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Determine the force supported by the pin at A for an 80-N squeeze on the handles of the pliers. (Hint: Draw free body diagram of each handle)

Determine the force supported by the pin at A for an 80-N squeeze on the handles of the pliers. (Hint: Draw free body diagram of each handle)

Elements Of Electromagnetics
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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**Problem Statement:** Determine the force supported by the pin at \( A \) for an 80-N squeeze on the handles of the pliers. (Hint: Draw free body diagram of each handle.) **Diagram Explanation:** The diagram shows a pair of pliers with the following details: - The pliers have two handles, each subjected to an 80-N force. - There is a pin at point \( A \) which joins the two handles. - The distance from the pin \( A \) to where the force is applied on the outer handle is 95 mm. - The distance from the pin \( A \) to the jaw of the pliers where force is transmitted is 35 mm. In order to solve this problem, construct a free body diagram for each handle of the pliers. This consists of the forces acting at the pin and at the points where forces are applied or transmitted.
Transcribed Image Text:**Problem Statement:** Determine the force supported by the pin at \( A \) for an 80-N squeeze on the handles of the pliers. (Hint: Draw free body diagram of each handle.) **Diagram Explanation:** The diagram shows a pair of pliers with the following details: - The pliers have two handles, each subjected to an 80-N force. - There is a pin at point \( A \) which joins the two handles. - The distance from the pin \( A \) to where the force is applied on the outer handle is 95 mm. - The distance from the pin \( A \) to the jaw of the pliers where force is transmitted is 35 mm. In order to solve this problem, construct a free body diagram for each handle of the pliers. This consists of the forces acting at the pin and at the points where forces are applied or transmitted.
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