**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 FeedbackThis exercise involves applying principles of mechanics of materials to determine the bending stress in an overhanging beam with specified loads and geometric properties.

An overhanging beam with uniformly distributed load and a point load at the free end.Overall height…

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 ?

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 ?

Structural Analysis

6th Edition

ISBN:9781337630931

Author:KASSIMALI, Aslam.

Publisher:KASSIMALI, Aslam.

Chapter2: Loads On Structures

Section: Chapter Questions

Problem 1P

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Concept explainers

Members with compression and bending

Compression members are structural elements that carry compressive axial force. They are the vertical members of a building that support beams and their design, which is governed by buckling and strength. Columns are known as struct or compression members, which are subjected to compressive forces. These members provide stiffness to the building and avoid any imperfection regarding the transfer of axial load. For instance, webs in a truss, braces in a framed structure, tiers, and so on.

Question

**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.

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Step 1: Mention the given data.

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Step 2: Determine the support reactions.

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Step 3: Determine the shear force.

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Step 4: Determine the maximum bending moment.

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Step 5: Determine the maximum bending stress.

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