8. The following assembly is supported by a pin at A and frictionless a roller at B in the given figure a suspended weight W = 25 lb. Determine the forces on member CEG. 6 in + 6 in + 6 in C B 8 in E 3 in W

Please solve this question in handwriting. Again please in writing. 

Transcribed Image Text:

**Problem Statement:** 8. The following assembly is supported by a pin at A and frictionless a roller at B in the given figure. A suspended weight \( W = 25 \) lb. Determine the forces on member CEG. **Diagram Explanation:** The diagram illustrates a mechanical assembly consisting of several components: - **Support Points:** - \( A \): A pin support located at the base, providing rotational stability. - \( B \): A frictionless roller support, allowing horizontal movement. - **Members:** - Member \( CEG \) is composed of two segments, \( CE \) and \( EG \). - Vertical member from \( A \) to \( C \), horizontal member \( CD \), diagonal member \( CE \). - **Pulley System:** - A pulley is affixed at point \( G \), with a radius of 3 inches. - A rope runs over the pulley, suspending a weight \( W = 25 \) lb. - **Dimensions:** - The vertical height from \( A \) to \( C \) is 6 inches. - The horizontal distance from \( A \) to \( D \) is divided into two 8-inch segments for a total of 16 inches. - The horizontal distance from pulley center \( G \) to \( E \) is not specified, providing a distance of 3 inches for the rope connection to \( G \). **Objective:** Determine the forces on member \( CEG \) caused by the suspended weight \( W \). This setup involves static equilibrium analysis to calculate reactions at the supports and internal forces within the member. Consider using equations for equilibrium (sum of forces and moments) to find the required forces.