A half section of pipe rests on a frictionless horizontal surface as shown. If the half section of pipe has a mass of 21 kg and a diameter of 300 mm, determine the bending moment at point Jwhen e = 90°. B A C The bending moment is IN-m in the (Click to select)

Structural Analysis
6th Edition
ISBN:9781337630931
Author:KASSIMALI, Aslam.
Publisher:KASSIMALI, Aslam.
Chapter2: Loads On Structures
Section: Chapter Questions
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### Problem Statement

A half section of pipe rests on a frictionless horizontal surface as shown. If the half section of pipe has a mass of 21 kg and a diameter of 300 mm, determine the bending moment at point \( J \) when \( \theta = 90^\circ \).

### Diagram Explanation

The diagram illustrates a half section of a pipe, represented as a semicircular arc labeled \( ABC \), resting on a horizontal surface. 

- The center of curvature of the arc is labeled \( O \).
- The angle \( \theta \) is formed by radius \( OJ \) with the vertical, and it is specified to be \( 90^\circ \).
- The horizontal distance from point \( O \) to the point directly below point \( J \) on the surface is indicated by \( r \).

### Calculation

To find the bending moment, the formula and additional context may be required, but this will hinge on understanding the physical properties and spatial relationships between points.

### User Input Section

**The bending moment is** [Input Box] **N·m in the** [Dropdown Menu].
Transcribed Image Text:### Problem Statement A half section of pipe rests on a frictionless horizontal surface as shown. If the half section of pipe has a mass of 21 kg and a diameter of 300 mm, determine the bending moment at point \( J \) when \( \theta = 90^\circ \). ### Diagram Explanation The diagram illustrates a half section of a pipe, represented as a semicircular arc labeled \( ABC \), resting on a horizontal surface. - The center of curvature of the arc is labeled \( O \). - The angle \( \theta \) is formed by radius \( OJ \) with the vertical, and it is specified to be \( 90^\circ \). - The horizontal distance from point \( O \) to the point directly below point \( J \) on the surface is indicated by \( r \). ### Calculation To find the bending moment, the formula and additional context may be required, but this will hinge on understanding the physical properties and spatial relationships between points. ### User Input Section **The bending moment is** [Input Box] **N·m in the** [Dropdown Menu].
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