Boltzmann equation

Boltzmann's Entropy Equation: A History from Clausius to Planck

Boltzmann's entropy formula was created by Max Planck in 1900! So, why did Planck create this equation and how did it end up on Boltzmann's grave? I used primary sources to explain the history of this famous and confusing equation. My Patreon Page (thanks!): https://www.patreon.com/us

From playlist Max Planck Biographies

Maxwell-Boltzmann distribution

Entropy and the Maxwell-Boltzmann velocity distribution. Also discusses why this is different than the Bose-Einstein and Fermi-Dirac energy distributions for quantum particles. My Patreon page is at https://www.patreon.com/EugeneK 00:00 Maxwell-Boltzmann distribution 02:45 Higher Temper

From playlist Physics

Here's What Maxwell's Equations ACTUALLY Mean.

Offset your carbon footprint on Wren: https://www.wren.co/start/parthg The first 100 people who sign up will have 10 extra trees planted in their name! Maxwell's Equations are a set of 4 equations that describe how electric and magnetic fields behave within our universe, as well as how th

From playlist Maxwell's Equations EXPLAINED

A09 The Hamiltonian

Moving on from Lagrange's equation, I show you how to derive Hamilton's equation.

From playlist Physics ONE

Physics - Thermodynamics: States: (5 of 10) Ideal Gas Equation

Visit http://ilectureonline.com for more math and science lectures! In this video I will explain and show you how to find temperature using the ideal gas equation. Next video in this series can be seen at: https://youtu.be/SUzaH162LY4

From playlist PHYSICS - THERMODYNAMICS

Physics - E&M: Maxwell's Equations (1 of 30) What are the Maxwell equations? Introduction

Visit http://ilectureonline.com for more math and science lectures! In this video I will introduction to Maxwell's equations.

From playlist PHYSICS - ELECTRICITY AND MAGNETISM 3

The Schrodinger Equation is (Almost) Impossible to Solve.

Sure, the equation is easily solvable for perfect / idealized systems, but almost impossible for any real systems. The Schrodinger equation is the governing equation of quantum mechanics, and determines the relationship between a system, its surroundings, and a system's wave function. Th

From playlist Quantum Physics by Parth G

Euler-Lagrange equation explained intuitively - Lagrangian Mechanics

Lagrangian Mechanics from Newton to Quantum Field Theory. My Patreon page is at https://www.patreon.com/EugeneK

From playlist Physics

What is the Schrödinger Equation? A basic introduction to Quantum Mechanics

This video provides a basic introduction to the Schrödinger equation by exploring how it can be used to perform simple quantum mechanical calculations. After explaining the basic structure of the equation, the infinite square well potential is used as a case study. The separation of variab

From playlist Quantum Physics

On the Boltzmann equation without angular cut-off - Robert Strain

Robert Strain University of Pennsylvania March 18, 2014 In this talk we will explain several results surrounding global stability problem for the Boltzmann equation 1872 with the physically important collision kernels derived by Maxwell 1867 for the full range of inverse power intermolecul

From playlist Mathematics

Boltzmann and the Bridge Between Two Worlds

In the 19th century, Ludwig Boltzmann used atomic theory to explain thermodynamics, thereby creating a new field of physics called statistical mechanics. His work was initially controversial but has since become deeply influential because it touches on the nature of entropy, information an

From playlist Women in Fundamental Research, the 2021 Friends of IHES Gala

François Golse: Linear Boltzmann equation and fractional diffusion

Abstract: (Work in collaboration with C. Bardos and I. Moyano). Consider the linear Boltzmann equation of radiative transfer in a half-space, with constant scattering coefficient σ. Assume that, on the boundary of the half-space, the radiation intensity satisfies the Lambert (i.e. diffuse)

From playlist Partial Differential Equations

Thierry Bodineau -- Fluctuating Boltzmann equation and large deviations for a hard sphere gas

A gas dynamics can be modelled by a billiard made of hard spheres, moving according to the laws of classical mechanics. Initially the spheres are randomly distributed according to a probability measure which is then transported by the flow of the deterministic dynamics. Since the seminal w

From playlist Columbia Probability Seminar

Statistical Mechanical Ensembles and Typical Behavior of Macroscopic Systems by Joel Lebowitz

DISTINGUISHED LECTURES STATISTICAL MECHANICAL ENSEMBLES AND TYPICAL BEHAVIOR OF MACROSCOPIC SYSTEMS (ONLINE) SPEAKER: Joel Lebowitz (Rutgers University, New Brunswick, USA) DATE : 13 July 2021, 19:30 to 21:00 VENUE: Online Abstract: In this talk I will focus on describing, in a qualit

From playlist DISTINGUISHED LECTURES

Seminar In the Analysis and Methods of PDE (SIAM PDE): Luis Silvestre

Title: Gaussian lower bounds for the Boltzmann equation without cut-off Date: July 1, 2021, 11:30 am ET Speaker: Luis Silvestre, University of Chicago Abstract: The Boltzmann equation models the evolution of densities of particles in a gas. Its global well posedness is a major open proble

From playlist Seminar In the Analysis and Methods of PDE (SIAM PDE)

Probabilités, Irréversibilité et Propagation du chaos - CEB T2 2017 - I.Gallagher - Public Lecture 3

Public lecture by Isabelle Gallagher (Université Paris Diderot), 14/06/17 Probabilités, Irréversibilité et Propagation du chaos Suivant l'échelle à laquelle on observe un objet physique, on peut en faire une description très différente. Par exemple l'air est constitué d'un nombre gigantes

From playlist 2017 - T2 - Stochastic Dynamics out of Equilibrium - CEB Trimester

The Brownian motion as the limit of a deterministic system of hard-spheres - Thierry Bodineau

The Brownian motion as the limit of a deterministic system of hard-spheres - Thierry Bodineau Thierry Bodineau École Polytechnique March 12, 2014 We provide a derivation of the brownian motion as the hydrodynamic limit of a diluted deterministic system of hard-spheres (in the Boltzmann-Gr

From playlist Mathematics

Jens Marklof - Quantum Lorentz gas in the Boltzmann-Grad limit: random vs periodic

Jens Marklof (University of Bristol) Quantum Lorentz gas in the Boltzmann-Grad limit: random vs periodic. A major challenge in the kinetic theory of gases is to establish the convergence of the dynamics to a macroscopic transport process described by the appropriate kinetic equation. In

From playlist Large-scale limits of interacting particle systems

Physics - E&M: Maxwell's Equations (30 of 30) Fundamental Form of Maxwell's Equation

Visit http://ilectureonline.com for more math and science lectures! In this video I will explain the fundamental form of Maxwell's equations.

From playlist PHYSICS 46 MAXWELL'S EQUATIONS