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Two particles of mass m, constrained to ...

Two particles of mass m, constrained to move along the circumference of a smooth circular hoop of equal mass m, are initially located at opposite ends of a diameter and given equal velocities `v_(0)` shown in the figure. The entire arrangement is located in gravity free space. Their velocity just before collision is :-

A

`(1)/(sqrt3)v_(0)`

B

`(sqrt3)/(2)v_(0)`

C

`(2)/(sqrt3)v_(0)`

D

`(sqrt7)/(3)v_(0)`

Text Solution

Verified by Experts

The correct Answer is:
D

`COLM rArr 2mv_(0) = 3mv_(1) rArr v_(1) = (2)/(3)v_(0)`
`COME rArr 2 xx (1)/(2)mv_(0)^(2) = 2 xx (1)/(2)m(v_(1)^(2) + v_(2)^(2)) + (1)/(2)mv_(1)^(2)`
`rArr 2mv_(0)^(2) = 2m((2)/(3)v_(0))^(2) + 2mv_(2)^(2) + m((2)/(3)v_(0))^(2)`
`rArr 2v_(2)^(2) = 2v_(0)^(2) - 3 ((2)/(3)v_(0))^(2) rArr v_(2) = (v_(0))/(sqrt3)`
Velocity of particle `= sqrt(v_(1)^(2) + v_(2)^(2)) = sqrt((4v_(0)^(2))/(9) + (v_(0)^(2))/(3)) = (sqrt7)/(3)v_(0)`
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