A man standing in front of a vertical cliff fires a gun and hears the echo after $4$ seconds. He moves $150 m$ towards the cliff and again fires the gun. This time, he hears the echo after $3.6$ seconds. Find the distance of the cliff from his first position.

$7500 m$

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$750 m$

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$550 m$

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$1500 m$

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Solution

The correct option is D
$1500 m$

Given:
Time to hear first echo, $t_{1} = 4 s$
Time to hear second echo, $t_{2} = 3.6 s$
Distance between first and second source locations, $s = 150 m$

Let the distance of cliff from the first location be $d$
Let the velocity of sound be $v$

Since echo is a reflection of the original sound, it will travel distance equal to twice the distance between man and cliff i.e., $2 d$ .
From definition of speed,
$v = \frac{2 d}{t_{1}}$ ...........(i)

Now, after travelling 150 m towards the cliff, distance travelled by sound, $d_{2} = 2 (d - 150) = 2 d - 300$
Again from definition of speed,
$v = \frac{2 d - 300}{t_{2}}$ ................(ii)

Equating the value of $v$ from equations (i) and (ii), we get:
$\frac{2 d - 300}{t_{1}} = \frac{2 d}{t_{2}}$
$\frac{2 d - 300}{3.6} = \frac{2 d}{4}$

Solving the above equation, we get
$d = 1500 m$

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A man standing in front of a vertical cliff fires a gun and hears the echo after $4$ seconds. He moves $150 m$ towards the cliff and again fires the gun. This time, he hears the echo after $3.6$ seconds. Find the distance of the cliff from his first position. (Assume velocity of sound is not known)