4.00 x 103 -nF parallel plate capacitor is connected to a 12.0-V battery and charged. (a) What is the charge Q on the positive plate of the capacitor? (b) What is the electric potential energy stored in the capacitor? The 4.00 x 103 -nF capacitor is then disconnected from the 12.0-V battery and used to charge three uncharged capacitors, a 100-nF capacitor, a 200-nF capacitor, and a 300.-nF capacitor, connected in series.
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4.00 x 103 -nF parallel plate capacitor is connected to a 12.0-V battery and charged.
(a) What is the charge Q on the positive plate of the capacitor?
(b) What is the electric potential energy stored in the capacitor? The 4.00 x 103 -nF capacitor is then disconnected from the 12.0-V battery and used to charge three uncharged capacitors, a 100-nF capacitor, a 200-nF capacitor, and a 300.-nF capacitor, connected in series.
(c) After charging, what is the potential difference across each of the four capacitors?
(d) How much of the electrical energy stored in the 4.00 x 103 -nF capacitor was transferred to the other three capacitors?
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