In L-R circuit, the a.c. source has voltage 220 volt. If the potential difference across the inductance is 176 volt, the p.d. across the resistance will be

In LR circuit the a.c. source has voltage 220 V. If the potential difference across the inductance is 176 V, the potential difference across the resistance will be

In L-R circit, the A.C. source has voltage 220V . If potential difference across inductor is 176V , the potential difference across the resistor (in Volts) is Kxx33 . Find the value of K

In L-R circit, the A.C. source has voltage 220V . If potential difference across inductor is 176V , the potential difference across the resistor (in Volts) is Kxx33 . Find the value of K

In a LR circuit, the AC source has voltage 220V and potential difference across the resistor is 176V .The power factor of the circuit is

In the series RCL circuit at resonance the applied ac voltage is 220 V. The potential drop across the inductance is 110 V, the potential drop across the resistance is

In an A.C. series circuit of L-R voltage applied is 220 V, if the potential difference across two ends on inductor is 176 V then the potential difference across two ends of the resistance will be ……

In a network as shown in the figure , the potential difference across the resistance 2 R is (the cell has emf E - volt and no internal resistance )

Assertion: An inductance and a resistance are connected in series with an AC circuit. In this circuit the current and the potential difference across the resistance lag behind potential difference across the inductance by an angle pi//2 . Reason: In LR circuit voltage leads the current by phase angle which depends on the value of inductance and resistance both.

In a series L-R circuit, connected with a sinusoidal ac source, the maximum potential difference across L and R are respectivaly 3 volts and 4 volts. At an instant the potemtial difference across resistor is 2 volts. The potential difference in volt, across the inductor at the same instant will be: