An inductor 20 mH , a capacitor `50 muF` and a resistor `40 Omega` are connected in series across a source of emf v = 10 sin 340 t. The power loss in AC circuit is ………. .

An inductor 20 m H , a capacitor 50 mu F and a resistor 40 are connected in series across a source of emf V=10 sin 340 t. The power loss in A.C. circuit is

A series AC circuit contains an inductor (20 mH) , a capacitor (100 muF) , a resistor (50 Omega) and an AC source of 12 V, 50 Hz . Find the energy dissipated in the circuit in 1000 s .

An inductor (L =20 mH) , a resistor ( R = 100 Omega) and a battery (epsilon = 10 V) are connected in series. After along time the circuit is short- circuited and then the battery is disconnected. Find the current in the circuit 1ms after short- circuiting.

A capacitor of capacitance 100 muF and a coil of resistance 50 Omega and inductance 0.5 H are connected in series with a 110 V, 50 Hz AC source. Find the rms value of the current.

An inductor- coil, a capacitor and an AC source of rms voltage 24 V are connected in series. By varying the frequency of the source, a maximum rms current of 6 A is observed. If this inductor coil is connected to a DC battery of emf 12 volt and internal resistance 4Omega , then current through it in steady state is

An inductor (L = 20 mH) , a resistor (R = 100 Omega) and a battery (varepsilon = 10 V) are connected in series. Find (a) the time constant, (b) the maximum current and (c ) the time elapsed before the current reaches 99% of the maximum value.

An inductor of inducance 5.0 H, having a negligible resistance, is connected in series with a 100 Omega resistor and a battery of emf 2.0 V. Find the potential difference across the resistor 20 ms after the circuit is switched on.

A resistor of 200 Omega and a capacitor of 15.0 mu F are connected in series to a 220V , 50Hz ac source . (a) Calculate the current in the circuit, (b) Calculate the voltage (rms) across the resistor and the capacitor . Is the algeraic sum of these voltages more than source voltage ? if yes, resolve the paradox.