A particle of mass m is moving in a circ...

A particle of mass `m` is moving in a circular path of constant radius `r` such that its centripetal acceleration `a_(c)` is varying with the time `t` as
`a_(c)=k^(2)r^(3)t^(4)`
where `k` is a constant. The power delivered to the particle by the forces acting on it is

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A particle of mass `m` is moving in a circular path of constant radius `r` such that its centripetal acceleration `a_(c)` is varying with the time `t` as `a_(c)=k^(2)r^(3)t^(4)` where `k` is a constant. The power delivered to the particle by the forces acting on it is

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A particle of mass `m` is moving in a circular path of constant radius `r` such that its centripetal acceleration `a_(c)` is varying with the time `t` as
`a_(c)=k^(2)r^(3)t^(4)`
where `k` is a constant. The power delivered to the particle by the forces acting on it is