A consequence of using a low-Q transducer is

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Multiple Choice

A consequence of using a low-Q transducer is

Explanation:
Q describes how sharply a transducer resonates at its center frequency. A low-Q transducer is more heavily damped, so its response isn’t confined to a narrow frequency slice. Instead, energy is spread across a wider range of frequencies, giving you a broad bandwidth. The flip side is that the pulses tend to be shorter because the energy decays more quickly. High-Q, by contrast, produces a narrow bandwidth and longer duration pulses.

Q describes how sharply a transducer resonates at its center frequency. A low-Q transducer is more heavily damped, so its response isn’t confined to a narrow frequency slice. Instead, energy is spread across a wider range of frequencies, giving you a broad bandwidth. The flip side is that the pulses tend to be shorter because the energy decays more quickly. High-Q, by contrast, produces a narrow bandwidth and longer duration pulses.

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