Boltzmann equation Guide, Meaning , Facts, Information and Description
The Boltzmann equation describes the statistical distribution of particles in a fluid. It is one of the most important equations of non-equilibrium statistical mechanics, the area of statistical mechanics that deals with systems far from thermodynamic equilibrium; for instance, when there is an applied temperature gradient or electric field. The Boltzmann equation is used to study how a fluid transports physical quantities such as heat and current, and thus to derive transport-related properties such as electrical conductivity, Hall conductivity, viscosity, and thermal conductivity.The Boltzmann equation is
The quantity h is customarily inserted to make f a dimensionless quantity. For classical statistical mechanics, this is just a matter of convention, since it does not show up in the final results of calculations. For quantum statistical mechanics, one usually takes h to be Planck's constant, so that f stands for the occupancy of a cell in phase space delineated by the Heisenberg uncertainty principle.
the mean number of particles with center of mass located within a small volume d³r near the point r, and momentum within a range d³p near p, at time t.
The Boltzmann equation is also often used in the field of dynamics, especially galactic dynamics. A galaxy, under certain assumptions, may be approximated as a continuous fluid; its mass distribution is then represented by f. When the collision term is null, the equation is also named non-collisional Boltzmann equation; in galaxies, physical collisions between the stars are very rare, and the effect gravitational collisions can be neglected for times far longer than the age of the universe.
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