A 1.5 m B P₁ C -1.5 m 1.5 m- D F P₂ -1.5 m 2 m

Set P1 = 70 kN,  P2 = 50 kN. 

Express your answer to three significant figures and include the appropriate units. Enter negative value in the case of compression and positive value in the case of tension.

a) Determine the force in member AB of the truss. 

b) Determine the force in member AG of the truss. 

c) Determine the force in member BC of the truss.

 

Transcribed Image Text:

The image depicts a truss structure, which is common in engineering and architectural design. The truss consists of multiple members forming a combination of triangles, providing support and stability. ### Description of the Truss Structure: - **Points and Members:** - The truss is composed of several joints labeled from A to E. - Members (bars) connect these joints, forming a series of interconnected triangles. - **Dimensions:** - The base of the truss is divided into equal segments of 1.5 meters each between points A to B, B to C, C to D, and D to E. - The vertical height from the base to the top of the truss at points like C is 2 meters. - **Forces:** - Two downward forces are indicated at points G and F, labeled as P₁ and P₂. ### Diagram Features: - **Shape:** - The truss has a symmetrical design with two triangular formations on each side and a central rectangle. - **Support:** - Triangular formations provide stability, as triangles are rigid and maintain shape when forces are applied. This image serves as a fundamental example of truss design, illustrating how forces are distributed and supported by triangular arrangements. Such structures are critical in bridges, buildings, and various engineering applications due to their strength and efficiency in bearing loads.