Question

A plane sound wave in air at 20°C, with wavelength 0.645 m, is incident on a smooth surface of water at 25°C, at an angle of incidence of 3.65°. How do you determine the angle of refraction for the sound wave and the wavelength of the sound in water?

Answer 1

Angle of refraction `theta_rapprox 0.8^o`
Wavelength in water`approx0.1478m`

Explanation:

In air at `20^o C` the speed of sound `v_s^(air) = 343m//s`.
In fresh water at `25^oC` the speed of sound `v_s^(water)=1497 m//s`

Using the following relation between angle of incidence `theta _i`, angle of refraction `theta_r`, wavelengths and velocity of the sound wave in different media

`(sin theta _i/sin theta_r)=lambda_(air)/lambda_(water)=v_(water)/v_(air)`

1. For calculating angle of refraction the above equation between angle and velocity becomes

`(sin theta _i/sin theta_r)=v_(water)/v_(air)`

`(sin 3.65/sin theta_r)=1497/343`
`theta_r=sin^(-1)(0.06366times 343/1497)`
`theta_r=sin^(-1)(0.01459)`
2. To calculate the wavelength in water

`lambda_(air)/lambda_(water)=v_(water)/v_(air)`
Inserting the values

`0.645/lambda_(water)=1497/343`
`lambda_(water)=0.645 times343/1497`