Suppose that P1= 14 kN, P2 = 16 kN, and P3 = 20 kN.

Determine the force in member BC of the bridge truss.

Determine the force in member HC of the bridge truss.

Determine the force in member HG of the bridge truss.

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The image depicts a truss structure commonly used in engineering and construction contexts. The truss is composed of beams arranged in a triangular configuration to efficiently handle loads and stresses. Key Features: - **Components**: The truss features multiple joints labeled A, B, C, D, E, F, G, H, arranged in a series of connected triangles. - **Supports**: Point A is a pin support, and Point E is a roller support, allowing the structure to distribute loads effectively. - **Dimensions**: The horizontal distance between each vertical line of action (points B, C, D) is 3 meters, with the total horizontal span being 12 meters. The vertical height from the base to point H is 3 meters. - **Loads**: Three downward-pointing arrows at points B, C, and D represent external loads \( P_1 \), \( P_2 \), and \( P_3 \), respectively. These arrows indicate the direction and point of application of these forces on the truss. The design showcases how trusses use geometric stability and force distribution for structural integrity.