensation

Lec 30: Nuclear spin statistics; Ortho- and para-hydrogens

Lec 31: Specific Heats of Solids

Lec 32: Problems on statistical thermodynamics-4

Lec 33: Advance problems-1

Lec 34: Advance Problems-2

Lec 35: Advance Problems-3

Lec 36: Advance Problems-4

Lec 37: Advance Problems-5

Description:

COURSE OUTLINE: This course is intended for final year BSc (in Chemistry) as well as for MSc (in Chemistry) and PhD (in Chemistry) students and it is assumed that no previous knowledge of the subject is required. Moreover, this course demonstrates the form physical and statistical basis of thermodynamics by showing how the properties of macroscopic systems are direct consequences of the behaviors of their elementary constituents. Thus this course will give the students a broader spectrum of skills as well as a better understanding of the physical bases.

Thermodynamics - Classical to Statistical

NPTEL

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#Science #Physics #Thermodynamics #Statistical Mechanics #Partition Functions #Computer Science #Information Theory #Entropy #Free Energies #Materials Science #Phase Diagrams #Chemical Potential