The 5.33-kg cylinder is suspended from two equal-length cords (L = 690 mm). The end of each cord is attached to a ring (negligible mass) as shown in the figure. The ring passes along a horizontal shaft. Provided that the rings can be separated by the greatest distance d = 352 mm and still support the cylinder, determine the coefficient of static friction between each ring and the shaft.
The 5.33-kg cylinder is suspended from two equal-length cords (L = 690 mm). The end of each cord is attached to a ring (negligible mass) as shown in the figure. The ring passes along a horizontal shaft. Provided that the rings can be separated by the greatest distance d = 352 mm and still support the cylinder, determine the coefficient of static friction between each ring and the shaft.
Welding: Principles and Applications (MindTap Course List)
8th Edition
ISBN:9781305494695
Author:Larry Jeffus
Publisher:Larry Jeffus
Chapter21: Reading Technical Drawings
Section: Chapter Questions
Problem 17R
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The 5.33-kg cylinder is suspended from two equal-length cords (L = 690 mm). The end of each cord is attached to a ring (negligible mass) as shown in the figure. The ring passes along a horizontal shaft. Provided that the rings can be separated by the greatest distance d = 352 mm and still support the cylinder, determine the coefficient of static friction between each ring and the shaft.
The only answer is 0.264. Thanks.
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