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Flux
Flux refers to a flow of matter or energy. Examples include water through a pipe, blood through veins, or air over an airplane's wing.
While there's nothing directly flowing in an electric field, the term flux is used to describe the total strength of a field.
In the simplest case with a uniform field of magnitude E perpendicular to an area A, the flux is described as follows:
\Phi = EA
Erefers to the amplitudeArefers to the area
If the area is tilted relative to the field, then the strength of the field is reduced by a factor of \cos \theta, where \theta is the angle between the electric field \vec{E} and a vector \vec{A} that's normal to the surface. This generalizes our flux equation to \Phi = EA\cos\theta .
I don't understand what the below section means, but copying it for posterity: The electric flux through any closed surface is proportional to the net charge enclosed by that surface. This would be written mathematically as:
\Phi = \oint \vec{E} \cdot d\vec{A} \alpha q_{enclosed}
\Phi = \oint \vec{E} \cdot d\vec{A} = \oint EdA \cos\theta