Assertion: Averae power in an AC circuit is given by `P= I_(rms)^(2)R`
Reason: In one full cycle, net power is dissipated only along a resistor.

The power in ac circuit is given by P=E_(rms)I_(rms)cosphi . The vale of cos phi in series LCR circuit at resonance is:

The average power dissipated in an AC circuit containing a resistance along is

Study the following circuit and answer any four questions given below: What will be the power dissipated in 4 Omega resistor.

The power dissipated in 3Omega resistor in the circuits as shown in the figure is 2W. The power dissipated in 7Omega resistor will be

The voltage and current in a series AC circuit are given by V = V_0 cos omegat and I = i_0 sin omegat . What is the power dissipated in the circuit?

Assertion : The power in ac circuit is minimum if the circuit has only a resistor. Reason : Power of a circuit is independent of the phase angle.

Derive the expression for the power dissipated by an ideal resistor in an AC circuit .

Assertion (A) : The power consumed in an electric circuit is never negative Reason (R ) : The aveage power consumed in an electric circuit is P = (V^(2))/(R ) = I^(2) R

The potential difference E and current I flowing through the ac circuit is given by E=5 cos (omega t -pi//6) V and I=10 sin (omega)t A . Find the average power dissipated in the circuit.

Assertion : The only element that dissipates energy in an ac circuit is the resistive element. Reason : There are no power losses associated with pure capacitances and pure inductances in an ac circuit.