A particle moving in a circular path of ...

A particle moving in a circular path of radius (r) with velocity (V), Then centripetal acceleration of the particle is

`V^2 r`

`(r)/(V^2)`

`(V)/(r)`

`(V^2)/(r)`

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A body moving along a circular path of radius R with velocity V , has centripetal acceleration a If its velocity is made equal to 2v , then its centripetal acceleration is

`a/4`

`a/2`

A particle of mass m is moving on a circular path of radius r . Centripetal acceleration of the particle or radius r . Centripetal acceleration of the particle depends on time t according to relation a_(c ) = kt^(2) . What power is delievered to the particle ?

mrkt

`mrkt^(2)`

`mr^(2)kt`

zero

A particle is moving on a circular path of radius 0.3 m and rotaing at 1200 rpm. The centripetal acceleration of the particle

`4732.60 ms^(-2)`

`47.3260 ms^(-2)`

`4.73260ms^(-2)`

`473.260 ms^(-2)`

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A particle moving in a circular path of radius (r) with velocity (V), Then centripetal acceleration of the particle is

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A body moving along a circular path of radius R with velocity V , has centripetal acceleration a If its velocity is made equal to 2v , then its centripetal acceleration is

A particle of mass m is moving on a circular path of radius r . Centripetal acceleration of the particle or radius r . Centripetal acceleration of the particle depends on time t according to relation a_(c ) = kt^(2) . What power is delievered to the particle ?

A particle is moving on a circular path of radius 0.3 m and rotaing at 1200 rpm. The centripetal acceleration of the particle

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