Coulomb Law: What Does k Mean & Why Is 4π Used?

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In Coulomb's law, the constant "k" is expressed as 1/(4π*ε), where "ε" represents vacuum permittivity, linking it to fundamental electromagnetic principles. The factor 4π corresponds to the surface area of a unit sphere, emphasizing the geometric nature of electric fields. This formulation aims to clarify the relationship between electromagnetism and the speed of light, as encapsulated in the equation ε₀μ₀ = 1/c². By using this specific representation, the equation highlights the significance of vacuum permittivity in electromagnetic wave propagation. Overall, this approach enhances the clarity and elegance of fundamental results in electromagnetism.
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What k mean in coulomb law? it's 1/(4π*ε) but why is in this form? 4π it's related to the shape of an atom?
 
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Basically "k" has been given this strange, nonintuitive shape so that deep and fundamental results in electromagnetism look cleaner on the paper

4\pi is the surface area of a unit sphere.

The "e" is the "vacuum permittivity", closely related to the speed of light in vacuum, "c", through the formula:
\epsilon_{0}\mu_{0}=\frac{1}{c^{2}},
where \mu_{0} is called the "magnetic constant". (That formula is now used as the DEFINITION of our "e")

When we look at propagation of light waves and electromagnetic waves in general, our number "e" is so closely related to it that it pops up everywhere, and therefore, Coulomb's law has been written in such a way to make that important constant explicit, rather than using a fuzzy "k".
 
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