R © 2013 Pearson Education, Inc. A hollow cylinder of mass m, radius r, and moment of inertia I mr starts from rest at a height h and rolls without slipping down the ramp toward a loop-the-loop of radius R >> r as shown in the figure. Which is the correct equation to solve for the speed v of the cylinder when it is at the furthest right part of the loop as shown in the figure? O g(h – R) = ¿v² %3D O g(h – R) = v² O g(h – 2R) = TOU %3D 10 O g(h – 2R) = v² O g(h – R) = ¿v² +o?
R © 2013 Pearson Education, Inc. A hollow cylinder of mass m, radius r, and moment of inertia I mr starts from rest at a height h and rolls without slipping down the ramp toward a loop-the-loop of radius R >> r as shown in the figure. Which is the correct equation to solve for the speed v of the cylinder when it is at the furthest right part of the loop as shown in the figure? O g(h – R) = ¿v² %3D O g(h – R) = v² O g(h – 2R) = TOU %3D 10 O g(h – 2R) = v² O g(h – R) = ¿v² +o?
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© 2013 Pearson Education, Inc.
A hollow cylinder of mass m, radius r, and moment of inertia I = mr2 starts from rest at a height
%3D
h and rolls without slipping down the ramp toward a loop-the-loop of radius R >>ras shown in the
figure. Which is the correct equation to solve for the speed v of the cylinder when it is at the furthest
right part of the loop as shown in the figure?
O g(h – R) = }v²
2
O g(h – R) = v²
O g(h – 2R)
71
10
O g(h – 2R) = v²
O g(h – R) = v² +²
%3D
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