In a series L-C-R circuit, $C = 10^{-11}$ Farad, $L = 10^{-5}$ Henry and $R = 100$ Ohm, when a constant D.C. voltage E is applied to the circuit, the capacitor acquires a charge $10^{-9}\mathrm{~C}$. The D.C. source is replaced by a sinusoidal voltage source in which the peak voltage $E_0$ is equal to the constant D.C. voltage E. At resonance the peak value of the charge acquired by the capacitor will be: (1) $10^{-15}\mathrm{~C}$ (2) $10^{-6}\mathrm{~C}$ (3) $10^{-10}\mathrm{~C}$ (4) $10^{-8}\mathrm{~C}$
In a series L-C-R circuit, $C = 10^{-11}$ Farad, $L = 10^{-5}$ Henry and $R = 100$ Ohm, when a constant D.C. voltage E is applied to the circuit, the capacitor acquires a charge $10^{-9}\mathrm{~C}$. The D.C. source is replaced by a sinusoidal voltage source in which the peak voltage $E_0$ is equal to the constant D.C. voltage E. At resonance the peak value of the charge acquired by the capacitor will be:\\
(1) $10^{-15}\mathrm{~C}$\\
(2) $10^{-6}\mathrm{~C}$\\
(3) $10^{-10}\mathrm{~C}$\\
(4) $10^{-8}\mathrm{~C}$