# Statistical Mechanics

Statistical Physics

4.33 (3 reviews)
Udemy
platform
English
language
Science
category
50
students
5.5 hours
content
Mar 2019
last update
\$39.99
regular price

## Description

Statistical Mechanics is a particular bunch of Physics. In which both Macro and Micro system are dealed in respect of the behavior of every constituent but not as a whole. That is why Statistical approach is quite different from Thermodynamic approach. In this course, both Classical and Quantum Statistics are discussed in respect of their most probable distribution, conversion and applications. Here several Thermodynamic Parameters and their characteristics are derived and discussed in Statistical way. Not only that but also the Theory of Specific Heat of solid, Planck's Black Body Radiation Theory and its consequences, Fermi energy state for Free Electron Gas inside metal, Richardson-Dushmann Equation for Thermionic Emission of Electron, Einstein's Theory of Brownian Motion with Langevin's Extension for verification of Avogadro Number along with Gibb's Paradoxical Error and its removal for Entropy Function of gaseous system, ........etc. all are carefully and easily discussed for students realization. Student will be benefited with this high level course when developed at very easy way. I hope the student will collect this course for their easy practice and easy realization about Statistical Mechanics.

## Content

### Statistical Mechanics

Introduction
Basic Concept of Statistical Mechanics
Thermodynamical Way and Mathematical Probability
Concept of Phase Space
Distribution Function in MB Statistics
Statistical Interpretation of Entropy
Partition Function in Statistical Mechanics
Entropy in terms of Partition Function
Gibb's Paradox in Statistical Mechanics
Sakur Tetrode Formula
Chemical Potential in Thermodynamic Equilibrium
Distribution Function in FD Statistics
Nature of FD Distribution Function
Fermi Level Energy in FD Statistics
Pressure of Fermi Gas Electron System
Internal Energy of Fermi Gas Electron in Conductor
Equipartition Law of Energy
Richardson Dusmann Equation from FD Statistics
Non Degenerate and Degenerate Fermi Gas
Distribution Function in BE Statistics
Planck's Black Body Radiation Formula from BE Statistics
Wein's Displacement Law
Stefan Boltzmann Law of Black Body Radiation
Wein's and Rayleigh-Jeans Radiation Formula
Conversion of FD and BE Statistics to MB Statistics
Comparison between Boson and Fermion
Einstein's Theory of Specific Heat of Solid
Dybye's Theory of Specific Heat of Solid
Einstein's Theory of Brownian Motion
Lagevin's Theory of Brownian Motion

## Related Topics

2294789
udemy ID
3/28/2019
course created date
8/30/2020
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