3. The uniform slender bar of length, 1, and mass, M, starts from rest in the horizontal position. It impacts the little mass, m, when it is in the vertical position. The little mass can be treated as a point mass. Immediately after the collision, the point mass has exactly the same velocity as that of the bar's tip. How far will the point mass slide before it comes to a stop? m M Used with permission from "Engineering Mechanics: Dynamics," McGill/King, 4th Ed., 2003 3M²1 2μ(M+3m)² Distance travelled by small mass= Distance travelled by small mass= Distance travelled by small mass= None of the above 2M²1 3μ(M+3m)² X M²1 μ(M+3m)²

box the final answer (indicate which option is correct)

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3. The uniform slender bar of length, 1, and mass, M, starts from rest in the horizontal position. It impacts the little mass, m, when it is in the vertical position. The little mass can be treated as a point mass. Immediately after the collision, the point mass has exactly the same velocity as that of the bar's tip. How far will the point mass slide before it comes to a stop? m M Distance travelled by small mass= Distance travelled by small mass= Distance travelled by small mass= None of the above -1 Used with permission from "Engineering Mechanics: Dynamics," McGill/King, 4th Ed., 2003 3M²1 2μ(M+3m)² 2M²1 3μ(M+3m)² X M²1 μ(M+3m)²