NOC:Fundamentals of Statistical Thermodynamics

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Media Storage Type : 32 GB USB Stick

NPTEL Subject Matter Expert : Prof. Nand Kishore

NPTEL Co-ordinating Institute : IIT Bombay

NPTEL Lecture Count : 60

NPTEL Course Size : 6.7 GB

NPTEL PDF Text Transcription : Available and Included

NPTEL Subtitle Transcription : Available and Included (SRT)


Lecture Titles:

Lecture 1 - General introduction to Statistical Thermodynamics
Lecture 2 - Configuration and Weights
Lecture 3 - Configuration and Weights (Continued...)
Lecture 4 - Boltzmann Distribution
Lecture 5 - The Molecular Partition Function
Lecture 6 - The Molecular Partition Function of a uniform ladder of energy levels
Lecture 7 - The partition function for a particle of mass m free to move in a 1D container
Lecture 8 - The partition function for a particle of mass m free to move in a 3D container
Lecture 9 - Numerical Problems Set-I (based on partition function)
Lecture 10 - Numerical Problems Set-II
Lecture 11 - The Internal Energy
Lecture 12 - Obtaining expression for beta
Lecture 13 - The Statistical Entropy
Lecture 14 - Connecting partition function with entropy
Lecture 15 - Solving numerical problems based on Internal energy and Entropy
Lecture 16 - Solving numerical problems based on Internal energy and Entropy
Lecture 17 - Negative Temperature
Lecture 18 - Further discussion on q (Partition function), U (Internal energy) and S (Entropy)
Lecture 19 - The Canonical Partition Function
Lecture 20 - Relating Canonical Partition Function Internal Energy and Entropy
Lecture 21 - Recovering molecular partition function q from canonical partition function Q
Lecture 22 - Entropy of a monatomic gas
Lecture 23 - Further discussion on entropy of a monatomic gas - I
Lecture 24 - Further discussion on entropy of a monatomic gas - II
Lecture 25 - The Thermodynamic Functions (Pressure)
Lecture 26 - The Thermodynamic Functions (Enthalpy)
Lecture 27 - The Thermodynamic Functions (The Gibbs Energy)
Lecture 28 - The Thermodynamic Functions (The Molecular Partition Function)
Lecture 29 - The Rotational Contribution to Molecular Partition Function
Lecture 30 - The Rotational Contribution to Molecular Partition Function (Nonlinear Rotor)
Lecture 31 - The Rotational Contribution to Molecular Partition Function
Lecture 32 - Rotational Partition Function
Lecture 33 - Vibrational Partition Function - I
Lecture 34 - Vibrational Partition Function - II
Lecture 35 - Vibrational Partition Function - Applications
Lecture 36 - Electronic Partition Function
Lecture 37 - Mean Energies
Lecture 38 - Mean Energies (Continued...)
Lecture 39 - Heat Capacity
Lecture 40 - Heat Capacity (Continued...)
Lecture 41 - Mean Energies (Applications)
Lecture 42 - Problem Solving
Lecture 43 - Residual Entropy
Lecture 44 - Residual Entropy (Continued...)
Lecture 45 - Relation between equilibrium constant K and partition function q
Lecture 46 - Relation between equilibrium constant K and partition function q (Continued...)
Lecture 47 - Relation between equilibrium constant K and partition function q (Applications-1)
Lecture 48 - Relation between equilibrium constant K and partition function q (Applications-2)
Lecture 49 - Contributions to equilibrium constant
Lecture 50 - Contributions to equilibrium constant (Continued...)
Lecture 51 - Contributions to equilibrium constant (Continued...) and Problems Solving
Lecture 52 - Problem Solving
Lecture 53 - Problem Solving (Continued...)
Lecture 54 - Equations of state
Lecture 55 - Bose-Einstein Statistics
Lecture 56 - Problem Solving
Lecture 57 - FERMI-DIRAC Statistics
Lecture 58 - Radial Distribution Function
Lecture 59 - Recap - 1
Lecture 60 - Recap - 2

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