On Numerical Solution of Poincaré Problem for Oceanic Circulations

Two stereological problem-the ecltimation of sphere diameter distributions and the estimation of eheet thiohem didributions from linear or plane ~e o t i ~~-e r e considered. Their numerical solution coneista in the solution of linear equation systems. To compare the quality of various methode theor

## Abstract Let __D__ ⊂ ℝ^__n__^ be a bounded domain with piecewise‐smooth boundary, and __q__(__x__,__t__) a smooth function on __D__ × [0, __T__]. Consider the time‐like Cauchy problem magnified image magnified image Given __g__, __h__ for which the equation has a solution, we show how to approxi

## Abstract The one‐dimensional Schrödinger equation is considered when the potential is real valued, integrable, has a finite first moment, and contains no bound states. From either of the two reflection coefficients of such a potential the right and left reflection coefficients are extracted corr

A new numerical method is applied to the solution of electromagnetic wave diffraction problems on perfectly conducting screens. The method is based on a special class of Gaussian approximating functions that are used for discretization of the original integral equation of the problem. These function