In addition to producing images, ultrasound can be used to heat tissues of the body for therapeutic purposes. An emitter is placed against the surface of the skin; the amplitude of the ultrasound wave at this point is quite large. When a sound wave hits the boundary between soft tissue and bone, most of the energy is reflected. The boundary acts like the closed end of a tube, which can lead to standing waves. Suppose 0.70 MHz ultrasound is directed through a layer of tissue with a bone 0.55 cm below the surface. Will standing waves be created? Explain.
In addition to producing images, ultrasound can be used to heat tissues of the body for therapeutic purposes. An emitter is placed against the surface of the skin; the amplitude of the ultrasound wave at this point is quite large. When a sound wave hits the boundary between soft tissue and bone, most of the energy is reflected. The boundary acts like the closed end of a tube, which can lead to standing waves. Suppose 0.70 MHz ultrasound is directed through a layer of tissue with a bone 0.55 cm below the surface. Will standing waves be created? Explain.
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Transcribed Image Text:In addition to producing images, ultrasound can be used to heat tissues of the body for
therapeutic purposes. An emitter is placed against the surface of the skin; the amplitude of
the ultrasound wave at this point is quite large. When a sound wave hits the boundary
between soft tissue and bone, most of the energy is reflected. The boundary acts like the
closed end of a tube, which can lead to standing waves. Suppose 0.70 MHz ultrasound is
directed through a layer of tissue with a bone 0.55 cm below the surface. Will standing waves
be created? Explain.
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