If resistance R `= 10 Omega`, inductance L = 2 mH and capacitance `C = 5 muF` are connected in series to an AC source of frequency 50 Hz, then at resonance the impedance of circuit is

If resistance R =100 Omega, inductance L = 12mH and capacitance C=15muF are connected in series to an AC sources, then at resonance the impedance of circuit is

A resistance (R) = 12 Omega, inductance (L) = 2 henry and capacitive reactance C = 5 mF are connected in series to an ac generator

A resistance (R = 12 omega), an inductor (L = 2 H) and a capacitor (C = 5 muF) are connected to an AC generator of frequency 50 Hz. Which of the following statement is correct

In a R, L, C circult, three elements is connected in series by an ac source. If frequency is less than resonating frequency then net impedance of the circuit will be

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

A resistor R an inductance L and a capacitor C are all connected in series with an ac supply The resistance of R is 16ohm and for the given frequency the inductive reactance of L is 24 ohm and the capacitive reactance of C is 12ohm If the current in the circuit is 5A find (a) the potential difference across R,L and C (b) the impedance of the circuit (c) the voltage of the ac supply and (d) the phase angle .

A resistor R an inductance L and a capacitor C are all connected in series with an ac supply The resistance of R is 16ohm and for the given frequency the inductive reactance of L is 24 ohm and the capacitive reactance of C is 12ohm If the current in the circuit is 5A find (a) the potential difference across R,L and C (b) the impedance of the circuit (c) the voltage of the ac supply and (d) the phase angle .

A circuit has a resistance of 11 Omega , an inductive reactance of 25 Omega , and a capacitive resistance of 18 Omega . It is connected to an AC source of 260 V and 50 Hz . The current through the circuit (in amperes) is

A 0.21 H inductor and a 12 Omega resistance are connected in series to a 220 V, 50 Hz ac source. The current in the circuit is

A coil of inductance L=5H and resistance R=55Omega is connected in series to the mains alternating voltage of frequency f=50Hz in series. What can be the non-zero capacitance of the capacitor (in muF ) connected in series with the coil, if the power dissipated has to remain unchanged. (take pi^(2)=10 )