Problem #3

Given:  The truss structure shown below.

Required:

1. Draw a free body diagram of the structure and find the external reactions.
2. Draw a free body diagram of each pin and each member using the method of joints.
3. Find the magnitude of the force carried in each member.

Transcribed Image Text:

### Structural Analysis of a Truss System The diagram illustrates a truss structure with various components and dimensions. Below is a detailed explanation of each part of the structure: #### Components: - **I Beam**: The horizontal member of the truss, spanning a length of 16 meters, divided into two segments of 8 meters each. - **Support Points**: - Point A is the left end of the beam. - Point C is the right end, where rollers are shown, indicating a type of support that allows horizontal movement. - **Additional Points**: - Point B is located 10 meters below point A, forming the base of a triangular configuration with points A and D. - Point D is situated 8 meters to the right of point A along the beam. It is connected vertically to point B. #### Forces: - **External Force**: A downward force (F) of 50 KN is applied at point B. #### Structure Configuration: - The structure forms a triangular shape between points A, B, and D, supported by two members: - Member AB connects points A and B. - Member BD connects points B and D. - The structure lies in the x-y plane, with the x-axis along the base of the beam and the y-axis perpendicular to it. This configuration is typical in engineering for distributing loads efficiently across a truss system. The diagram is utilized to calculate the forces in each member, ensure structural stability, and find the external reactions at the supports.