In the pure inductive circuit, the curves between frequency f and reciprocal of inductive reactance `1//X_(L)` is

In pure inductive circuit, the curves between frequency f and reciprocal of inductive reactance 1//X_(L) is

With increase in frequency of an AC supply, the inductive reactance:

In a pure capacitive circuit if the frequency of ac source is doubled, then its capacitive reactance will be

In an AC circuit, a resistance of Rohm is connected is series with an inductance L . If phase angle between volage and current be 45^(@) , the value of inductive reactance will be

In an AC circuit, a resistance of Rohm is connected in series with an inductance L . If phase angle between volage and current be 45^(@) , the value of inductive reactance will be

The phase angle between current and voltage in a purely inductive circuit is

Assertion : The inductive reactance limits amplitude of the current in a purely inductive circuit. Reason : The inductive reactance is independent of the frequency of the current.

Assertion : In series LCR resonance circuit, the impedance is equal to the ohmic resistance. Reason : At resonance, the inductive reactance exceeds the capacitive reactance.

A resistor R an inductance L and a capacitor C are all connected in series with an ac supply The resistance of R is 16ohm and for the given frequency the inductive reactance of L is 24 ohm and the capacitive reactance of C is 12ohm If the current in the circuit is 5A find (a) the potential difference across R,L and C (b) the impedance of the circuit (c) the voltage of the ac supply and (d) the phase angle .

A resistor R an inductance L and a capacitor C are all connected in series with an ac supply The resistance of R is 16ohm and for the given frequency the inductive reactance of L is 24 ohm and the capacitive reactance of C is 12ohm If the current in the circuit is 5A find (a) the potential difference across R,L and C (b) the impedance of the circuit (c) the voltage of the ac supply and (d) the phase angle .