### Problem 8.59A 6° steel wedge is driven into the end of an ax handle to lock the handle to the ax head. The coefficient of static friction between the wedge and the handle is 0.35. Knowing that a force \( P \) of magnitude 60 lb was required to insert the wedge to the equilibrium position shown, determine the magnitude of the forces exerted on the handle by the wedge after force \( P \) is removed.#### Diagram Explanation- The diagram illustrates a cross-sectional view where a steel wedge is inserted between the ax head and the handle.- The wedge is shown at an angle of 6°.- Force \( P \), acting downwards, is applied to insert the wedge.- The interaction between the wedge and the handle involves static friction, given as 0.35.This scenario requires analyzing the forces involved when the applied force \( P \) is removed, considering equilibrium and frictional forces.

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8.59 A 6° steel wedge is driven into the end of an ax handle to lock the handle to the ax head. The coefficient of static friction between the wedge and the handle is 0.35. Knowing that a force P of magnitude 60 lb was re- quired to insert the wedge to the equilibrium position shown, determine the magnitude of the forces exerted on the handle by the wedge after force P is removed.

8.59 A 6° steel wedge is driven into the end of an ax handle to lock the handle to the ax head. The coefficient of static friction between the wedge and the handle is 0.35. Knowing that a force P of magnitude 60 lb was re- quired to insert the wedge to the equilibrium position shown, determine the magnitude of the forces exerted on the handle by the wedge after force P is removed.

Elements Of Electromagnetics

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ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

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Fasteners and Design of Non Permanent Joints

Fasteners are described as mechanical components used to join or assemble two or more pieces of materials. The fasteners are used in various machines or structures based on their suitability to produce non-permanent, semi-permanent, and permanent joints.

Question

### Problem 8.59

A 6° steel wedge is driven into the end of an ax handle to lock the handle to the ax head. The coefficient of static friction between the wedge and the handle is 0.35. Knowing that a force \( P \) of magnitude 60 lb was required to insert the wedge to the equilibrium position shown, determine the magnitude of the forces exerted on the handle by the wedge after force \( P \) is removed.

#### Diagram Explanation

- The diagram illustrates a cross-sectional view where a steel wedge is inserted between the ax head and the handle.
- The wedge is shown at an angle of 6°.
- Force \( P \), acting downwards, is applied to insert the wedge.
- The interaction between the wedge and the handle involves static friction, given as 0.35.

This scenario requires analyzing the forces involved when the applied force \( P \) is removed, considering equilibrium and frictional forces.

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