119. An AC voltage V = V, sin 100 t is applied to the circuit, the phase difference between current and voltage is found to be “, then V, I Tt/4

An Ac voltage V=V_0 sin 100t is applied to the circuit, the phase difference between current and voltage is found to be pi/4 , then .

An Ac voltage V=V_0 sin 100t is applied to the circuit, the phase difference between current and voltage is found to be pi/4 , then .

An Ac voltage V=V_0 sin 100t is applied to the circuit, the phase difference between current and voltage is found to be pi/4 , then .

An emf of V= V_0sin omegat is applied on a series LCR circuit. IF there is no phase difference between the voltage and current then,

In a LCR series circuit, if the phase difference between applied voltage and current is zero then

In a LCR series circuit,-if -the phase difference between applied voltage and current is zero then

In an A.C. circuit, voltage applied is V = 220 sin 100t. If the impedance is 110 Omega and phase difference between current and voltage is 60^@ , the power consumption is equal to ........

In an AC circuit voltage applied is e=220 sin 100 t. if the impedance is 110Omega and phase difference between the current and voltage is 60^(@) the power consumption is equal to

When a voltage V_(s)=200 sqrt(2) sin (100 t) V is applied to an ac circuit the current in the circuit is found to be i=2 sin [omega t + (pi//4)]A . Find the average power consumed in the circuit.

When a voltage V_(s)=200 sqrt(2) sin (100 t) V is applied to an ac circuit the current in the circuit is found to be i=2 sin [omega t + (pi//4)]A . Find the average power consumed in the circuit.