A series AC circuit containing an inductor `(20 mH),` a capacitor (120 `mu F`) and a resistor (`60 Omega`) is driven by an Ac source of 24 V/50Hz. The energy dissipated in the circuit in 60 s 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 20xx10^(-3) a capacitor 100(mu)F and a resistor 50 Omega are connected in series across a source of emf V=10 sin 314 t . Then the energy dissipated in the circuit in 20 mim is

An inductor 20 mH , a capacitor 100muF and a resistor 50Omega are connected in series across a source of emf V=10sin314t . The power loss in the circuit is

In a series AC circuit containing a capacitor and a resistor only

An inductor 20 mH , a capacitor 50 muF and a resistor 40 Omega are connected in series across of emf V=10 sin 340 t . The power loss in A.C. circuit is

A inductor of reactance 1 Omega and a resistor of 2 Omega are connected in series to the terminals of a 6 V (rms) a.c. source. The power dissipated in the circuit is

A inductor of reactance 1 Omega and a resistor of 2 Omega are connected in series to the terminals of a 6 V (rms) a.c. source. The power dissipated in the circuit is

A inductor of reactance 1 Omega and a resistor of 2 Omega are connected in series to the terminals of a 6 V (rms) a.c. source. The power dissipated in the circuit is

A series L-C-R circuit contains inductancle 5 mH, capacitor 2muF and resistance 10 Omega . If a frequency AC source is varied, then what is the frequency at which maximum power is dissipated?

An inductance L , a capacitor of 20mu F and a resistor of 10Omega are connected in series with an AC source of frequency 50 Hz . If the current is in phase with the voltage, then the inductance of the inductor is