Answer:
Time spent = 1.88 sec.
Explanation:
This is a case of doppler shift of a moving source and a stationary receiver.
f' = cf/(c - u)
Where f' is the apparent frequency = 903 + 51.3 = 954.3 Hz
c = speed of sound = 342 m/s
f = real frequency = 903 Hz
u = speed of sound source = ?
Solving for u we have
954.3 = (342 x 903)/(342 - u)
954.3 = 308826/(342 - u)
326370.6 - 954.3u = 308826
-954.3u = 308826 - 326370.6
-954.3u = -17544.6
u = 18.38 m/s
Using u = u° + gt
Where u = velocity of your friend at that instance = 18.38 m/s
u° = your friend's initial velocity = 0 (your friend started falling from rest)
g = acceleration due to gravity 9.8 m/s^2
t = time spent in the air by your friend.
18.38 = 0 + 9.8t
t = 18.38/9.8 = 1.88 sec.
The Time spent should be 1.88 sec.
We know that
f' = cf/(c - u)
Here
f' is the apparent frequency i.e. calculated by adding these two items
= 903 + 51.3
= 954.3 Hz
c = speed of sound = 342 m/s
f = real frequency = 903 Hz
Now u should be
954.3 = (342 x 903)/(342 - u)
954.3 = 308826/(342 - u)
326370.6 - 954.3u = 308826
-954.3u = 308826 - 326370.6
-954.3u = -17544.6
u = 18.38 m/s
Now
we used u = u° + gt
Here
u = velocity = 18.38 m/s
u° = initial velocity = 0
g = acceleration because to gravity = 9.8 m/s^2
t = time spent
Now
18.38 = 0 + 9.8t
t = 18.38/9.8
= 1.88 sec.
Learn more about the frequency here: https://brainly.com/question/19760359
