A small bead of mass m is given an initial velocity of magnitude `v_(0)` on a horizontal circular wire. If the coefficient of kinetic friction is `mu_(k)`, determine the distance travelled before the collar comes to rest.

Choose the correct option: A small collar of mass m is given an initial velocity of magnitude v_(0) on the horizontal circular track fabricated from a slender rod. If the coefficient of kinetic friction is mu_(K) , determine the distance traveled before the collar comes to rest. (Recognize that the friction force depends on the net normal force).

A small collar of mass m is given an intial velocity of magnitude v_(0) on the horizontal circular track fabricated from a slender rod. If the coefficient of kinetic friction is mu_(K) , determine the distance travelled before the collar comes to rest. (Recognize that the friction force depends on the net normal force).

A small hoop of mass m is given an initial velocity of magnitude v_(0) on the horizontal circular ring of radius 'r' . If the coefficient of kinetic friction is mu_(k) the tangential acceleration of the hoop immediately after is release is ( assume the horizontal ring to be fixed and not in contact with any supporting surface )

A small hoop of mass m is given an initial velocity of magnitude v_(0) on the horizontal circular ring of radius 'r' . If the coefficient of kinetic friction is mu_(k) the tangential acceleration of the hoop immediately after is release is ( assume the horizontal ring to be fixed and not in contact with any supporting surface )

A block of mass m is given an initial downward velocity v_(0) and left on inclined place ( coefficient of friction =0.6). The block will

A block is projected along a rough horizontal road with a speed of 10 m/s. If the coefficient of kinetic friction is 0.10, how far will it travel before coming to rest?

A block is projected along a rough horizontal road with a speed of 10 m/s. If the coefficient of kinetic friction is 0.10, how far will it travel before coming to rest?

A block is projected along a rough horizontal road with a speed of 10 m/s. If the coefficient of kinetic friction is 0.10, how far will it travel before coming to rest?