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Дата последнего поиска статьи во внешних источниках: 18 июля 2013 г.
Аннотация:where ‘(r1) is potential acting on the first particle, and S is the operator of the Schrödinger equation describing the interacting particles, reproduces the bilinear Fourier expansion of Green's function (Mercer's expansion), just as in the electrostatic case1. There is another classical way of arriving at the Coulomb formula, when one starts, namely, not from the Laplace equation, but from 9 ‘ Â"/G2 = 0. The solution of the wave equation in functions of the four-dimensional (listance R = v/r2 + x ‘ ‘’ is = I,IR ‘ ‘, which not only leads to the s= law, upon integration over 54, but also yields in the known manner retarded potentials, etc.