In case of `AC` circuits the relation `V = iZ`, where `Z` is impedance, can directly applied to

In an ac circuit , L = (0.4)/(pi) H and R = 30 Omega . If the circuit has an alternating emf of 200 V, 50 cps, the impedance and the current in the circuit will be :

The electric current in AC circuit is given by the relation i = 3sinomegat + 4cosomegat . The rms value of the current in the circuit in ampere is

In an AC circuit with voltage V and current I , the power dissipated is

AC voltage source (V, omega) is applied across a parallel LC circuit as shown in figure. Find the impedance of the circuit and phase of current.

In an electrical circuits, the voltage, E, in volts, the current, I, in amps, and the opposition to the flow of current, called impedance, Z, in ohms, are related by the equation, E=IZ . What is the impedance, in ohms, of an electrical circuit that has a current of (3+i) amps and a voltage of (-7+i) volts?

In an AC circuit, the impedance is sqrt3 times the reactance, then the phase angle is

Find the impedance of AC circuit at resonance shown in the adjacent figure

Following figure 6 shows a series RCL circuit connected to an ac source which generates an alternating emf of frequency 50 Hz. The readings of the voltmeters V_(1) and V_(2) are 80 V and 60 V respectively. (1) the current in the circuit. (2) the capacitance of the capacitor. (ii) At resonance, what is the relation between impedance of a series LCR circuit and its resistance R?

Following figure shows a series RCL circuit connected to an a.c. source which generates an alternating emf of frequency 50 Hz. The reading of the voltmeter V_(1)andV_(2) are 80 V and 60 V respectively. Find : (1) the current in the circuit. (2) the capacitance C of the capacitor. (ii) At resonance, what is the relation between impedance of a series LCR circuit and its resistance R?

In the above question, can we use v-u+ at equation directly?