The tension in cable AB is 900 N. What is the component of force from this tension in the positive x direction? List in Newtons to three significant figures. Sure!---**Figure Description and Analysis****Title: Guy Wire System for Tower Stabilization**In the provided diagram, we observe a three-dimensional representation of a tower with multiple supporting guy wires. The system is designed to stabilize the tower using several key locations and dimensions.**Diagram Breakdown:**1. **Axis:** - The diagram operates in a three-dimensional coordinate system with \(x\), \(y\), and \(z\) axes. The origin \(O\) is at ground level, where the tower appears to be anchored.2. **Tower:** - The vertical tower is denoted by coordinates \(O\) and \(B\) with a length of 6 meters. - Point \(B\) is at the top of the vertical tower (at x = y = 0, z = 6 meters).3. **Guy Wires:** - Several guy wires are used to stabilize the tower by attaching it to the ground at various points. - Wire BC is connected from point \(B\) of the tower to point \(C\) at the top (coordinates of C are unknown but it appears vertically aligned with \(O\)) and has a length of 2 meters.4. **Anchoring Points:** - The anchoring points for the guy wires on the ground are represented by points \(A\), \(D\), and \(E\). - Point \(A\) is positioned at (x = 3 meters, y = -6 meters). - Point \(D\) is located at (x = 5 meters, y = 6 meters). - Point \(E\) is positioned at (x = -4 meters, y = -4 meters).**Interpretations:**- **Stability Mechanism:** - The guy wires (lines connecting the top of the tower with points \(A\), \(D\), and \(E\)) are crucial for providing stability against lateral forces like wind pressure. - By attaching the wires at strategically distant positions on the ground and connecting them to the tower, it ensures the stability and balance of the structure. - **Geometric and Mechanical Considerations:** - For engineering and mechanical design, understanding the lengths and angles of these wires, as well as the tensions they carry, is fundamental. This ensures the tower remains erect and safe under various force conditions.This diagram serves as

Given data-tension in cable AB is= 900 NDetermine- component of force from this tension in the…

Answered: The tension in cable AB is 900 N. What…

The tension in cable AB is 900 N. What is the component of force from this tension in the positive x direction? List in Newtons to three significant figures.

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

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Concept explainers

Axial Load

When a bar of the uniform cross-section is acted by a load, such that the load acts along the longitudinal axis of the bar, such kinds of loadings are known as axial loadings. In general terms, a load is an external force acting on a component. An axial load acts perpendicular to the geometric cross-section of the component. Based on the direction of the application of the load, an axial load can be tensile or compressive. The analysis of bodies under the action of axial loads is generally studied under the branch of mechanics, known as statics.

Question

The tension in cable AB is 900 N. What is the component of force from this tension in the positive x direction? List in Newtons to three significant figures.

Sure!

---

**Figure Description and Analysis**

**Title: Guy Wire System for Tower Stabilization**

In the provided diagram, we observe a three-dimensional representation of a tower with multiple supporting guy wires. The system is designed to stabilize the tower using several key locations and dimensions.

**Diagram Breakdown:**

1. **Axis:**
- The diagram operates in a three-dimensional coordinate system with \(x\), \(y\), and \(z\) axes. The origin \(O\) is at ground level, where the tower appears to be anchored.

2. **Tower:**
- The vertical tower is denoted by coordinates \(O\) and \(B\) with a length of 6 meters.
- Point \(B\) is at the top of the vertical tower (at x = y = 0, z = 6 meters).

3. **Guy Wires:**
- Several guy wires are used to stabilize the tower by attaching it to the ground at various points.
- Wire BC is connected from point \(B\) of the tower to point \(C\) at the top (coordinates of C are unknown but it appears vertically aligned with \(O\)) and has a length of 2 meters.

4. **Anchoring Points:**
- The anchoring points for the guy wires on the ground are represented by points \(A\), \(D\), and \(E\).
- Point \(A\) is positioned at (x = 3 meters, y = -6 meters).
- Point \(D\) is located at (x = 5 meters, y = 6 meters).
- Point \(E\) is positioned at (x = -4 meters, y = -4 meters).

**Interpretations:**

- **Stability Mechanism:**
- The guy wires (lines connecting the top of the tower with points \(A\), \(D\), and \(E\)) are crucial for providing stability against lateral forces like wind pressure.
- By attaching the wires at strategically distant positions on the ground and connecting them to the tower, it ensures the stability and balance of the structure.

- **Geometric and Mechanical Considerations:**
- For engineering and mechanical design, understanding the lengths and angles of these wires, as well as the tensions they carry, is fundamental. This ensures the tower remains erect and safe under various force conditions.

This diagram serves as

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