banei kg puck on a frictionless, horizontal table is connected by a string through a hole in the table to a hanging 1.20 kg block as shown in the figure: 0.20 kg 1.20 kg A. Draw a free-body diagram for each of the objects, the puck and the hanging block. Include a set of x & y coordinates for each object. For clarity, please be sure to draw the axes off to the side, not on top of the object. The puck The hanging block B. Sum the forces for both objects and apply Newton's second law. The puck The hanging block

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b 0 kg puck on a frictionless, horizontal table is connected by a string through a hole in the table to a
hanging 1.20 kg block as shown in the figure:
0.20 kg
1.20 kg
A. Draw a free-body diagram for each of the objects, the puck and the hanging block. Include a set of x & y
coordinates for each object. For clarity, please be sure to draw the axes off to the side, not on top of the
object.
The puck
The hanging block
e s of
B. Sum the forces for both objects and apply Newton's second law.
The puck
The hanging block
C. Use the above to find with what speed must the puck rotate in a circle of radius r=0.5 m if the block is to
remain hanging at rest? (Continue on next side) [Hint: Recall that a = v²/r.]
Transcribed Image Text:b 0 kg puck on a frictionless, horizontal table is connected by a string through a hole in the table to a hanging 1.20 kg block as shown in the figure: 0.20 kg 1.20 kg A. Draw a free-body diagram for each of the objects, the puck and the hanging block. Include a set of x & y coordinates for each object. For clarity, please be sure to draw the axes off to the side, not on top of the object. The puck The hanging block e s of B. Sum the forces for both objects and apply Newton's second law. The puck The hanging block C. Use the above to find with what speed must the puck rotate in a circle of radius r=0.5 m if the block is to remain hanging at rest? (Continue on next side) [Hint: Recall that a = v²/r.]
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