Physicians use high-frequency (f=1MHz to 5MHz) sound waves, called ultrasound, to image internal organs. The speed of these ultrasound waves is 1480 m/s in muscle and 344 m/s in air. We define the index of refraction of a material for sound waves to be the ratio of the speed of sound in air to the speed of sound in the material. Snell's law then applies to the refraction of sound waves.
Part A: At what angle from the normal does an ultrasound beam enter the heart if it leaves the lungs at an angle of 9.79∘ from the normal to the heart wall? (Assume that the speed of sound in the lungs is 344 m/s .)
Part B: What is the critical angle for sound waves in air incident on muscle?
Part B:
Physicians use high-frequency (f=1MHz to 5MHz) sound waves, called ultrasound, to image internal organs. The speed...
PART A Snell's law describes the relationship between the angle a light ray makes as it leaves a surface, the angle it makes incident on the surface, and the indices of refraction on both sides of the surface. If light incident in air at angle of 30 degrees from the normal onto glass with an index of refraction of 1.5 -- Pick those answers that apply Inside the material, the light leaving the surface is closer to the surface, makes...