Respuesta :
Answer:
(a). 16.741 m/s
(b). 15.75 m/s
Explanation:
In the question,
Height of the cliff, h = 37 m
Time taken to reach the sound to us = 2.92 s
Speed of the sound in air at room temperature = 343 m/s
Now,
Let us say the speed of the ball = u m/s
So,
Time taken by the ball to reach at the bottom, t is given by,
[tex]t=\sqrt{\frac{2h}{g}}\\t=\sqrt{\frac{2\times 37}{9.8}}\\t=2.747\,s[/tex]
So,
Splash is heard after = 2.92 s
So,
Time taken by sound to travel the shortest distance along the hypotenuse of the triangle thus formed is,
t = 2.92 - 2.747
t = 0.172 s
Now,
Distance traveled by sound is given by,
[tex]Distance=343\times 0.172\\Distance=59.02\,m[/tex]
So,
In the triangle using the Pythagoras Theorem,
Horizontal distance traveled is,
[tex]D=\sqrt{59.02^{2}-37^{2}}\\D=45.99\,m[/tex]
So,
Speed of throwing of ball is given by,
[tex]Distance=Speed\times Time\\45.99=u\times 2.747\\u=16.741\,m/s[/tex]
Therefore, the speed of the ball = 16.741 m/s.
(b).
If,
Speed of sound = 331 m/s
So,
Distance traveled by sound is,
[tex]Distance=331\times 0.172\\Distance=56.932\,m[/tex]
So,
Distance traveled in the horizontal by ball is,
[tex]Distance=\sqrt{56.932^{2}-37^{2}}\\Distance=43.269\,m[/tex]
So,
Speed of the ball thrown is given by,
[tex]Speed=\frac{Distance}{Time}\\Speed=\frac{43.269}{2.747}\\Speed=15.75\,m/s[/tex]
Therefore, the speed of the ball = 15.75 m/s.
