Consider the overhanging beam shown in the figure below. (Figure 1) Figure ▼ Part A 8 kN/m Tmax= 4 m B HÅ Value 2 m Submit Request Answer 12 kN 125 mm 25 mm 25 mm If d = 520 mm, determine the absolute maximum bending stress in the beam. Express your answer to three significant figures and include the appropriate units. 75 mm 75 mm Units 1 of 1 ?

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**Educational Content: Bending Stress in an Overhanging Beam** **Problem Statement:** Consider the overhanging beam shown in the figure below. **Figure Description:** The diagram illustrates an overhanging beam with supports and loads applied: - The beam starts at point A and is fixed horizontally for 4 meters until point B. - A distributed load of 8 kN/m is applied across the entire 4-meter length of the beam from point A to point B. - At the overhang (beyond point B), which is 2 meters long, a point load of 12 kN is applied at the free end of the beam. The cross-section of the beam is shown to be a hollow rectangle: - The outer dimensions are 125 mm by 125 mm. - The thickness of each wall is 25 mm. **Task:** Determine the absolute maximum bending stress in the beam, given \( d = 520 \, \text{mm} \). **Instructions:** - Express your answer to three significant figures. - Include the appropriate units. **Calculation Input Box:** - \( \sigma_{\text{max}} = \) [Value] [Units] **Additional Information:** - Use the provided input area for submitting your answer. - You can request assistance if needed. **Navigation:** - Return to Assignment - Provide Feedback This exercise involves applying principles of mechanics of materials to determine the bending stress in an overhanging beam with specified loads and geometric properties.