Скачать с ютуб Teach Yourself Statistical Mechanics In One Video | New & Improved в хорошем качестве

Teach Yourself Statistical Mechanics In One Video | New & Improved

#Thermodynamics #Entropy #Boltzmann 00:00 - Intro 02:15 - Macrostates vs Microstates 05:02 - Derive Boltzmann Distribution 09:52 - Boltzmann Entropy 13:18 - Proving 0th Law of Thermodynamics 21:05 - The Grand Canonical Ensemble 29:07 - Applications of Partition Function 37:01 - Gibbs Entropy 40:22 - Proving 3rd Law of Thermodynamics 41:12 - Proving 2nd Law of Thermodynamics 46:14 - Proving 1st Law of Thermodynamics 50:05 - Summary In this video we give a complete introduction to the foundations of statistical mechanics. We are going to examine the physics of macroscopic systems. It is the physics used to describe systems with number of particles on the order of 10^23, the Avogadro constant. With such numerous degrees of freedom, keeping track of the motion of each individual particle becomes untenable, one is therefore forced to combine the use of the laws of mechanics with statistics, to describe the averages and aggregates of physical observables. And so statistical mechanics was born. At the heart of this subject lies the partition function, which carries all information concerning a macroscopic system in thermal equilibrium. This is today’s topic. *This is a re-recording of my first video on statistical mechanics, with some improvements and corrections. Some good books for your physics reading list : Here are my affiliated links(As an Amazon Associate I earn from qualifying purchases.) ►Susskind’s Theoretical Minimum series : 1.) Classical Mechanics : https://amzn.to/47HPpiV 2.) Quantum Mechanics : https://amzn.to/48qO6ph 3.) Special Relativity and Classical Field Theory : https://amzn.to/3I5tvvO 4.) General relativity : https://amzn.to/48rNcZv ►Landau & Lifshitz series : 1.) Mechanics : https://amzn.to/48BSMtk 2.) The Classical Theory of Fields : https://amzn.to/48uOYc9 3.) Quantum Mechanics: Non-Relativistic Theory : https://amzn.to/3uJkw0j 4.) Quantum Electrodynamics : https://amzn.to/3T4XGtf 5.) Statistical Physics, Part1 : https://amzn.to/49nTfiT 6.) Fluid Mechanics : https://amzn.to/49mAPPI 7.) Theory of Elasticity : https://amzn.to/42M65oF 8.) Electrodynamics of Continuous Media : https://amzn.to/42Jve3v 9.) Statistical Physics, Part2: Theory of the Condensed State : https://amzn.to/3SKU6TJ 10.) Physical Kinetics : https://amzn.to/3OQ7c0Q ►Greiner series : -Classical Theoretical Physics : Classical Mechanics: Point Particles and Relativity : https://amzn.to/48uPqqR Classical Mechanics: Systems of Particles and Hamiltonian Dynamics : https://amzn.to/48iLREm Classical Electrodynamics : https://amzn.to/3uyhGeC Thermodynamics and Statistical Mechanics : https://amzn.to/3I95ELU -Theoretical Physics : Quantum Mechanics: An Introduction : https://amzn.to/42R0Sfl Quantum Mechanics: Special Chapters : https://amzn.to/48m7C65 Quantum Mechanics: Symmetries : https://amzn.to/3SEx4Og Relativistic Quantum Mechanics : https://amzn.to/3I7LgdS Field Quantization : https://amzn.to/3I5bVIr Quantum Electrodynamics : https://amzn.to/3wgGqbx Quantum Chromodynamics : https://amzn.to/49JuxJU Gauge Theory of Weak Interactions : https://amzn.to/49IBIlc Nuclear Models : https://amzn.to/3I3rWP4