An alternating current of 1.5 mA and angular frequency `omega = 300 rad/s flows through 10 KOmega resistor and a 0.50 muF capacitor in series. Find the r.m.s. voltage across the capacitor and impedance of the circuit

An alternating current of 1.5 mA and angular frequency omega = 300 radian//sec flows through 10 k Omega resistor and a 0.50 mu F capacitor in series. Find the r.m.s. voltages across the capacitor and impedance of the circuit.

An alternating current of 1.5 mA with angular frequency 100 rad/s flows through a 10 k Omega resistor and a 0.50 mu F capacitor in series. The rms potential drop across the capacitor is

A circuit containing a 20 Omega resistor and 0.1 muF capacitor in series is connected to 230 V a.c. supply of angular frequency 100 rads^(-1) What is the impedance of the circuit?

A circuit containing a 20 Omega resistor and 0.1 mu F capacitor in series is connected to 320 V ac supply of angular frequency 100 " rad " s^(-1) . The impedance of the circuit is

An alternating current of frequency omega=314s^(-1) is fed to a circuit consisting of a capacitor of capacitance C=73 muF and an active resistance R=100 Omega connected in parallel. Find the impedance of the circuit.

An AC generator producing 10V (rms) at 200 rad/s is connected in series with a 50Omega resistor, a 400mH inductor and a 200muF capacitor. The rms voltage across the inductor is

If an alternating current i = i_(m) sin omegat is flowing through a capacitor then voltage drop Delta V_(C) across capacitor C will be

An a.c. source of angular frequency omega is fed across a resistor R and a capacitor C in series. The current registered is I. If you the frequency of source is changed to omega//3 , maintaining the same voltage, current in the circuits is found to be halved. Caculate the ratio of reactance to resistance at the original frequency omega .