Problem 7.1 - Determine the force in each member of the truss by t method of joints and state whether the force is in tension or compres Tun 10 ft F B 2 kip 10 ft· G C 4 kip 10 ft H D 2 kip -10 ft 14 ft E Qu

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**Problem 7.1** Determine the force in each member of the truss by the method of joints and state whether the force is in tension or compression. **Diagram Explanation:** - **Structure:** The diagram is a truss supported at points A and E, with point A being a pinned support and point E a roller support. - **Nodes:** The truss consists of multiple nodes labeled A, B, C, D, E, F, G, and H. - **Load Distribution:** - At node B, there is a downward force of 2 kip. - At node C, there is a downward force of 4 kip. - At node D, there is a downward force of 2 kip. - **Truss Segments:** - The horizontal segments between A-B, B-C, C-D, and D-E are each 10 ft in length. - Vertical members F, G, and H are positioned on top of nodes B, C, and D respectively. Point G is 14 ft above the base line. - **Design:** Members are interconnected in a triangular configuration, forming two triangular sections in the truss design. **Objective:** Use the method of joints to calculate forces within each member of the truss and determine if they are in tension or compression.