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A bead is connected with a fixed disc of...

`A` bead is connected with a fixed disc of radius `R` by an inextensible massless string in a smooth horizontal plane. If the bead is pushed with a velocity `v_(0)` prependicular to the string, the bead moves in a curve and consequently collapses on the disc. Then

A

Initial angular acceleration of the particle is `(v_(0)^(2))/(l^(2))`

B

Initial angular acceleration of the particle is `(v_(0)^(2)R)/(l^(3))`

C

Distance travelled by the particle till it collides with the disc is `(l^(2))/(2R)`

D

Distance travelled by the particle till it collides with the disc is `(l^(2))/(R )`

Text Solution

Verified by Experts

The correct Answer is:
B, C
`w=(v_(0))/(l-Rtheta)`
`(d theta)/(dt)=(v_(0))/((l-Rtheta))`
`underset(0)overset(l//R)(int)d theta(l-Rtheta)=underset(0)overset(t)(int)v_(0)dt`

`(l^(2))/(2R)=v_(0)t`
`t=(l^(2))/(2v_(0)R)`
Distance travelled `= v_(0)t=(l^(2))/(2R)......(i)`
`alpha=w(dw)/(d theta)=(v_(0))/(l-Rtheta)xx(v_(0)R)/(l-Rtheta)^(2)=(v_(0)^(2)R)/(l-Rtheta)^(3)`
for `theta=0`
`alpha =(v_(0)^(2)R)/(l^(3))`
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Knowledge Check

  • Three identical balls are connected by light inextensible strings with each other as shown and rest over a smooth horizontal table. Length of each string is l . At moment t = 0 , ball B is imparted a velocity v_(0) perpendicular to the strings and then the system is left on its own. Calculate the velocity of A at the above given instant.

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    `(2v_(0))/3`
    C
    `(2v_(0))/6`
    D
    none of these

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