A 1000 hertz a.c. is flowing in a 14 mH coil. Find its reactance.

A 100 Hz a.c. is flowing in a 14 mH coil. Find its reactance.

The resistance of a coil for direct current is 10 ohm. When a.c. is sent through the same coil, its resistance would be

A pure inductor of 50 mH is connected to a.c. supply of 220 V, 50 Hz. Find its inductive reactance, impedance, rms current and peak current.

a) Derive the expression for the current flowing in an ideal capacitor and its reactance when connected to an ac source of voltage V=V_0sin omegat b) Draw its phasor diagram. c) If resistance is added in series to capacitor what changes will occur in the current flowing in the circuit and phase angle between voltage and current.

The virtual current in the a.c. circuit shown in fig, 14.15 is 1.0 A. Find (i) virtual coltage across the coil L (ii) impendance of the circuit and (ii) reactance of the coil.

The impedance of a coil is 141.4 ohm at 50 hertz and its resistance is 100 ohm. What will be its inductance ?

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?

An Ac circuit with f=1000 Hz consists of a cail of 200 mH and negligible resistance. Calculate the voltage across the coil, if the effective current of 5 mA is flowing.

The coefficient of mutual inductance of two coils is 10 mH. IF the current flowing in one coil is 4A then the induced e.m.f in the second coil will be