" In a series circuit "R=300Omega,L=0.9H,C=2.0 mu F" and "omega=1000rad/sec" ,The impendence of the circuit is "

In a series circuit R=300Omega, L=0.9H, C=2.0 muF and omega=1000rad//sec . The impedence of the circuit is

In an L-C-R series circuit R = 10Omega, X_(L) = 8Omega and X_(C) = 6Omega the total impedance of the circuit is -

A sinusoidal voltage of peak value 293 V and frequency 50 Hz is applie to a series LCR circuit in which R=6 Omega, L=25 mH and C=750mu F . The impedance of the circuit is

An LCR series circuit contains L = 8 H, C = 0.5 muF and R =100 Omega The resonant frequency of the circuit is .

A sinusoidal voltage of peak value 283 V and frequency 50 Hz is applied to a series LCR circuit in which R = 3 Omega, L = 25.48 mH , and C = 796 mu F . Find the impdedance of the circuit.

In series LCR circuit 3 = Omega X_(L) = 8 Omega, X_(C) = 4 Omega , the impendance of the circuit is:

In a series RC circuit, R = 30 ohm, C = 0.25 mu F , V = 100 V, omega = 10000 rad//s . Find the current in the circuit and calculate the voltage across the resistor and capacitor. Is the algebraic sum of these voltages more than the source voltage ? If yes, resolve the paradox.

An alternating e.m.f. of 200V,50Hz is applied to a series L-R circuit. If L=(0.4)/(pi) henry and R=30 Omega , then the impendance of the circuit and the current in the circuit will be

In a series L-C-R circuit X_(L)350 Omega, X_(C)=200 Omega and R = 150 Omega .