The Boltzmann equation and corresponding extremal problems

Abstract

We start with some global Maxwellian function M, which is a stationary solution (with the constant total density ) of the Boltzmann equation, and we denote the number of the corresponding space variables by n. The notion of distance between the global Maxwellian function and an arbitrary solution f (with the same total density at the fixed moment t) of the Boltzmann equation is introduced. In this way we essentially generalize the important Kullback-Leibler distance, which was used before. An extremal problem to find a solution of the Boltzmann equation, such that \M,f\ is minimal in the class of solutions with the fixed values of energy and of n moments, is solved.