Maxwell's equations revisited -- mental imagery and mathematical symbols
Abstract
Using Maxwell's mental imagery of a tube of fluid motion of an imaginary fluid, we derive his equations curl E = -∂ B∂ t, curl H = ∂ D∂ t + j, div D = , div B = 0, which together with the constituting relations D = 0 E, B = μ0 H, form what we call today Maxwell's equations. Main tools are the divergence, curl and gradient integration theorems and a version of Poincare's lemma formulated in vector calculus notation. Remarks on the history of the development of electrodynamic theory, quotations and references to original and secondary literature complement the paper.
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