In the roto-ride, a person is pinned to the side of a rotating, open-bottomed cylinder without falling (owing to the frictional force between the roto-ride and the person). Which statement below is true? the minimum speed such that the person does not slip is independent of the mass of the person the minimum speed such that the person does not slip is independent of the radius of the roto-ride the minimum speed such that the person does not slip is independent of the coefficient of static friction Two of the above are true Three of the above are true. NOTA

In the roto-ride, a person is pinned to the side of a rotating, open-bottomed cylinder without falling (owing to the frictional force between the roto-ride and the person). Which statement below is true? the minimum speed such that the person does not slip is independent of the mass of the person the minimum speed such that the person does not slip is independent of the radius of the roto-ride the minimum speed such that the person does not slip is independent of the coefficient of static friction Two of the above are true Three of the above are true. NOTA

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Question

the minimum speed such that the person does not slip is independent of the mass of the person

the minimum speed such that the person does not slip is independent of the radius of the roto-ride

the minimum speed such that the person does not slip is independent of the coefficient of static friction

Two of the above are true

Three of the above are true.

NOTA

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