Determine the force in member BE if the force on E is changed to 525kN. 17 kN | 24kN Answer: -1.5 m- BY 8 kN 1.5 m CV 7 kN 0.8 m OKN Tension CRN Compression

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**Title: Analyzing Forces in a Truss System** **Objective:** Determine the force in member BE if the force on point E is changed to 525 kN. **Diagram Description:** The diagram shows a truss system with six members forming a structure supported at points D and F. The points are connected as follows: - Horizontal Beam: A to B to C - Diagonal Members: A to E and B to E; B to E and C to F - Vertical Member: E to F **Forces Applied:** - A force of 7 kN is applied downward at points A and C. - A force of 24 kN is applied downward at point B. - An original force of 8 kN is applied downward at point E, which is to be analyzed as 525 kN. **Dimensions:** - Distance AD = DF = 1.5 m - Height from E to line AC = 0.8 m **Task:** Calculate the force in member BE when the force at point E is increased to 525 kN. Specify whether the member is under tension or compression. **Answer Section:** - Enter the calculated force for member BE. - Indicate if the force is in tension or compression. --- By analyzing this truss structure using methods such as the method of joints or sections, you can determine the internal forces in the members and their nature (tension or compression).