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Dyonic Field Equations in Arbitrary Media
Author(s) -
Ila Joshi,
Jivan Singh Garia
Publication year - 2019
Publication title -
journal of mountain research/journal of mountain research
Language(s) - English
Resource type - Journals
eISSN - 2582-5011
pISSN - 0974-3030
DOI - 10.51220/jmr.v14i1.9
Subject(s) - dyon , maxwell's equations , lorentz force , lorentz transformation , physics , mathematical physics , field (mathematics) , matrix representation of maxwell's equations , polarization (electrochemistry) , classical mechanics , quantum electrodynamics , electric field , electromagnetic field , magnetic field , mathematics , magnetic monopole , inhomogeneous electromagnetic wave equation , quantum mechanics , optical field , pure mathematics , chemistry
Starting with the generalized Maxwell field equation of dyon, the matrix form of generalized Maxwell field equation is formulated in a compact manner. The Maxwell field equations and Lorentz force for dyon in term of the matrix are also derived in arbitrary media (material media). It represents an additional field, which shows polarization and magnetization for the electric and magnetic charge. Finally, the Continuity equation for dyon is also derived.