The power factor of a circuit is

The power factor of the circuit shown in the figure is

The power factor of the circuit in fig. is 1//sqrt(2) . The capacitance of the circuit is equal to

In the circuit shown in fin. Calculate the capacitance C of the capacitor, if the power factor of the circuit is unity. Also, calculate Q factor of the circuit.

The impedance of a circuit consister of 3Omega resistance and 4Omega reactance. The power factor of the circuit is

The impedance of a series circuit consists of 3 ohm resistance and 4 ohm reactance.The power factor of the circuit is

A circuit draws a power of 550 watt from a source of 220 volt, 50 Hz . The power factor of the circuit is 0.8 and the current lags in phase behind the potential difference. To make the power factor of the circuit as 1.0, The capacitance should be connected in series with it is

An inductive circuit draws a power 550 W from a 220V-50Hz source. The power factor of the circuit is 0.8. The current in the circuit lags behind the voltage. Show that a capacitor of about (1)/(42 pi) xx10^(-2) F will have to be commected in the circuit to bring its power factor to unity.

If for above circuit the capacitive reactance is two times of inductive Reactance, and resistance R is equal to inductance Reactance then power factor of circuit is .

The applied potential difference in the circuit shown is V=10sin100t where V is in volt and t is in second. If the power factor of the circuit is (1)/(sqrt(2)) ,then the value of capacitance C of the circuit,nearly is

In a series L.R circuit, power of 400 W is dissipated from a source of 250 V, 50 Hz. The power factor of the circuit is 0.8. In order to bring the power factor to unity, a capactor of value C is added in series to the L and R. Taking the value of C as (n/(3pi))muF , then value of n is ____________