Determine the force in member BE of the loaded truss. The force is positive if in tension, negative if in compression. 4.0 L 2.0 L 4.5 L 16° 6. 6. 3. AH = GH

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**Problem Statement:** Determine the force in member BE of the loaded truss. The force is positive if in tension, negative if in compression. **Diagram Explanation:** The diagram presented is a structural truss with several members labeled at their joints (A, B, C, D, E, F, G, H, P). The truss is supported at points A and G. There are multiple forces acting downward on the truss at points B, C, and D. These forces are as follows: - A force of 4.0 L acts downward at point B. - A force of 2.0 L acts downward at point C. - A force of 4.5 L acts downward at point D. The geometry of the truss includes several horizontal distances labeled with "d". The segments FP, PE, and ED each have lengths of 6. Points H and G are vertically aligned, indicated by AH = GH. A slope of 16° is noted at point C, indicative of the inclination between CD. The truss analysis presumably involves calculating the internal force in member BE. **Solution Box:** A space is provided for the answer, labeled “Answer: BE = ___ L”. This setup involves applying static equilibrium equations to solve for the unknown force in a truss member, commonly using methods such as the method of joints or sections.