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Two Balls, Each of Mass M, Are Attached to the Ends

Question 24

Multiple Choice

Two balls, each of mass m, are attached to the ends of a rod of length l and mass M. The system is then rotated about a frictionless pivot located at the center of mass with angular velocity $\omega$ . The angular momentum of the system in vector form about the pivot is $Two balls, each of mass m, are attached to the ends of a rod of length l and mass M. The system is then rotated about a frictionless pivot located at the center of mass with angular velocity \omega . The angular momentum of the system in vector form about the pivot is A) B) C) D) E) none of the above$

A) $Two balls, each of mass m, are attached to the ends of a rod of length l and mass M. The system is then rotated about a frictionless pivot located at the center of mass with angular velocity \omega . The angular momentum of the system in vector form about the pivot is A) B) C) D) E) none of the above$
B) $Two balls, each of mass m, are attached to the ends of a rod of length l and mass M. The system is then rotated about a frictionless pivot located at the center of mass with angular velocity \omega . The angular momentum of the system in vector form about the pivot is A) B) C) D) E) none of the above$
C) $Two balls, each of mass m, are attached to the ends of a rod of length l and mass M. The system is then rotated about a frictionless pivot located at the center of mass with angular velocity \omega . The angular momentum of the system in vector form about the pivot is A) B) C) D) E) none of the above$
D) $Two balls, each of mass m, are attached to the ends of a rod of length l and mass M. The system is then rotated about a frictionless pivot located at the center of mass with angular velocity \omega . The angular momentum of the system in vector form about the pivot is A) B) C) D) E) none of the above$
E) none of the above

Two Balls, Each of Mass M, Are Attached to the Ends

Multiple Choice

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