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 20xx10^(-3)H a capacitor 100 (mu)F , and a resistor 50 Omega are connected in series across a source of emf V=10 sin 341 t . Find the energy dissopated in the circuit in 20 min. If the resistance is removed from the circuit and the value of inductance is doubled, then find the variation of current with time in the new circuit.

An inductor 20 xx 10^(-3) henry, a capacitor 100 mu F and a resistor 50 Omega are connected in series across a source of emf V = 10 sin 314 t . (a) The energy dissipated in the circuit in 20 minutues is 951 J . (b) If resistance is removed from the circuit and the value of inductance is doubled, then the varation of current with time in the new circuit is 0.52 cos (314 t)

An inductor 20 mH , a capacitor 100 muF and a resistor 50 Omega are connected in series across a source of emf, V=10 sin 314 t . The power loss in the circuit is

An inductor 20mH, 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

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 . If resistance is removed from the circuit and the value of inductance is doubled, the variation of current with time in the new circuit is

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 . If resistance is removed from the circuit and the value of inductance is doubled, the variation of current with time in the new circuit is