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Two block of A and B of mass 1kg and 2kg...

Two block of A and B of mass 1kg and 2kg are hung from light pulley. Initially the block B is held stationary. At `t=0` block B is given velocity 10m//s in upward direction. String and pulley are light and there is no friction anywhere.

Time till which acceleration (magnitude and direction both) of the two block ramains same

A

`1/2 sec`

B

1 sec

C

2 sec

D

Acceleration of the blocks always remains same.

Text Solution

Verified by Experts

The correct Answer is:
B
String will be taught when distance travelled by the two blocks become equal i.e.
`l_(A)=l_(B)Rightarrow1/2g t^(2)=10t-1/2g t^(2)Rightarrowt=1sec.`
Before t=1 sec acceleration of both block will be equation t 'g' in downward direction
After =1 sec, there will jerk in string and velocity of A and B will be given by
`mv_(A)+2mv_(B)=m u_(B)`(u_(A)=velocity of A at t=1 sec)
`Rightarrow v_(A)=u_(A)/3 and v_(A)=u_(A)/3(:.v_(A)=v_(B)`after string becomes thought)
`v_(A)=v_(B)=10//3 m//s`
:. velocity of 'B' when 'A' has ascended by 5m is given by
`v=sqrt((10/3)^(2)+2xx10/3xx10)=10/3sqrt(7)m//s` (:. After t=1sec, a=`10/3 ms^(2))`
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