-2 m - 2 m 4.5 kN 1.4 kN E 2.8 kN D G 0.5 m F I kN I kN B 3 m I kN I kN C 1 m Fig. P6.15 and P6.16 1 m 1 m 1m 6.16 For the Gambrel roof truss shown, determine the force in members CG and CI and in each of the members located to the right of the centerline of the truss. State whether each member is in tension or compression.

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**6.16 Problem Description:** For the Gambrel roof truss shown, determine the force in members CG and CI, and in each of the members located to the right of the centerline of the truss. State whether each member is in tension or compression. **Diagram Overview:** The diagram illustrates a Gambrel roof truss with various loads applied vertically. The truss consists of multiple triangular sections and is supported at points A and J. - **Geometry and Dimensions:** - The horizontal span of the truss is divided into three equal segments of 2 meters each (between points A-D, D-G, and G-J). - Distances from A to C and I to J are each 1 meter. - **Applied Loads:** - A load of 1 kN is applied vertically at points A, B, H, and J. - Additional loads of 1.4 kN, 4.5 kN, and 2.8 kN are applied at points D, E, and G, respectively. - **Vertical and Horizontal Distances:** - The height from the base to point H is 3 meters. - The height from the base to point G is 0.5 meters. **Members:** The truss network consists of members like AB, BD, DE, DF, etc., connecting various nodes like A, B, C, D, E, F, G, H, I, and J. **Objective:** Calculate the forces in specific members, particularly CG, CI, and those to the right of the truss centerline, and identify if they are subjected to tension or compression.