(D) The initial charge stored in the capacitor is given by $Q = CV$. When the potential is reduced by $V^{\prime}$,the new potential becomes $(V - V^{

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$\frac{Q-Q^{\prime}}{V^{\prime}}$

(D) The initial charge stored in the capacitor is given by $Q = CV$. When the potential is reduced by $V^{\prime}$,the new potential becomes $(V - V^{\prime})$. The new charge stored is $Q^{\prime} = C(V - V^{\prime})$. Expanding this,we get $Q^{\prime} = CV - CV^{\prime}$. Since $Q = CV$,we can substitute $Q$ into the equation: $Q^{\prime} = Q - CV^{\prime}$. Rearranging the terms to solve for $C$: $CV^{\prime} = Q - Q^{\prime}$. Therefore,$C = \frac{Q - Q^{\prime}}{V^{\prime}}$.

Class 12 Physics Electric Potential and Capacitance Basic of Capacitor and type of capacitor (Spherical, Cylindrical)

Medium

$A$ capacitor of unknown capacitance $C$ is connected across a battery of $V$ volt. The charge stored in it becomes $Q$ coulomb. When the potential across the capacitor is reduced by $V^{\prime}$ volt,the charge stored in it becomes $Q^{\prime}$ coulomb. The capacitance $C$ is:

MHT CET 2020 All MHT CET

A
$\frac{Q-Q^{\prime}}{\sqrt{V^{\prime}}}$
B
$\frac{V^{\prime}}{Q-Q^{\prime}}$
C
$\frac{Q+Q^{\prime}}{V^{\prime}}$
D
$\frac{Q-Q^{\prime}}{V^{\prime}}$

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Electric Potential and Capacitance

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Basic of Capacitor and type of capacitor (Spherical, Cylindrical)

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$A$ capacitor of unknown capacitance $C$ is connected across a battery of $V$ volt. The charge stored in it becomes $Q$ coulomb. When the potential across the capacitor is reduced by $V^{\prime}$ volt,the charge stored in it becomes $Q^{\prime}$ coulomb. The capacitance $C$ is:

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