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

The question given below consist of an assertion (A) and a reason ( R). Use the following key to choose the appropriate answer to these questions from the codes (a), (b), ( c) and (d) given below: (a) Both A and R are true and R is the correct explanation of A. (b) Both A and R are true but R is NOT the correct explanation of A. (c) A is true but R is false. (d) A is false and R is also false. Assertion: In series LCR resonance circuit, the impedence is equal to the ohmic resistance. Reason: At resonance, the inductive reactance is equal and opposite to the capacitive reactance.

In series LCR circuit, at resonance impedance

Direction. In the follwing questions, a statement of assertion is followed by a statement of reason. While answering a question, you are required to choose the correct are out of the given four responses and mark it as (A). If both assertion and reason are true and reason is the correct explanation of the assertion, (B) if both assertion and reason are true but reason is not correct explanation of the assertion. (C) if asssertion is true, but reason if false, (D) if both assertion and reason are false Assertion : In series LCR-circuits, the resonance occurs at one frequency only. Reason : At resonance, the inductive reactance is equal and opposite to the capacitve reactance.

In series LCR circuit at resonance,

In series LCR circuit at resonance,

In series LCR circuit at resonance

In series LCR circuit at resonance

What are meant by inductive reactance and capacitive reactance of a circuit?