In the circuit the rms value of voltage across the capacitor C, inductor L and resister `R_(1)` are respectively `5sqrt(5V)`, 10 V and 5V. Then the peak voltage a cross `R_(2)` is

In the given circuit the R.M.S values of voltages across the capacitor C, inductor L and resistor R_(1) are 12V, 10V and 5 V respectively. Then the peak voltage across R_(2) is

In the given circuit the R.M.S values of voltages across the capacitor C, inductor L and resistor R_(1) are 12V, 10V and 5 V respectively. Then the peak voltage across R_(2) is

In a series LCR circuit the rms voltage across the inductance , capacitance and resistance are respectively 4 V, 8 V and 5 V . The RMS voltage of the AC source in the circuit is

In a series LCR circuit the rms voltage across the inductance , capacitance and resistance are respectively 4 V, 8 V and 5 V . The RMS voltage of the AC source in the circuit is

In a series RLC circuit the r.m.s. voltage across the resistor and the inductor are respectively 400 V and 700 V. If the equation for the applied Voltage is epsilon = 500 sqrt(2) sin omegat. then the peak voltage across the capacitor is

In a series RLC circuit the r.m.s. voltage across the resistor and the inductor are respectively 400 V and 700 V. If the equation for the applied Voltage is epsilon = 500 sqrt(2) sin omegat. then the peak voltage across the capacitor is

In the series L-C-R circuit shown in the figure, the rms voltage across the resistor and inductor are 400 V and 700 V respectively. If the applied voltage is E=500sqrt(2)sin(omega t) , then the peak voltage across the capacitor is

In the series L-C-R circuit shown in the figure, the rms voltage across the resistor and inductor are 400 V and 700 V respectively. If the applied voltage is E=500sqrt(2)sin(omega t) , then the peak voltage across the capacitor is