6-37. Determine the force in members EF, BE, BC, and BF of the truss and state if the members are in tension or compression. Set P₁ = 9 kN, P₂ = 12 kN, and P3 = 6 kN. 6-38. Determine the force in members BC, BE, and EF of the truss and state if the members are in tension or compression. Set P₁ = 6 kN, P₂ = 9 kN, and P3 Probs. 6-37/38 A P3 3 m B F P = 12 kN. 3 m E C P2 3 m 3 m D

Please solve this problem using method of sections and please show all of your work in pictures please, do not type it. THANK YOU FOR YOUR HELP!

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### Truss Analysis Problems #### Problem 6–37: Determine the force in members **EF**, **BE**, **BC**, and **BF** of the truss and state whether the members are in tension or compression. Set the loads as follows: - \( P_1 = 9 \, \text{kN} \) - \( P_2 = 12 \, \text{kN} \) - \( P_3 = 6 \, \text{kN} \) #### Problem 6–38: Determine the force in members **BC**, **BE**, and **EF** of the truss and state if the members are in tension or compression. Set the loads as follows: - \( P_1 = 6 \, \text{kN} \) - \( P_2 = 9 \, \text{kN} \) - \( P_3 = 12 \, \text{kN} \) ### Diagram Explanation: The diagram depicts a symmetrical truss structure with the following specifications: - It consists of five main nodes labeled **A**, **B**, **C**, **D**, **E**, and **F**. - The truss spans horizontally with a total distance of 9 meters, divided into three 3-meter sections (**AB**, **BC**, and **CD**). - Vertical loads \( P_1 \) and \( P_2 \) are applied at nodes **B** and **C**, respectively. - A horizontal load \( P_3 \) is applied at node **F**. - The vertical height from the base to points **E** and **F** is 3 meters. The diagram is essential for understanding the forces in the truss members and their loading conditions. Each joint and load must be analyzed to determine the tension or compression state of the members.