A resistor `20Omega`, inductive reactance `15Omega` and capacitive reactance `15Omega` are connected in series to an AC voltage source `V=200sqrt(2)sin omega t`. Then the maximum current in the 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 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

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 circuit has three elements, a resistance fo 11 Omega , a coil of inductaive reactance 120 Omega and a capacitve reactance of 120 Omega in series and connected to an A.C source of 110 V, 60 Hz . Which of the three elements have minimum potential difference?

In an experiment, 200V AC is applied at the end of an LCR circuit. The circuit consists of an inductive reactance (X_(L)) = 50Omega , capacitive reactance (X_(c)L=50Omega , and capacitives resistance (R ) = 10Omega , The impendance of the circuit is

A 31.4Omega resistor and 0.1H inductor are connected in series to a 200V, 50Hz ac source. Calculate (i) the current in the circuit

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 capacitor of capacitive reactance 79.62 Omega and a resistance of 100 Omega are connected in series across a.c. source. The phase difference between applied emf and current is