Determine the voltage drop across the resistor `R_1` in the circuit given below with `E = 65V, R_1 = 50Omega, R_2 = 100 Omega, R_3 = 100 Omega` and `R_4 300 Omega`

In the circuit shown below E_(1) = 4.0 V, R_(1) = 2 Omega, E_(2) = 6.0 V, R_(2) = 4 Omega and R_(3) = 2 Omega . The current I_(1) is

The potential difference in volt across the resistance R_(3) in the circuit shown in figure, is (R_(1)=15Omega,R_(2)=15Omega, R_(3)=30Omega, R_(4)=35Omega)

If the voltage across 500 Omega is 5 V. then R_2 is

In the circuit diagram show, X_(C)=100Omega, X_(L)=200Omega,& R=100Omega

The time when the voltage drop across the resistor drops to nearly 37% of the value just after the switch S_(w) is closed : (R=100k Omega, C = 1 mu F) is :

In the following circuit , E_1 = 4V, R_1 = 2 Omega, E_2 = 6 V, R_2 = 2Omega, and R_3 = 4Omega. Find the currents i_1 and i_2

Current through resistor R3 as shown in figure is ______. Given that R1=10 Omega R2=5 Omega R4=20 Omega and R5=10 Omega

Find the current in each wire. epsilon = 50V, epsilon_2 = 40V epsilon_3 =30 V, epsilon_4 = 10V R_1 = 2Omega, R_2 = 2Omega R_3 = 1Omega

In the given circuit, R_(1) = 10Omega R_(2) = 6Omega and E = 10V, then correct statement is

(a) Resistors given as R_(1), R_(2) and R_(3) are connected in series to a battery V. Draw the circuit diagram showing the arrangement. Derive an expression for the equivalent resistance of the combination. (b) If R_(1)=10 Omega, R_(2)=20 Omega and R_(3)=30 Omega , calculate the effective resistance when they are connected in series to a battery of 6 V. Also find the current flowing in the circuit.