`R1 = R2 = R3 = R4 = 2ohm`. Find voltage across capacitor at steady state

In the circuit shown in figure, R(1) = 1Omega, R_(2) = 2Omega, C_(1) = 1 muF, C_(2) = 2 muF and E = 6 V . Calculate charge on each capacitor in steady state

In the circuit shown in figure, R(1) = 1Omega, R_(2) = 2Omega, C_(1) = 1 muF, C_(2) = 2 muF and E = 6 V . Calculate charge on each capacitor in steady state

In the circuit show in figure E_2 = 2 V, E_1 = 3 E_3 = 6 V, C = 5 mu F , R_1 = 2 R_2 = 6 Oega, R_3 = 2R_4 = 4Omega . Find the current in R_3 and the energy stored in the capacitor.

In the given circuit E_1 = 3E_2 = 2E_3 = 6 volts R_1 = 2R_4 = 6ohms R_3 = 2R_2 = 4ohms C = 5 muf. Find the current in R and the energy stored in the capacitor.

In a series C-R circuit shown in figureure, the applied voltage is 10 V and the voltage across capacitor is found to 8 V . The voltage across R , and the phase difference between current and the applied voltage will respectively be .

In a series C-R circuit shown in figureure, the applied voltage is 10 V and the voltage across capacitor is found to 8 V . The voltage across R , and the phase difference between current and the applied voltage will respectively be .

In a series C-R circuit shown in figureure, the applied voltage is 10 V and the voltage across capacitor is found to 8 V . The voltage across R , and the phase difference between current and the applied voltage will respectively be .

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 the given circuit E_1 = 3E_2 = 2E_3 = 6 volts R_1 = 2R_4 = 6Omega R_3 = 2R_2 = 4Omega C = 5 muf. Find the current in R and the energy stored in the capacitor.