•• P34 A sphere or cylinder of mass M, radius R, and moment of inertia I rolls without slipping down a hill of height h, starting from rest. As explained in Problem P33, if there is no slipping w = vcM/R. (a) In terms of the given variables (M, R, I, and h), what is v, (c) If the object is a uniform-density solid cylinder, what is vy at the bottom of the hill? (d) If the object is a uniform-density sphere, what is vay at the bottom of the hill? An interesting experiment that you can perform is to roll various objects down CM at the bottom of the hill? (b) If the object is a thin hollow cylinder, what is v, CM at the bottom of the hill? an inclined board and see how much time each one takes to reach the bottom.

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•• P34 A sphere or cylinder of mass M, radius R, and moment of inertia I rolls without slipping down a hill of height h, starting from rest. As explained in Problem P33, if there is no slipping w = vCM/R. (a) In terms of the given variables (M, R, I, and h), what is v, (c) If the object is a uniform-density solid cylinder, what is vay at the bottom of the hill? (d) If the object is a uniform-density sphere, what is vay at the bottom of the hill? An interesting experiment that you can perform is to roll various objects down CM at the bottom of the hill? (b) If the object is a thin hollow cylinder, what is v, CM at the bottom of the hill? an inclined board and see how much time each one takes to reach the bottom.