In the figure, the rod is uniform and the pivot is frictionless. The rod's mass is 13 kg and its length is 5 meters. m1 is a particle of mass 18 kg; m2 is a particle of mass 24 kg. What is the system's rotational inertia when pivoted about its center? What is m1's (linear) acceleration, in m/s2, when gravity is allowed to act on the particles?

In the figure, the rod is uniform and the pivot is frictionless. The rod's mass is 13 kg and its length is 5 meters. m1 is a particle of mass 18 kg; m2 is a particle of mass 24 kg. What is the system's rotational inertia when pivoted about its center? What is m1's (linear) acceleration, in m/s2, when gravity is allowed to act on the particles?

University Physics Volume 1

18th Edition

ISBN:9781938168277

Author:William Moebs, Samuel J. Ling, Jeff Sanny

Publisher:William Moebs, Samuel J. Ling, Jeff Sanny

Chapter2: Vectors

Section: Chapter Questions

Problem 2.13CYU: Check Your Understanding Find the angle between forces F1and F3in Example 2.16.

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Question

In the figure, the rod is uniform and the pivot is frictionless. The rod's mass is 13 kg and its length is 5 meters. m₁ is a particle of mass 18 kg; m₂ is a particle of mass 24 kg. What is the system's rotational inertia when pivoted about its center?

What is m₁'s (linear) acceleration, in m/s², when gravity is allowed to act on the particles?

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