Assertion : Faraday's law are consequences of conservation of energy .
Reason : In a purely resistive of A.C. circuit ,the current legs behind the e.m.f. in phase .

Assertion: Faraday's laws are consequences of conservation of energy. Reason: In a purely resistive AC circuit, the current lags behind the e.m.f. in phase

Assertion : At resonance, LCR series circuit have a minimum current. Reason : At resonance, in LCR series circuit, the current and e.m.f. are not in phase with each other.

The phase relationship between current and voltage in a pure resistive circuit is best represented by

Asseration:Lenz's law violates the principle of conservation of energy. Reason: Induced e.m.f. opposes always the change in magnetic flux responsible for its production.

Asseration:Lenz's law violates the principle of conservation of energy. Reason: Induced e.m.f. opposes always the change in magnetic flux responsible for its production.

Assertion:- Kirchhoff's voltage law indicates that field is conservative. Reason:- Potential difference between two points in a circuit does not depend on path

Assertion : In a purely inductive or capacitive circuit, the current is referred to as wattless currents. Reason : No power is dissipated in a purely inductive or capacitive circuit even though a current is flowing in the circuit.

A cell of e.m.f. E and internal resistance r is used to send current to an external resistance R. Write expressions for (a) the total resistance of circuit, (b) the current drawn from the cell, (c) the p.d. across the cell, and (d) voltage drop inside the cell.

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.

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.