Determine the forces in members BC, BE, and FE for the truss shown.

- Draw a free-body diagram of that segment of the sectioned truss which has the least number of forces acting on it.

- Equations of Equilibrium 

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### Problem 5.17 **Objective:** Determine the forces in members \( BC, BE, \) and \( FE \) for the truss shown. **Diagram Description:** The diagram represents a truss structure with several members and joints labeled \( A, B, C, D, E, F, \) and \( G \). The truss is affixed to a vertical surface at point \( A \) and to a horizontal surface at point \( G \). **Dimensions and Loads:** - The horizontal distances between the joints are given as \( 4' - 0'' \) for each segment, namely \( AB, BC, \) and \( CD \). - The vertical distance from joint \( A \) to joint \( G \) is \( 8' - 0'' \). - A downward external force of \( 1500 \, \text{lb} \) is applied at point \( D \). The force is directed at an angle of \( 60^\circ \) from the horizontal. The structure comprises triangular sections, such as \( ABE, BEC, \) and \( DEF \), aiding in stability. The truss is constructed to transmit this load through its members to the supports at \( A \) and \( G \). Your task is to calculate the internal forces in the specified members due to the applied load.