Two masses, m, =15 kg, m2 = 3kg in Atwood's machine are connected over the frictionless pulley that is a uniform disk with a radius of 12cm. The mass of the pulley is 0.2 kg. Use conservation of energy to solve for the final speed of block m, and m2 when the block m2 moves down a distance of 1.2 m.

Two masses, m, =15 kg, m2 = 3kg in Atwood's machine are connected over the frictionless pulley that is a uniform disk with a radius of 12cm. The mass of the pulley is 0.2 kg. Use conservation of energy to solve for the final speed of block m, and m2 when the block m2 moves down a distance of 1.2 m.

University Physics Volume 1

18th Edition

ISBN:9781938168277

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

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

Chapter11: Angular Momentum

Section: Chapter Questions

Problem 50P: A roller coaster has mass 3000.0 kg and needs to make it safely through a vertical circular loop of...

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Two masses, m1 =15 kg, m2 = 3kg in Atwood's machine are connected over the frictionless
%3D
pulley that is a uniform disk with a radius of 12cm. The mass of the pulley is 0.2 kg. Use
conservation of energy to solve for the final speed of block m, and m2 when the block m2
moves down a distance of 1.2 m.

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