60 kN 75 kN 1m 60 kN 2 m H 4 m A G B C D E 75 kN 75 kN - 6 at 4 m 24 m

Find the internal member forces in all members of the truss below. Sketch the qualitative deflected shape.

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### Analysis of Truss Structure **Diagram Overview:** The illustration depicts a truss structure subject to various loads and supported at multiple points. The truss is a common architectural element used to support bridges, roofs, and other structures. It consists of interconnected triangular units, providing it with stability and the ability to carry heavy loads. **Structural Elements:** - **Joints:** - The truss has joints identified by letters: A, B, C, D, E, F, G, H, I, J, K, and L. These joints connect the various members of the truss. - **Members:** - The truss shows interconnecting members often configured in a triangular arrangement. These elements are crucial for transferring loads throughout the structure. **Load Distribution:** - The truss is subject to several vertical loads: - **60 kN** downward loads at points H and J. - **75 kN** downward loads at points C, F, and G. **Support Points:** - **A:** A hinged support capable of resisting both vertical and horizontal forces. - **E:** A roller support, allowing horizontal movement, resisting vertical forces. **Dimensions:** - The truss spans a total length of **24 meters**, divided into 6 segments, each **4 meters** long. - Vertical dimensions from bottom to top: - **4 meters** from base to lowest horizontal member level. - **2 meters** from the middle level to the next horizontal member. - **1 meter** from the highest member to the topmost point. **Importance in Education:** Studying truss structures is valuable for understanding the principles of statics and structural engineering. Analyzing how forces distribute across the truss helps in designing structures capable of withstanding various loads while maintaining stability and safety.