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History of Thermodynamic
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Thermodynamic Systems and Variables
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Heat is a path function
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Adiabatic Irreversible Work.
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Ideal Stirling Engine
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Zeroth Law of Thermodynamic
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Microscopic Definition of Temperature Part - 01
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Microscopic Definition of Temperature Part - 02
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Different Forms of Energy
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Real Gas and Virial Equation
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Work and Heat Part - 01
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Microscopic Definition of Heat and Work
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Work done at a Constant Temperature
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Joule-Thomson Effect (For Ideal Gases)
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Joule-Thomson Effect (For Van der Waals gas)
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Adiabatic Reversible Work
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Tutorial Problem - 01
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Tutorial Problem - 02
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Thermochemistry Part - 02
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Statements of the Second Law of Thermodynamics
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Carnot Cycle and Definition of Entropy
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Gasoline Engine and Diesel Engine
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Thermodynamic Temperature
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Definition of Entropy.
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Tutorial Problem 002
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Tutorial Problem - 04
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Tutorial Problem - 05
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Tutorial Problem - 06
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Tutorial Problem - 07
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Statistical Formulation of the Second Law
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Probability
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Microstates and Distributions
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Two-Level Systems
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Calculation with Multi-Level systems
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Bose-Einstein, Fermi-Dirac and Maxwell-Boltzmann distribution
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Most Probable Distribution is the Boltzmann Distribution
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Estimating Entropy for Various Processes
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Microscopic equivalent of Heat and Work
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Introduction to The Thermodynamics
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Van der Waals Gas
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Work and Heat Part - 02
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First Law of Thermodynamics
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Thermochemistry Part - 01
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Second Law of Thermodynamics
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Carnot’ Cycle: The Most Efficient Engine
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Tutorial Problem - 08
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Permutation and Combination
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Most Probable Distribution
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Calculation with Multi-Level systems with fixed energy - Part 01
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Calculation with Multi-Level systems with fixed energy - Part 02
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Calculation with Multi-Level systems with fixed energy - Part 03
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Demonstration of Boltzmann Distribution
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Probability and Boltzmann Distribution
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Thermodynamic Observables: It is all in the Average
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Description:
In this course, we will now find out the reason for changes in matters (Chemical Principles II). The earlier course, Chemical Principles I, deals with the matter itself, and the understanding of it comes from quantum mechanics. However, for the change of matter, thermodynamics says the final word. The most critical quantity in thermodynamics is the entropy, and this course is all about understanding entropy and related thermodynamic potentials. Although classical thermodynamics was developed from observations and heuristic understanding, statistical thermodynamics provides a microscopic basis of it. In this course, a holistic approach covering three different approaches (classical, statistical, and postulate-based) of thermodynamics will be covered. The objective of this course is demystification the enigma of entropy.

Chemical Principles II

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#Engineering #Chemical Engineering #Science #Physics #Thermodynamics #Computer Science #Information Theory #Entropy #Statistical Mechanics #Carnot Cycle
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