Question #159512
A capacitor consists of two parallel metal plates in air. The distance between the plates is 5.00mm and the capacitance is 72pF. The potential difference between the plates is raised to 12.0V with a battery.
(a) Calculate the energy stored in the capacitor.
(b) The battery is then disconnected from the capacitor; the capacitor retains its charge. Calculate the energy stored in the capacitor if the distance between the plates is now increased to 10.00mm. Account for the difference in your answer of (a) and (b) above.
1
Expert's answer
2021-02-15T00:51:05-0500

(a) The energy stored in the capacitor can be calculated as follows:


E=12CV2,E=\dfrac{1}{2}CV^2,E=12721012 F(12 V)2=5.18109 J.E=\dfrac{1}{2}\cdot72\cdot10^{-12}\ F\cdot(12\ V)^2=5.18\cdot10^{-9}\ J.

b) Let's first calculate the charge stored on the capacitor:

Q=CV,Q=CV,Q=721012 F12 V=8.641010 C.Q=72\cdot10^{-12}\ F\cdot12\ V=8.64\cdot10^{-10}\ C.

Let's find the new capacitance of the capacitor. The capacitance can be calculated as follows:


C=ϵ0Ad.C=\dfrac{\epsilon_0A}{d}.

From the conditions of the question we know that the separation between the plates of the capacitor is doubled, therefore, the new capacitance will be:


Cnew=12ϵ0Ad=12C=12721012 F=361012 F.C_{new}=\dfrac{1}{2}\cdot\dfrac{\epsilon_0A}{d}=\dfrac{1}{2}\cdot C=\dfrac{1}{2}\cdot72\cdot10^{-12}\ F=36\cdot10^{-12}\ F.

Finally, we can find the energy stored in the capacitor:


E=12Q2C=12(8.641010 C)2361012 F=1.04108 J.E=\dfrac{1}{2}\dfrac{Q^2}{C}=\dfrac{1}{2}\cdot\dfrac{(8.64\cdot10^{-10}\ C)^2}{36\cdot10^{-12}\ F}=1.04\cdot10^{-8}\ J.

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