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Question

A stone of mass 3 kg tied to a light string of length l=710 m is whirled in a circular path in a vertical plane. If the ratio of the maximum to minimum tension in the string is 9, find the speed of the stone at the highest point.

A
3.5 m
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B
2.5 m
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C
7 m
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D
27 m
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Solution

The correct option is A 3.5 m
Let the velocity at the highest point be VP
Let the velocity at the lowest point be VR

From conservation of mechanical energy,12mVp2+mg(2l)=12mVR2

Vp2+4gl=VR2

At the lowest point, T is maximum,

Using Newton's second law at the lowest point we have,

Tmaxmg=mVR2l

Tmax=mg+mVR2l

At the highest point, T is minimum.

Using Newton's second law at the highest point we have,

Tmin+mg=mVP2l

Tmin=mVP2lmg

TmaxTmin=9

mVR2l+mgmV2plmg=9

VR2+glVP2gl=9


As, VR2=VP2+4gl

VP2+5glVP2gl=9

8VP2=14gl

VP=74gl=74×10×710=3.5 m/s

Hence, option (b) is the correct answer.
Why this Question ?
Key point- Always remember that in a vertical circular motion, the tension is maximum at the lowest point and minimum at the highest point.



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