In the circuit given `E = 6.0 V, R_(1) = 100 ohms, R_(2) = R_(3) = 50 ohms, R_(4) = 75 ohms`. The equivalent resistance of the circuit, in ohms, is

In the circuit given E = 6.0 volt, R_(1) = 100Omega, R_(2) = R_(3)=50Omega and R_(4)=75Omega . The equivalent resistance of the circuit, in ohms is

In the circuit shown in Fig. 4.19. R_(1)=100 Omega, R_(2)=R_(3)=50 Omega, R_(4)=75 Omega and E=4.75 V. Work out the equivalent resistance of the circuit and the current in each resistor.

In the circuit R_(1) = 4 Omega , R_(2) = R_(3) = 15 Omega R_(4) = 30 Omega and E = 10 V Calculate the equivalent resistance of the circuit and current in each resistor

Equivalent resistance (in ohm) of the given network is

For what valve of R the net resistance of the circuit will be 18 ohms. .

In the circuit, E = 10 volt, R_(1) = 5.0 ohm, R_(2) = 10 ohm and L = 5.0 henry. The current just after the switch S is pressed is.

In the given circuit the equivalent resistance between the points A and B in ohm is

The resistors of resistances R_(1)=100pm3" ohm and R"_(2)=200pm 4ohm are connected in series. The equivalent resistance of the series combination is

Tow resistance R_(1) = 50 pm 2 ohm and R_(2) = 60 pm connected in series , the equivalent resistance of the series combination in

Given l//a=0.5 cm^(-1), R= 50 "ohm", N= 1.0. The equivalent conductance of the electrolytic cell is .