Electric force interaction in a proton blast wave

2024;
: pp. 27-30
1
Physics and Mathematics Lyceum
2
Lviv Polytechnic National University

The paper presents theoretical foundations for the behavior of positively charged nuclei, namely uranium fission fragments, within a blast wave. The complexity of the problem stem from the fact that moving electrically charged bodies generate complex electric fields within which these bodies interact, being at the same time under the influence of inertial forces and dissipation forces caused by the opposition of the real environment. As it turned out, partial compensation of the effects of transverse motion in the form of magnetic fields is far from sufficient. Consequently, it was necessary to employ the longitudinal motion and the finite speed of propagation of force signals in the electric field to consider the phenomenon as a whole.

The theoretical results are accompanied by the findings of integrating the differential equations of the radial motion of the nuclei of barium and krypton, along with analytical calculations. Ill.: 3, bibliography 7.

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