If two media have identical impedances, what happens to reflections?

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Multiple Choice

If two media have identical impedances, what happens to reflections?

When an ultrasound wave encounters an interface, reflections come from impedance differences between the two media. The acoustic impedance is Z = ρc, and at normal incidence the reflection is zero when Z1 equals Z2, because the boundary then presents no impedance contrast. In that case all the incident energy is transmitted into the second medium, so no reflected wave exists. The wave can still refract if the speeds differ (following Snell’s law), and its speed and wavelength may change, but the frequency remains unchanged across the boundary. That’s why the correct statement is that no reflection occurs. The other ideas contradict how impedance mismatch, refraction, and frequency conservation work.

If two media have identical impedances, what happens to reflections?

Prepare for your Ultrasound Physics Test. Access quizzes and flashcards designed to master the key concepts. Enhance understanding with clear explanations for each question. Get ready for success!

If two media have identical impedances, what happens to reflections?

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