The figure below shows a rigid system which can rotate. M = 1.2 kg, L = 2.2 m, and the connecting rod as negligible mass

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answerhappygod
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The figure below shows a rigid system which can rotate. M = 1.2 kg, L = 2.2 m, and the connecting rod as negligible mass

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The Figure Below Shows A Rigid System Which Can Rotate M 1 2 Kg L 2 2 M And The Connecting Rod As Negligible Mass 1
The Figure Below Shows A Rigid System Which Can Rotate M 1 2 Kg L 2 2 M And The Connecting Rod As Negligible Mass 1 (24.44 KiB) Viewed 24 times
The Figure Below Shows A Rigid System Which Can Rotate M 1 2 Kg L 2 2 M And The Connecting Rod As Negligible Mass 2
The Figure Below Shows A Rigid System Which Can Rotate M 1 2 Kg L 2 2 M And The Connecting Rod As Negligible Mass 2 (28.08 KiB) Viewed 24 times
The figure below shows a rigid system which can rotate. M = 1.2 kg, L = 2.2 m, and the connecting rod as negligible mass. Treat the masses as point particles.
L O M 3M ㅏ X 0 What is the moment of inertia about an axis perpendicular to the paper and through the center of mass? Answer in units of kg m².
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