A simply supported beam (i.e., with a pin support at point A and a roller support at point D) is subjected to the external loadings shown in the figure. The cross- A section is shown to the right of the beam. Determine the shear stress developed in the cross-section n-n at point E on the web.

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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A simply supported beam (i.e., with a pin support at point A and a roller support at point D) is subjected to the external loadings shown in the figure. The cross-section is shown to the right of the beam.

Determine the shear stress developed in the cross-section n-n at point E on the web.

**Beam Diagram Explanation:**

- The beam spans a total of 6 meters, divided into three 2-meter segments: A to B, B to C, and C to D.
- There are two vertical downward forces of 10 kN each, applied at points B and C.

**Cross-Section Diagram Explanation:**

- The cross-section has an I-beam shape with the following dimensions:
  - Top flange: 50 mm wide and 10 mm thick.
  - Web: 10 mm thick and 40 mm high.
  - Bottom flange: 50 mm wide and 10 mm thick.

The task is to find the shear stress at point E on the web in the section n-n.
Transcribed Image Text:A simply supported beam (i.e., with a pin support at point A and a roller support at point D) is subjected to the external loadings shown in the figure. The cross-section is shown to the right of the beam. Determine the shear stress developed in the cross-section n-n at point E on the web. **Beam Diagram Explanation:** - The beam spans a total of 6 meters, divided into three 2-meter segments: A to B, B to C, and C to D. - There are two vertical downward forces of 10 kN each, applied at points B and C. **Cross-Section Diagram Explanation:** - The cross-section has an I-beam shape with the following dimensions: - Top flange: 50 mm wide and 10 mm thick. - Web: 10 mm thick and 40 mm high. - Bottom flange: 50 mm wide and 10 mm thick. The task is to find the shear stress at point E on the web in the section n-n.
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