A resistor of `100 Omega`, inductance of 1 H and a capacitor of capacitance `10.13 xx 10^(-6) F` are in series. This combination is conneceted to an A.C. source of 200 V, 50 Hz. Find the current in the circuit and the P.D. across the resistor.

A resistor of 100 Omega , inductance of 1 H and a capacitor of capacitance 10.13 xx 10^(-6) F are in series. This combination is connected to an A.C source of 200 V, 50 Hz. Find this current in the circuit and the p.d. across the resistor.

An inductance of 0.5 H, a capacitor of capacitance 10^(-9)F and a resistane of 100Omega are connected in series across AC source of emf 10 V. the current through the circuit at resonance is

An inductance of 0.5 H,a capacitor of capacitance 10^-9 F and a resistance of 100 Omega are connected in series across A.C. source of e.m.f. 10 V.The current through the circuit at resonance is

A resistor of 100Omega , a pure inductance coil of L=0.5 H and capacitor are in series in a circuit containing an a.c. source of 200 V , 50 Hz . In the circuit , current is ahead of the voltage by 30^@ . Find the value of the capacitance.

A resistor of 50 ohm, an inductor of (20//pi) H and a capacitor of (5//pi) mu F are connected in series to an a.c. source 230 V, 50 Hz. Find the current in the circuit.

An inductance of (200/pi) mH, a capacitance of ((10^(-3))/(pi)) F and a resistance of 10 Omega are connected in series with an a.c source 220 V, 50 Hz.The phase angle of the circuit is

A 50 Omega resistor is connected in series with an inductor of 0.2 H and capacitor with capacitive reactance 40 Omega . The combination is further connected to an AC source 180 V , 50 Hz. What will be the phase angle between current and voltage ? Also find the value of rms current in circuit.

A resistor of 12 Omega , a capacitor of reactance 14 Omega and a pure inductor of inductance 0.1 H are joined in series and placed across a 200 V, 50 Hz a.c. supply. Calculate (i) The current in the circuit Take pi = 3.