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A stone at the end of 1m long string is ...

A stone at the end of `1m` long string is whirled in a vertical circle at a constant speed of `4ms^-1`. The tension in the string is `6N` when the stone is

A

(a) `10ms^-1`

B

(b) `5sqrt3ms^-1`

C

(c) `10sqrt3ms^-1`

D

(d) `20ms^-1`

Text Solution

Verified by Experts

The correct Answer is:
A
`m=1kgimpliesL=10/3m`
`(T_(max))/(T_(min))=4` (i)
and `V_L=sqrt(V_H^2+4gL)`
Tension at highest point, `T_(min)=(mv_H^2)/(K)-mg`
Tension at lowest point,
`T_(max)=mv_L^2//L+mg=(m(v_H^2+4gL))/(L)+mg`
Now Eq. (i) can be written as
`m[(v_H^2+4gL)/(L)+g]=4xxm((v_H^2)/(L)-g)`
`implies v_H=sqrt(3gL)=10ms^-1`
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