**Problem Statement:**If the tension in BC is 100 N, find the internal shear, normal, and bending moment at point D.**Diagram Explanation:**The diagram illustrates a structural system in three-dimensional space, involving points A, B, C, and D. The system comprises:- A force of 400 N acting vertically downward at point A.- A force of 200 N acting horizontally to the left at point B.- A line segment BC with a tension of 100 N.- Distances are marked as follows: - The length from B to D is 1.5 meters. - The vertical height from B to A is 3 meters. - The horizontal distance from B to C (along the x-axis) is 1 meter. - A perpendicular distance from A to C is 1.5 meters.Coordinates:- The three-dimensional space is defined by x, y, and z axes.- The system is simplified by a diagram indicating the forces and the points of interest.**Objective:**- To determine the internal shear force, normal force, and bending moment at point D of the given structure based on the given forces and dimensions.

Given: FBC=100 N Find the position vector of the given assembly: OC→=1.5…

Answered: If the tension in BC is 100N, find the…

If the tension in BC is 100N, find the internal shear, normal and bending moment at point D. 1.5 m 3 m 400 N 1.5 m 200 N 1m B

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

**Problem Statement:**

If the tension in BC is 100 N, find the internal shear, normal, and bending moment at point D.

**Diagram Explanation:**

The diagram illustrates a structural system in three-dimensional space, involving points A, B, C, and D. The system comprises:

- A force of 400 N acting vertically downward at point A.
- A force of 200 N acting horizontally to the left at point B.
- A line segment BC with a tension of 100 N.
- Distances are marked as follows:
- The length from B to D is 1.5 meters.
- The vertical height from B to A is 3 meters.
- The horizontal distance from B to C (along the x-axis) is 1 meter.
- A perpendicular distance from A to C is 1.5 meters.

Coordinates:

- The three-dimensional space is defined by x, y, and z axes.
- The system is simplified by a diagram indicating the forces and the points of interest.

**Objective:**

- To determine the internal shear force, normal force, and bending moment at point D of the given structure based on the given forces and dimensions.

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