1. A hawser (a thick docking rope) thrown from a ship to a pier is wrapped two full urns around a bollard. The tension in the hawser is 7500 N; by exerting a force of 150 N 150 N on its free end, a dockworker can just keep the hawser from slipping. (a) Determine the coefficient of friction between the hawser and the bollard. (b) Determine the tension in the hawser that could be resisted by the 150-N force if the hawser were wrapped three full turns around the bollard.
1. A hawser (a thick docking rope) thrown from a ship to a pier is wrapped two full urns around a bollard. The tension in the hawser is 7500 N; by exerting a force of 150 N 150 N on its free end, a dockworker can just keep the hawser from slipping. (a) Determine the coefficient of friction between the hawser and the bollard. (b) Determine the tension in the hawser that could be resisted by the 150-N force if the hawser were wrapped three full turns around the bollard.
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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Transcribed Image Text:1. A hawser (a thick docking rope) thrown from a ship to a pier is wrapped two full
turns around a bollard. The tension in the hawser is 7500 N; by exerting a force of
150 N
150 N on its free end, a dockworker can just keep the hawser from slipping. (a)
7500 N
Determine the coefficient of friction between the hawser and the bollard. (b)
Determine the tension in the hawser that could be resisted by the 150-N force if
the hawser were wrapped three full turns around the bollard.
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