A solid cylinder of mass 1.1 kg and radius 19 cm is yoked to a spring as shown. To be pre- cise, the axle of the cylinder is attached to a horizontal spring of force constant 719.7 N/m. The cylinder rolls back and forth on a hori- zontal base without slipping. For simplicity, assume that the spring, the axle and the yoke which connects them have negligible masses compared to the cylinder itself. 719.7 N/m oooo 1.1 kg What is the angular frequency of the cylin- der rolling back and forth around the equlib-

A solid cylinder of mass 1.1 kg and radius 19 cm is yoked to a spring as shown. To be pre- cise, the axle of the cylinder is attached to a horizontal spring of force constant 719.7 N/m. The cylinder rolls back and forth on a hori- zontal base without slipping. For simplicity, assume that the spring, the axle and the yoke which connects them have negligible masses compared to the cylinder itself. 719.7 N/m oooo 1.1 kg What is the angular frequency of the cylin- der rolling back and forth around the equlib-

University Physics Volume 1

18th Edition

ISBN:9781938168277

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

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

Chapter10: Fixed-axis Rotation

Section: Chapter Questions

Problem 8CQ: A massless tether with a masses tied to both ends rotates about a fixed axis through the center. Can...

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A solid cylinder of mass 1.1 kg and radius. 19 cm is yoked to a spring as shown. To be pre- cise, the axle of the cylinder is attached to a horizontal spring of force constant 719.7 N/m. The cylinder rolls back and forth on a hori- zontal base without slipping. For simplicity, assume that the spring, the axle and the yoke which connects them have negligible masses compared to the cylinder itself. 719.7 N/m momo 1.1 kg What is the angular frequency of the cylin- der rolling back and forth around the equlib- rium position? Answer in units of s-¹.
A solid cylinder of mass 1.1 kg and radius. 19 cm is yoked to a spring as shown. To be pre- cise, the axle of the cylinder is attached to a horizontal spring of force constant 719.7 N/m. The cylinder rolls back and forth on a hori- zontal base without slipping. For simplicity, assume that the spring, the axle and the yoke which connects them have negligible masses compared to the cylinder itself. 719.7 N/m momo 1.1 kg What is the angular frequency of the cylin- der rolling back and forth around the equlib- rium position? Answer in units of s-¹. Your response... i PALETTE
A solid cylinder of mass 1.1 kg and radius 19 cm is yoked to a spring as shown. To be pre- cise, the axle of the cylinder is attached to a horizontal spring of force constant 719.7 N/m. The cylinder rolls back and forth on a hori- zontal base without slipping. For simplicity, assume that the spring, the axle and the yoke which connects them have negligible masses compared to the cylinder itself. 719.7 N/m -0000 1.1 kg What is the angular frequency of the cylin- der rolling back and forth around the equlib- rium position? Answer in units of s-¹. Your response... Previous Responses X #1.3.325 PALETTE
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