A large stone disk is viewed from above and is initially at rest as seen in the figure below. The disk has a mass of 145.0 kg and a radius of 2.200 m. A constant force of 40.0 N is applied tangent to the edge of the disk for 59.0 s, causing the disk to spin around the z axis. F = 40.0 N (a) Calculate the angular acceleration of the stone, finding both the direction and magnitude. (Express your answer in vector form. Substitute numeric values, do not use variables.) a = 2.5 X rad/s² (b) What is the final angular velocity of the stone? (Express your answer in vector form. Substitute numeric values, do not use variables.) @= 147.96 X rad/s (c) Calculate the translational speed for a point on the edge of the stone after 59.0 s. 325

A large stone disk is viewed from above and is initially at rest as seen in the figure below. The disk has a mass of 145.0 kg and a radius of 2.200 m. A constant force of 40.0 N is applied tangent to the edge of the disk for 59.0 s, causing the disk to spin around the z axis. F = 40.0 N (a) Calculate the angular acceleration of the stone, finding both the direction and magnitude. (Express your answer in vector form. Substitute numeric values, do not use variables.) a = 2.5 X rad/s² (b) What is the final angular velocity of the stone? (Express your answer in vector form. Substitute numeric values, do not use variables.) @= 147.96 X rad/s (c) Calculate the translational speed for a point on the edge of the stone after 59.0 s. 325

Principles of Physics: A Calculus-Based Text

5th Edition

ISBN:9781133104261

Author:Raymond A. Serway, John W. Jewett

Publisher:Raymond A. Serway, John W. Jewett

Chapter10: Rotational Motion

Section: Chapter Questions

Problem 10P: A wheel 2.00 m in diameter lies in a vertical plane and rotates about its central axis with a...

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