A 2.00 kg piece of clay traveling to the right at 7.00 m/s collides and sticks to a horizontal rod pivoted at point A. The rod is initially stationary but it is free to rotate without friction about a perpendicular axis going through point A. The rod has a mass of 8.00 kg and a length of 1.00 m and it is on a sheet of frictionless ice. The top view is shown in the diagram below. 90

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Use at least 4 significant figures throughout the entire problem. 9.80m/s2 for the acceleration due to gravity. Do not use 10 m/s2 for the acceleration due to gravity.

A 2.00 kg piece of clay traveling to the right at 7.00 m/s collides and sticks to a
horizontal rod pivoted at point A. The rod is initially stationary but it is free to
rotate without friction about a perpendicular axis going through point A. The rod
has a mass of 8.00 kg and a length of 1.00 m and it is on a sheet of frictionless ice.
The top view is shown in the diagram below.
90
After the clay collides and sticks to the rod what is the angular velocity of the system about a
perpendicular axis through point A?
O 8.04 rad/s
O 9.00 rad/s
O 6.00 rad/s
O 3.33 rad/s
O 7.14 rad/s
5.36 rad/s
2.02 rad/s
O 4.22 rad/s
Transcribed Image Text:A 2.00 kg piece of clay traveling to the right at 7.00 m/s collides and sticks to a horizontal rod pivoted at point A. The rod is initially stationary but it is free to rotate without friction about a perpendicular axis going through point A. The rod has a mass of 8.00 kg and a length of 1.00 m and it is on a sheet of frictionless ice. The top view is shown in the diagram below. 90 After the clay collides and sticks to the rod what is the angular velocity of the system about a perpendicular axis through point A? O 8.04 rad/s O 9.00 rad/s O 6.00 rad/s O 3.33 rad/s O 7.14 rad/s 5.36 rad/s 2.02 rad/s O 4.22 rad/s
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