Q1 A simply supported wood beam AB with span length L = 3.5 m carries a uniform load of intensity w = (see figure). Calculate the maximum normal stress due to the bending moment if the beam has a rectangular cross section with width b =140 mm and height h =240 mm. 6.4 kN/m %3D z W =6.4 kN). A h - - -

Elements Of Electromagnetics
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Author:Sadiku, Matthew N. O.
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**Question 1:**

A simply supported wood beam \( AB \) with span length \( L = 3.5 \, \text{m} \) carries a uniform load of intensity \( w = 6.4 \, \text{kN/m} \) (see figure).

Calculate the maximum normal stress due to the bending moment if the beam has a rectangular cross-section with width \( b = 140 \, \text{mm} \) and height \( h = 240 \, \text{mm} \).

**Diagram Explanation:**

The diagram illustrates:
- A simply supported beam labeled \( AB \), supported at both ends.
- The span length \( L \) is labeled between the supports.
- Arrows pointing downward across the beam indicate a uniform load of intensity \( w = 6.4 \, \text{kN/m} \).
- A cross-section of the beam is shown on the right, displaying a rectangular shape with dimensions labeled as width \( b = 140 \, \text{mm} \) and height \( h = 240 \, \text{mm} \).
Transcribed Image Text:**Question 1:** A simply supported wood beam \( AB \) with span length \( L = 3.5 \, \text{m} \) carries a uniform load of intensity \( w = 6.4 \, \text{kN/m} \) (see figure). Calculate the maximum normal stress due to the bending moment if the beam has a rectangular cross-section with width \( b = 140 \, \text{mm} \) and height \( h = 240 \, \text{mm} \). **Diagram Explanation:** The diagram illustrates: - A simply supported beam labeled \( AB \), supported at both ends. - The span length \( L \) is labeled between the supports. - Arrows pointing downward across the beam indicate a uniform load of intensity \( w = 6.4 \, \text{kN/m} \). - A cross-section of the beam is shown on the right, displaying a rectangular shape with dimensions labeled as width \( b = 140 \, \text{mm} \) and height \( h = 240 \, \text{mm} \).
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