Abstract

In this paper, we report the reformulation of Maxwell equations for dyon in arbitrary media and it’s role in order to obtain the three set of solutions in terms of charge density $$\rho$$ , current density J, polarization P, and magnetization M. Present study determines the electric field E, electric displacement vector D, magnetic induction vector H, and magnetic field B as integrals of retarded charge density $$\rho$$ , current density J, polarization P and magnetization M, and their retarded spatial and temporal derivatives.

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