A circuit containing 0.1H inductor and a `500muF` capacitor in series is connected to a 230V, `100//pi` Hz supply. The resistacne of the circuit is negligible.
(a) Obtain the current amplitude and rrns values. (b) Obtain the rrns value of potential drops across each element. (c) What is the average power transferred to the inductor? (d) What is the average power transferred to the capacitor? (e) What is the total average power absorbed by the circuit? ['Average' implies average over one cycle.]

A circuit containing a 80 mH inductor and a 60muF capacitor in series is connected to a 230 V, 50 Hz supply. The resistance of the circuit is negligible. a. Obtain the current amplitude and rms values. b. Obtain the rms values of potential drops across each element. c. What is the average power transferred to the inductor? d. What is the average power transferred to the capacitor? e. What is the total average power absorbed by the circuit? ['Average' implies "averaged over one cycle'.]

A circuit containing 80 mH inductor and a 60 muF capacitor in series is connected to a 230 V , 50 Hz supply has a resistance of 15 Omega . Obtain the average power transferred to each element of the circuit, and the total power absorbed.

A 60muF capacitor is connected to a 110V, 60 Hz ac supply , determine the rms value of the current circuit .

The circuit in which an inductor and a capacitor are connected in parallel is called as a …………

A 44mH inductor is connected to 220V, 50 Hz ac supply . Determine the rms value of the current in the circuit .

A 100muF capacitor in series with a 40Omega resistance is connected to 110 V, 60 Hz supply . a. What is the maximum current in the circuit ? b. What is the time lag between the current maximum and the voltage maximum ?

An LC circuit contains a 20 mH inductor and a 50 muF capacitor with an initial charge of 10 mС. The resistance of the circuit is negligible. Let the instant the circuit is closed be t = 0. a. What is the total energy stored initially? Is it conserved during LC oscillations? b. What is the natural frequency of the circuit? c. At what time is the energy stored i. completely electrical (i.e., stored in the capacitor) ii. completely magnetic (i.e., stored in the inductor) d. If a resistor is inserted in the circuit, how much energy is eventually dissipated as heat?

A charged 30 muF capacitor is connected to a 27 mH inductor. What is the angular frequency of free oscillations of the circuit?

A 100 Omega resistor is connected to a 220 V , 50 Hz are supply . a. What is the rms of current in the circuit ? b. What is the net power consumed over a full cycle ?