For short pulses, the blank factor is equal to the number of cycles in a pulse; the lower the blank factor, the better image quality.

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Prepare for the ARRT Ultrasound Test with comprehensive study tools including flashcards and multiple choice questions, all with detailed explanations. Ace your exam with confidence!

Multiple Choice

For short pulses, the blank factor is equal to the number of cycles in a pulse; the lower the blank factor, the better image quality.

Short pulses come from a transducer that supports a broad range of frequencies. The factor that links resonance quality to pulse length is the Q factor, defined as the center frequency divided by the bandwidth. A lower Q factor means a wider bandwidth, which allows the emitted pulse to be shorter and contain fewer cycles. Fewer cycles in a pulse lead to better axial resolution, thus improving image quality. The bandwidth and damping concepts support this link, but the Q factor specifically describes how the resonance quality controls pulse duration and the number of cycles, making it the best fit for the statement.

For short pulses, the blank factor is equal to the number of cycles in a pulse; the lower the blank factor, the better image quality.

Prepare for the ARRT Ultrasound Test with comprehensive study tools including flashcards and multiple choice questions, all with detailed explanations. Ace your exam with confidence!

For short pulses, the blank factor is equal to the number of cycles in a pulse; the lower the blank factor, the better image quality.

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