An a.c. voltage of r.m.s. value 2 V is applied to a parallel combination of inductor L and capacitor C in which L =2 mH and `C = 3.2 mu F`.Calculate
current through each branch at resonance

An A.C. voltage of r.m.s. value IV is applied to a parallel combination of inductor L = 10mH and capacitor C = 4muF . Calculate the resonant frequency and current through each branch at resonance.

An A.C. voltage of r.m.s. value 2 V is applied to a parallel combination of L and C in which L=2mH and C=3.2 mu F .The current through each branch at resonance is

An A.C. voltage of r.m.s. value 1 V is applied to a parallel combination of inductor L = 10 mH, and capacitor 4 muF . Calculate the resonant frequency and current through each branch and resonance.

An A.C. voltage is applied to parallel combination of inductance 2 mH and a capacitor 3.2 muF . Calculate the resonant frequency.

An A.C. voltage in volts is given by e = 310 sin 314 t. It is applied to a series combination of 25 mu F capacitor, inductor of 0.1 henry and a 24 Omega resistor.Calculate reactance and impedance.

A sinusoidal voltage of peak value 283V and frequency 50 Hz is applied to a series LCR circuit in which R = 3 Omega , L = 25.48 mH and C = 796 muf . Find:-The power dissipated in the surface.

A sinusoidal voltage of peak value 283V and frequency 50 Hz is applied to a series LCR circuit in which R = 3 Omega , L = 25.48 mH and C = 796 muf . Find:-The power factor

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

A sinusoidal voltage of peak value 283V and frequency 50 Hz is applied to a series LCR circuit in which R = 3 Omega , L = 25.48 mH and C = 796 muf . Find:-The phase difference between the voltage across source and the currents