Question #0ed52

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Question #0ed52

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Answer 1 · 2017-01-06T19:05:18

The answer assumes that
for part (a) charge $q$ $q$ on the capacitor is already maximum charge it can hold.
For part (b) potential difference $V$ $V$ across its plates is already at its maximum rated voltage.

We know that Capacitance $C$ $C$ is defined in terms of stored charge in a capacitor as

$C \equiv \frac{Q}{V}$ $C-=Q/V$
where $Q =$ $Q =$ magnitude of charge stored on each plate of the capacitor, and $V =$ $V =$ voltage applied to the plates. Its SI units are Farad $F$ $F$

(a) When charge is doubled. Assuming that there is no change in the applied voltage, as shown from the equation above, capacitance is doubled; $\times 2$ $xx2$ .

(b) When the potential difference $V$ $V$ across plates it is tripled. Assuming that there is no change in the stored charge, from the equation above, capacitance becomes one third; $\times \frac{1}{3}$ $xx1/3$ .

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