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Plane harmonic waves of frequency 500 Hz...

Plane harmonic waves of frequency 500 Hz are produced in air with displacement amplitude of `10mum`. Given that density of air is `1.29(kg)/(m^3)` and speed of sound in air is `340(m)/(s)`. Then

A

the pressure amplitude is `13.8(N)/(m^2)`

B

the energy density is `6.4xx10^-4(J)/(m^3)`

C

the energy flux is `0.22(J)/((m^2s))`

D

only (a) and (c ) are correct

Text Solution

Verified by Experts

The correct Answer is:
A, B, C
Pressure amplitude
`P=(2piaE)/(lamda)`
where `E` is the coefficient of elasticity. We have
`E=v^2rho{becausev=sqrt((E)/(rho))}`
`P_0=(2piav^2rho)/(lamda)=(2piav^2rho)/(((v)/(f)))`
`P_0=2piavfrho=13.8(N)/(m^2)`
Energy density is `2pi^2a^2f^2rho=6.4xx10^-4(J)/(m^3)`
Energy flux is `2pi^2a^2f^2rhov=0.22(J)/((m^2)/(s))`
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