5. A stick of length L and mass M is in free space (no gravity) and not rotating. A point mass m has initial velocity v heading in a trajectory perpendicular to the stick. The mass has a perfectly inelastically collision a distance b from the center of the stick. Find the velocity of the center of mass and the final angular velocity. M fer cen m before after
5. A stick of length L and mass M is in free space (no gravity) and not rotating. A point mass m has initial velocity v heading in a trajectory perpendicular to the stick. The mass has a perfectly inelastically collision a distance b from the center of the stick. Find the velocity of the center of mass and the final angular velocity. M fer cen m before after
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stick of length L and mass M is in free space (no gravity) and not rotating. A point mass m has initial velocity v heading in a trajectory perpendicular to the stick. The mass has a perfectly inelastically collision a distance b from the center of the stick. Find the velocity of the center of mass and the final angular velocity .
Transcribed Image Text:5. A stick of length L and mass M is in free space (no gravity) and not rotating. A point mass m has initial
velocity v heading in a trajectory perpendicular to the stick. The mass has a perfectly inelastically
collision a distance b from the center of the stick. Find the velocity of the center of mass and the final
angular velocity.
M
m
after
before
centen
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