NOC:Chemical Principles-II


Lecture 1 - Introduction to The Thermodynamics


Lecture 2 - History of Thermodynamic


Lecture 3 - Thermodynamic Systems and Variables


Lecture 4 - Zeroth Law of Thermodynamic


Lecture 5 - Microscopic Definition of Temperature - Part 1


Lecture 6 - Microscopic Definition of Temperature - Part 2


Lecture 7 - Different Forms of Energy


Lecture 8 - Real Gas and Virial Equation


Lecture 9 - Van der Waals Gas


Lecture 10 - Work and Heat - Part 1


Lecture 11 - Work and Heat - Part 2


Lecture 12 - First Law of Thermodynamics


Lecture 13 - Microscopic Definition of Heat and Work


Lecture 14 - Work done at a Constant Temperature


Lecture 15 - Heat is a path function


Lecture 16 - Joule-Thomson Effect (For Ideal Gases)


Lecture 17 - Joule-Thomson Effect (For Van der Waals gas)


Lecture 18 - Adiabatic Reversible Work


Lecture 19 - Adiabatic Irreversible Work


Lecture 20 - Tutorial Problem - 1


Lecture 21 - Tutorial Problem - 2


Lecture 22 - Thermochemistry - Part 1


Lecture 23 - Thermochemistry - Part 2


Lecture 24 - Second Law of Thermodynamics


Lecture 25 - Statements of the Second Law of Thermodynamics


Lecture 26 - Carnot Cycle and Definition of Entropy


Lecture 27 - Ideal Stirling Engine


Lecture 28 - Gasoline Engine and Diesel Engine


Lecture 29 - Carnot’ Cycle: The Most Efficient Engine


Lecture 30 - Thermodynamic Temperature


Lecture 31 - Definition of Entropy


Lecture 32 - Tutorial Problem - 3


Lecture 33 - Tutorial Problem - 4


Lecture 34 - Tutorial Problem - 5


Lecture 35 - Tutorial Problem - 6


Lecture 36 - Tutorial Problem - 7


Lecture 37 - Tutorial Problem - 8


Lecture 38 - Statistical Formulation of the Second Law


Lecture 39 - Probability


Lecture 40 - Microstates and Distributions


Lecture 41 - Permutation and Combination


Lecture 42 - Two-Level Systems


Lecture 43 - Most Probable Distribution


Lecture 44 - Calculation with Multi-Level systems


Lecture 45 - Calculation with Multi-Level systems with fixed energy - Part 1


Lecture 46 - Calculation with Multi-Level systems with fixed energy - Part 2


Lecture 47 - Calculation with Multi-Level systems with fixed energy - Part 3


Lecture 48 - Bose-Einstein, Fermi-Dirac and Maxwell-Boltzmann distribution


Lecture 49 - Most Probable Distribution is the Boltzmann Distribution


Lecture 50 - Demonstration of Boltzmann Distribution


Lecture 51 - Estimating Entropy for Various Processes


Lecture 52 - Microscopic equivalent of Heat and Work


Lecture 53 - Probability and Boltzmann Distribution


Lecture 54 - Thermodynamic Observables: It is all in the Average


Lecture 55 - Tutorial Problem - 9


Lecture 56 - Tutorial Problem - 10


Lecture 57 - Tutorial Problem - 11


Lecture 58 - Tutorial Problem - 12


Lecture 59 - Thermodynamic free energy


Lecture 60 - Condition for Spontaneity


Lecture 61 - Legendre Transformation of Thermodynamic Potentials


Lecture 62 - Maxwell Relations and Applications


Lecture 63 - Thermodynamic Relations using Jacobian Method - Part 1


Lecture 64 - Thermodynamic Relations using Jacobian Method - Part 2


Lecture 65 - Tutorial Problem - 13


Lecture 66 - Tutorial Problem - 14


Lecture 67 - Tutorial Problem - 15


Lecture 68 - Tutorial Problem - 16


Lecture 69 - Chemical Principle II - Overview and Road Ahead