An ideal inductor of inductance `50muH` is connected to an AC source of 220V, 50 Hz. Find the inductive reactance.

A pure inductor of 25.0 mH is connected to a source of 220 V. Find the inductive reactance and rms current in the circuit if the frequency of the source is 50 Hz.

An inductor of 30 mH is connected to a 220 V, 100 Hz ac source. The inductive reactance is

A 100W bulb is connected to an AC source of 220V , 50Hz . Then the current flowing through the bulb is

A coil having a resistance of 50.0 Omega and an inductance of 0.500 henry is connected to an AC source of 110 volts, 50.0 cycle/s. Find the rms value of the current in the circuit.

A variable inductor inductor is connected to an AC source. When inductance increases, The reactance

When an inductor coil is connected to an ideal battery of emf 10V, a constant current 2.5 A flows. When the same inductor coil is connected to an ac source of 10V and 50 HZ then the current is 2A. Find out the inductance of the coil.

A coil having self-inductance of 0.7 H and resistance of 165 Omega is connected to an a.c. source of 275 V, 50 Hz. If pi = 22/7 Calculate : Reactance of the coil

(i) State the law that gives the polarity of the induced emf. (ii) A 15.0 muF capacitor is connected to 220 V, 50 Hz source. Find the capacitive reactance and the rms current.

A coil having self-inductance of 0.7 H and resistance of 165Omega is connected to a.c. source of 275 V, 50 Hz. Calculate : (i) Reactance of the coil (ii) Impedance of the coil (iii) Current flowing through the coil.

A coil having self-inductance of 0.7 H and resistance of 165 Omega is connected to an a.c. source of 275 V, 50 Hz. If pi = 22/7 Calculate : Current flowing through the coil.