A) U
B) \[\frac{U}{2}\]
C) 2U
D) \[\frac{3}{2}U\]
Correct Answer: B
Solution :
[b] Key Idea: On removing the battery after charging, the charge stored in eke capacitor remains constant. |
When a capacitor is charged by connecting a battery across its plates, the initial energy stored, |
\[U=\frac{{{q}^{2}}}{2C}\] |
When the battery is disconnected, then the charge remains constant i.e., \[q=\]constant. |
Now another identical capacitor is connected across it i.e., the capacitors are connected in parallel, so the equivalent capacitance |
\[{{C}_{eq}}={{C}_{1}}+{{C}_{2}}=C+C=2C\] |
Thus, final energy stored by the system of capacitors, |
\[U'=\frac{{{q}^{2}}}{2{{C}_{eq}}}\] |
\[=\frac{{{q}^{2}}}{2(2C)}=\frac{1}{2}U\] |
\[\therefore \] \[U'=\frac{U}{2}\] |
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