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A uniform solid spherical ball is rollin...

A uniform solid spherical ball is rolling down a smooth inclined plane from a height h. The velocity attained by the ball when it reaches the bottom of the inclined plane is v. If ball when it reaches the bottom of the inclined plane is v. If the ball is now thrown vertically upwards with the same velocity v, the maximum height to which the ball will rise is

A

`(5h)/(8)`

B

`(3h)/(5)`

C

`(5h)/(7)`

D

`(7h)/(9)`

Text Solution

Verified by Experts

The correct Answer is:
C
Total kinetic energy of a body which is rolling without slipping is given by `K_("total")=K_("rot")+K_("trans")`
`I=(2)/(5)MR^(2)and v=Romega` (along the diameter)
Where, R is radius of spherical ball,
So, `K_("total")=(1)/(2)((2)/(5)mR^(2))omega^(2)+(1)/(2)mR^(2)omega^(2)`
`=(7)/(10)mR^(2)omega^(2),K=(7)/(10)mv^(2)`
Potential energy = Kinetic energy
`mgh=(7)/(10)mv^(2)rArrv^(2)=(10)/(7)gh`....(i)
For vertical projection
`v^(2)=u^(2)+2gh'rArr(10)/(7)gh=0+2gh'rArrh'=(5)/(7)h`.
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Knowledge Check

  • A uniform solid spherical ball is rolling down a smooth inclined plane from a height h. The velocity attained by the ball when it reaches the bottom of the inclined plane is v. If the ball is now thrown vertically upwards with the same velocity v, the maximum height to which the ball will rise is

    A
    5h/8
    B
    3h/5
    C
    5h/7
    D
    7h/9

  • A uniform solid spherical ball is rolling down a smooth inclined plane from a height h. The velocity attained by the ball when it reaches the bottom of the inclined plane is v. If the ball is now thrown vertically upwards with the same velocity v, the maximum height to which the ball will rise is

    A
    5h/8
    B
    3h/5
    C
    5h/7
    D
    7h/9

  • A solid cylinder rolls without slipping down an inclined plane of height h. The velocity of the cylinder when it reaches the bouom is

    A
    `sqrt((2gh)/(3))`
    B
    `sqrt((4gh)/(3))`
    C
    `sqrt((3gh)/(2))`
    D
    `sqrt(gh)`

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