Using bending diagram please **Beam Stress Analysis**The beam shown below has a pin support at the left end (A) and a roller support at the right end (D). The beam is subjected to a vertical downward force of 55 kN at a distance of 3 meters from support A, and a distributed load of 15 kN/m over a 3-meter length starting from point B.The cross section of the beam is rectangular with a height (h) of 26 cm. The question requires determining the maximum normal stress and maximum shear stress in the beam.**Diagram Details:**- **Beam Length and Supports:** - The beam spans 9 meters in total, divided into three equal sections (AB, BC, CD), each 3 meters long. - Pin support at point A (left end) and roller support at point D (right end).- **Loads on the Beam:** - A point load of 55 kN is applied at point B (3 meters from A). - A uniformly distributed load (UDL) of 15 kN/m is applied between points B and C, over a 3-meter section.- **Cross Section:** - The beam's cross section is rectangular. - Height (h) is 26 cm. - Width (b) is denoted as \( b = \frac{h}{2} \).**Objective:**Calculate the maximum normal stress and the maximum shear stress experienced by the beam.

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The beam shown below has a pin support at the left end, a roller support at the right end and is loaded as shown. The cross section is a rectangle with h = maximum normal stress and maximum shear stress in the beam. 26 cm. Determine the 55 kN 15 kN/m C 3 m 3 m 3 m

The beam shown below has a pin support at the left end, a roller support at the right end and is loaded as shown. The cross section is a rectangle with h = maximum normal stress and maximum shear stress in the beam. 26 cm. Determine the 55 kN 15 kN/m C 3 m 3 m 3 m

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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Concept explainers

Bending Moment

In general, we can define the bending moment as the reaction induced when a certain amount of load or force is applied to an element which makes it bend.

Question

Using bending diagram please

**Beam Stress Analysis**

The beam shown below has a pin support at the left end (A) and a roller support at the right end (D). The beam is subjected to a vertical downward force of 55 kN at a distance of 3 meters from support A, and a distributed load of 15 kN/m over a 3-meter length starting from point B.

The cross section of the beam is rectangular with a height (h) of 26 cm. The question requires determining the maximum normal stress and maximum shear stress in the beam.

**Diagram Details:**

- **Beam Length and Supports:**
- The beam spans 9 meters in total, divided into three equal sections (AB, BC, CD), each 3 meters long.
- Pin support at point A (left end) and roller support at point D (right end).

- **Loads on the Beam:**
- A point load of 55 kN is applied at point B (3 meters from A).
- A uniformly distributed load (UDL) of 15 kN/m is applied between points B and C, over a 3-meter section.

- **Cross Section:**
- The beam's cross section is rectangular.
- Height (h) is 26 cm.
- Width (b) is denoted as \( b = \frac{h}{2} \).

**Objective:**

Calculate the maximum normal stress and the maximum shear stress experienced by the beam.

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