For the circuit shown in figure when `R = 2Omega, V=0.75 volts`, when `R=3Omega`, V = 0.9 Volts` when `R = 4Omega, V = V_(1)`, where `V_(1)` equals (in volts) and `I_(1)`(in amp)

In the circuit given in fig. (V_C)=50 V and R=50 Omega . The values of C and (V_R) are

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

In the circuit shown in figure R_1=30Omega, R_2=40 Omega, L=0.4H and C=1/3mF . Find seven function of time I, I_1, I_2, V_(R_1), V_L, V_(R_2) and V_C . Also total power consumed in the circuit. In the given potential function V is in volts and omega in rad//s .

In the circuit shwon in figure, ammeter and voltmeter are ideal. E = 4 V, R = 15 Omega and r = 1 Omega , then reading of ammter (in A ) and voltmeter (in V) respectively are:

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 diagram shown in Figure E=18V , L=2H, R_(1)=3Omega , R_(2)=6Omega . Switch S is closed at t=0 Match the following:

In the circuit diagram shown in Figure, R=10 Omega, L=l5H, E=20v, i=2A . This current is decreasing at a rate of -1.0A//s. Find V_(ab) at this instant.

In the circuit shown in figure E_1=10 V, E_2=4V, r_1=r_2=1Omega and R=2Omega . Find the potential difference across battery 1 and battery 2.