A capacitor of capacitance C is charged to potential difference V_0. Now this capacitor is connected to an ideal inductor. When 25% of energy of

Q: A capacitor of capacitance $C$ is charged to potential difference $V_0$. Now this capacitor is connected to an ideal inductor. When $25\%$ of energy of capacitor is transferred to inductor then at that time what will be potential difference across capacitor

b Initial energy in the capacitor is $\mathrm{U}_{0}=\frac{\mathrm{q}_{0}^{2}}{2 \mathrm{C}}$ after connecting the inductor energy $\mathrm{U}=\frac{3 \mathrm{U}_{0}}{4}$ So, $\mathrm{q}=\frac{\sqrt{3}}{2} \mathrm{q}_{0}$ and $\mathrm{V} \propto \mathrm{q}$ So, $\mathrm{V}=\frac{\sqrt{3}}{2} \mathrm{V}_{0}$

SECTION - A [PHYSICS - MCQ]

GSEB - English Medium

A capacitor of capacitance $C$ is charged to potential difference $V_0$. Now this capacitor is connected to an ideal inductor. When $25\%$ of energy of capacitor is transferred to inductor then at that time what will be potential difference across capacitor

A$\frac {V_0}{2}$
B$\frac {\sqrt 3}{2} \,\,V_0$
C$\frac {V_0}{4}$
D$\frac {V_0}{\sqrt 3 }$

Medium

STD 11 Science
NEET
STD 12 - 2. Electric potential and capacitance
Physics

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