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Derive the expression for the capacitance of a parallel plate capacitore having plate area A and plate separation d.

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Solution

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Let a parallel plate capacitor be applied a voltage V across its terminals due to which a charge Q develops across its ends.
Separation between plates is d and area of plates is A.
From gauss's theorem one can show electric field inside the capaciton plates Q,
$E = \frac{σ}{ϵ_{o}}$ , where $σ = \frac{Q}{A}$ (charge / Area)
$\Rightarrow E = \frac{Q}{A ϵ_{o}}$
Now, voltage across the plates is related by :
$V = E d$ [In general , $d V = - \to E . d \to r$ but we take as $\to E$ is uniform]
$\Rightarrow V = \frac{Q d}{A ϵ_{o}} \Rightarrow \frac{Q}{V} = \frac{A ϵ_{o}}{d}$
Now, capacitance is defined by $C = \frac{Q}{V}$ , thus we get :-
$C = \frac{A ϵ_{o}}{d}$

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