In the given figure, E=12V, `R_(1)=3Omega, R_(2)=2Omega" and "r=1Omega`. The choose the correct option/s

In an AC series circuit, R = 10 Omega, X_L=20Omega and XC=10Omega .Then, choose the correct options

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

In the given circuit, R, 10Omega R_(2) = 6Omega and E = 10V . Select the correct statements from the following

In the circuit shown in the figure R_(1) =3 Omega,R_(2) = 2 Omega and R_(3) = 5 Omega Emf of the cell epsilon = 6 Volt. (a) Infinitely many 1 Omega resistors are added in parallel to R_(1) and R_(2) . Find current through R_(2) and potential drop across it. (b) Infinitely many 1 Omega resistors are added in series to R_(3) . Find the potential drop across R_(3) and current through it.

In the circuit shown in figure E_1=7V,E_2=1 V,R_1=2Omega, R_2=2Omega and R_3=3Omega respectively. Find the power supplied by the two batteries.

Resistor, inductor and capacitor are connected in parallel to an AC source of emf V=100sinomega t If R=2Omega, X_(L)=2Omega and X_(C)=4Omega, , then choose correct option:

In figure. P=3Omega,Q=2Omega,R=6Omega,S=4Omega and X=5Omega . Calculate the current I.

In the given circuit, E=8 V,R_1=1Omega, R_2=R_3=R_4=5Omega .The current through the resistance R_4 is (in A):

A potential of 400 V is applied at the point A . The value of resistance R_(1)=1000 Omega , R_(2)=2000Omega and R_(3)=1000Omega are connected between points A and G as shown in the figure. Point G is earthed. The measured potential difference by an ideal voltmeter connected across R_(2) is

Find the currents in the Y connection of 3 resistances R_(1) = 10Omega , R_(2)=20Omega and R_(3)= 30 Omega . When the terminals of R_(1) , R_(3) and R_(3) are maintained at potentials V_(1) = 10V, V_(2) =6V and V_(3) = 15V.