Assertion : The alternating current lags behind the e. m. f. by a phase angle of `(pi//2)` when AC flows through an inductor.
Reason : The inductive reactance increases as the frequency of AC saource decreases.

Assertion: The alternating current lags behined the e.m.f. by a phase angle of pi//2 , when AC flows through an inductor. Reason: The inductive reactance increases as the frequency of AC source decreases.

A variable inductor inductor is connected to an AC source. When inductance increases, The reactance

An alternating emf of 110 V is applied to a circuit containing a resistance R of 80 Omega and an inductor L in series. The current is found to lag behind the supply voltage by an angle theta=tan^(1) (3//4) . Find the : If the inductor has a coefficient of self inductance of 0.1 H, what is the frequency of the applied emf ?

The current through an inductor of impedance 10Omega lags behind the voltage by a phase of 60^(@) when just the inductor is connected to the ac source. Now the inductor is connected to a 5Omega resistance in series, then the net impedance of the circuit is

Prove that the current flowing through an ideal inductor connected across a.c. source, lags the voltage in phase by pi/2 .

An alternating emf of 110 V is applied to a circuit containing a resistance R of 80Omega and an inductor L in series. The current is found to lag behind the supply voltage by an angle theta=tan^(-1)(3//4) . Find the : (i) Inductive reactance (ii) Impedance of the circuit (iii) Current flowing in the circuit (iv) If the inductor has a coefficient of self inductance of 0.1 H. What is the frequency of the applied emf?

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 .

Assertion : In an L-R series circuit in AC , current in the circuit will decrease with increase in frequency. Reason : Phase difference between current function and voltage function will increase with increase in frequency.

Assertion : In series L-C-R, AC circuit, current and voltage are in same phase at resonance. Reason : In series L-C-R, AC circuit, resonant frequency does not depend on the value of resistance. Hence, current at resonance does not depend on resistance.