Updating Maxwell with Electrons, Charge, and More Realistic Polarization
Robert S. Eisenberg

TL;DR
This paper revises Maxwell's equations to explicitly include electrons, permanent charge, and realistic polarization, enhancing their applicability to matter and ensuring conservation laws are exact across diverse systems.
Contribution
The paper introduces a reformulation of Maxwell's equations that explicitly incorporates electrons, permanent charges, and complex polarization effects, improving their realism and universality.
Findings
Maxwell's equations are confirmed to be universal and exact with updates.
Explicit polarization description is necessary for practical applications.
Conservation of total current becomes exact and independent of matter.
Abstract
Maxwell's equations describe the relation of charge and electric force almost perfectly even though electrons and permanent charge were not in his equations, as he wrote them. For Maxwell, all charge depended on electric field. Charge was induced and polarization was described by a single dielectric constant. Electrons, permanent charge, and polarization are important when matter is involved. Polarization of matter cannot be described by a single dielectric constant with reasonable realism today. Only vacuum is well described by a single dielectric constant . Here, Maxwell's equations are rewritten to include permanent charge and any type of polarization. Rewriting is in one sense petty, and in another sense profound, in either case presumptuous. Rewriting confirms the legitimacy of electrodynamics. One cannot be sure ahead of…
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