Cables BE and DF along with the ball and socket at A support the rigid bar ABCD. (Due to the nature of this problem, do not use rounded intermediate values in your calculations and answers.)

Determine the tension in each cable and the reaction components the ball and socket joint exerts on ABCD at A in newtons. (Indicate the direction with the sign of your answer.)

Answer in Newtons

T_BE=

T_DF=

F_Ax=

F_Ay=

F_Az= 

Transcribed Image Text:

The diagram represents a structural system in a 3D coordinate space, defined by the x, y, and z axes. The setup includes several point locations (A, B, C, D, E, and F) and distances between them. Key features are as follows: - **Points and Distances:** - **Point E** is located at a distance of 4 meters along the x-axis. - **Point F** is elevated at 3 meters along the z-axis and 2 meters along the y-axis. - **Point A** is the pivot point of a structure extending toward points B, C, and D. - **Point B** is situated 2 meters from A along the structure. - **Point C** is located 1 meter further from B. - **Point D** is positioned another 1 meter from C, having a direct force applied downward. - **Forces:** - At **Point D**, a downward force \( \mathbf{F} = -695 \, \text{N} \, \mathbf{k} \) is acting in the z-direction. - **Structural Members:** - From **Point A** to **Point E**, and from **Point A** to **Point F**, red lines represent the structural components, indicating connectivity and load paths. - **Coordinate System:** - The coordinate system is clearly marked with x, y, and z axes, helping to visually understand dimensions and spatial relationships. This diagram can be used to analyze the forces in the structure, determine stresses and reactions, and understand the overall behavior of this spatial frame or truss system.