A coil has resistance `30 Omega` and inductive reactance `20 Omega` at 50 Hz frequency. If an ac source of 200V, 100 Hz is connected across the coil, the current in the coil will be

A coil has resistance 30 ohm and inductive reactance 20 ohm at 50 Hz frequency. If an ac source of 200 volts. 100 Hz , is connected across the coil, the current in the coil will be

A coil has a resistance of 10 Omega and an inductance of 0.4 henry. It is connected to an AC source of 6.5 V, 30/(pi), 30/(pi) Hz . Find the average power consumed in the circuit.

A coil having a resistance of 50.0 Omega and an inductance of 0.5 H is connected to an AC source of 110 , v, 50Hz . The impedance of the coil is (appoximately)

A coil having a resistance of 50.0 Omega and an inductance of 0.5 H is connected to an AC source of 110 , v, 50Hz . The rms current in the circuit is

A circuit has a resistance of 11 Omega , an inductive reactance of 25 Omega , and a capacitive resistance of 18 Omega . It is connected to an AC source of 260 V and 50 Hz . The current through the circuit (in amperes) is

A coil of resistance 300 Omega and inductance 1.0 henry is connected across an voltages source of frequency 300//2pi Hz . The phase difference between the voltage and current in the circuit is

A circuit has three elements, a resistance fo 11 Omega , a coil of inductaive reactance 120 Omega and a capacitve reactance of 120 Omega in series and connected to an A.C source of 110 V, 60 Hz . Which of the three elements have minimum potential difference?

A coil having inductance of 5 H and resistance of 30 Omeg has a peak voltage as 9 sqrt(3) volts 50 Hz connected across it . Find the current through the coil and the absorbed power.

A coil of 1 H and 100 Omega resistance has a peak voltage of 5 sqrt2 volt 50 hz connected across it. Calculate the current through the coil and power absorbed.

A coil having a resistance of 50.0 Omega and an inductance of 0.5 H is connected to an AC source of 110 , v, 50Hz . If the frequency of the AC is decreased by a factor of 2 , then the rms current