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Question

A transverse pulse generated at the bottom of the uniform vertical rope of length L travels in upward direction. The time taken by the pulse to reach the top of the rope will be :

A
L2g
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B
2Lg
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C
Lg
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D
4Lg
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Solution

The correct option is D 4Lg
Velocity of the transverse wave is given by,
v=Tμ
The mass per unit length of rope is,
μ=mL
The tension in rope at a distance x from bottom will be,
Tx=Wx
Tx=(mL)xg=μxg
Therefore the velocity of wave pulse at a distance x from the bottom will be,
vx=Txμ
vx=μxgμ
vx=xg
The velocity of wave pulse is varying with the distance from bottom, hence time taken by pulse to travel through a very small distance dx will be:
dt=dxvx
(Considering that velocity of pulse will not change during such a small distance)
dt=dxgx ....(i)
Now integrating Eq.(i) with proper limits for the wave pulse reaching at the top of rope:
(x=0)(x=L)
and t=0 to t=t
t0dt=1gL01xdx
t=1g[2x ]L0
t=2Lg
t=4Lg
(d) is correct option.

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