A whistle producing sound waves of frequency 9500Hz is approaching a stationary person with speed v m per second .the velocity of sound is 300m per s .if the person can hear frequencies upto a max of 10000 Hz the max value of v upto which he can hear is
ans 15m per second
ans 15m per second
The apparent frequency (n‘) in terms of all possible variables is given by
n‘ =n(v+w+vL)/(v+w-vS) where ‘n’ is the real frequency of sound, ‘v’ is the velocity of sound, ‘w’ is the velocity of wind, ‘vL‘ is the velocity of listener and ‘vS‘ is the velocity of the source of sound. Note that in the above expression all velocities are in the same direction and the source is behind the listener and is therefore approaching the listener.
Since the wind velocity is zero and the listener is stationary in the first case, the above expression reduces to:
n‘ = nv/(v-vS) (The apparent frequency is therefore greater than the real frequency).
As the person can hear frequencies upto 10000 Hz only, the maximum value of vS upto which he can hear the whistle is given by
10000 = 9500×300/(300-vS)
Therefore, 300 – vS= 285 so that vS = 15 ms-1.
The apparent frequency (n‘) in terms of all possible variables is given by
n‘ =n(v+w+vL)/(v+w-vS) where ‘n’ is the real frequency of sound, ‘v’ is the velocity of sound, ‘w’ is the velocity of wind, ‘vL‘ is the velocity of listener and ‘vS‘ is the velocity of the source of sound. Note that in the above expression all velocities are in the same direction and the source is behind the listener and is therefore approaching the listener.
Since the wind velocity is zero and the listener is stationary in the first case, the above expression reduces to:
n‘ = nv/(v-vS) (The apparent frequency is therefore greater than the real frequency).
As the person can hear frequencies upto 10000 Hz only, the maximum value of vS upto which he can hear the whistle is given by
10000 = 9500×300/(300-vS)
Therefore, 300 – vS= 285 so that vS = 15 ms-1.
