In a parallel resonant circuit, how does the Q-factor influence the bandwidth around resonance?

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Multiple Choice

In a parallel resonant circuit, how does the Q-factor influence the bandwidth around resonance?

Explanation:
In a resonant circuit, the Q-factor tells us how sharp the resonance is and how much energy is stored relative to what's lost each cycle. The bandwidth around resonance is tied to this sharpness: a high Q means the circuit responds strongly only in a very narrow frequency range near the resonant frequency. The relationship is Δf ≈ f0 / Q, so increasing Q reduces the bandwidth and makes the resonance narrower. Conversely, lowering Q broadens the peak and widens the bandwidth. This is why a parallel resonant circuit with a higher Q has a narrower bandwidth around the resonance.

In a resonant circuit, the Q-factor tells us how sharp the resonance is and how much energy is stored relative to what's lost each cycle. The bandwidth around resonance is tied to this sharpness: a high Q means the circuit responds strongly only in a very narrow frequency range near the resonant frequency. The relationship is Δf ≈ f0 / Q, so increasing Q reduces the bandwidth and makes the resonance narrower. Conversely, lowering Q broadens the peak and widens the bandwidth. This is why a parallel resonant circuit with a higher Q has a narrower bandwidth around the resonance.

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