An rms voltage of 110 V is applied across a series circuit having a resistance `11 Omega` and an impedance `22 Omega`. The power consumed is

110 underset(rms)(V) is applied across a series circuit having resistance 11 Omega and impedance 22 Omega . The power consumed is

An alternating supply of 220 V is applied across a circuit with resistance 22 Omega and impedance 44 Omega . The power dissipated in the circuit is

A series AC circuit has a resistance of 4 Omega and a reactance of 3 Omega . The impedance of the circuit is

A series AC circuit has a resistance of 4 Omega and a reactance of 3 Omega . The impedance of the circuit is

An alternating emf of 110 V is applied to a circuit containing a resistance R of 80 Omega and an inductor L in series. The current is found to lag behind the supply voltage by an angle theta=tan^^(1) (3//4) . Find the : Impedance of the circuit

In a series LCR circuit, the total reactance is 4 Omega and resistance is 3 Omega . Its power factor is

An alternating emf of 200V, 50Hz is applied to an L-R circuit, having a resistances R of 10Omega and an inductance L of 0.05H connected in series. Calculate: Impedance

An alternating emf of 110 V is applied to a circuit containing a resistance R of 80 Omega and an inductor L in series. The current is found to lag behind the supply voltage by an angle theta=tan^(1) (3//4) . Find the : If the inductor has a coefficient of self inductance of 0.1 H, what is the frequency of the applied emf ?

An alternating power supply of 220 V is applied across a series circuit of resistance 10sqrt(3)Omega, capacitive reactance 40 Omega and inductive reactance 30 Omega The respective current in the circuit in the circuit for zero and infinite frequencies are

An AC voltage source is applied across an R-C circuit. Angular frequency of the source is omega , resistance is R and capacitance is C. The current registered is I. If now the frequency of source is changed to omega/2 (but maintaining the same voltage), the current in the circuit is found to be two third. calculate the ratio of reactance to resistance at the original frequency omega .