### Static Equilibrium ProblemA 300-N weight hangs from two cables that are attached to the ceiling. The system is in static equilibrium, which means that the sum of the force vectors is zero. **Note:** The figure is not drawn to scale.#### Diagram Description- **Weight:** A vertical arrow labeled "Weight" points downward, representing the gravitational force of 300 N. - **Cable 1:** A line extends from the weight to the ceiling, forming an angle \( \theta_1 \) with the ceiling. This cable is labeled "Cable 1."- **Cable 2:** Another line extends from the weight to the ceiling, forming an angle \( \theta_2 \) with the ceiling. This cable is labeled "Cable 2."- **Angles:** - \( \theta_1 \) is the angle between Cable 1 and the ceiling. - \( \theta_2 \) is the angle between Cable 2 and the ceiling.#### Problem StatementCable 1 makes a 55° angle with the ceiling, and cable 2 makes a 35° angle with the ceiling. Determine the magnitude of the force in each cable.1. **The magnitude of the force in Cable 1 is:** _____ N2. **The magnitude of the force in Cable 2 is:** _____ N

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Description: ### Static Equilibrium ProblemA 300-N weight hangs from two cables that are attached to the ceiling. The system is in static equilibrium, which means that the sum of the force vectors is zero. **Note:** The figure is not drawn to scale.#### Diagram

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A 300-N weight hangs from two cables that are attached to the ceiling, and it is in static equilibrium, meaning that the sum of the force vectors is zero. [Figure is not drawn to scale.] 02 Cable 1 Cable 2 Weight Cable 1 makes a 55° angle with the ceiling, and cable 2 makes a 35° angle with the ceiling. Find the magnitude of the force in each cable, The magnitude of the force in Cable 1 is: The magnitude of the force in Cable 2 is: N.

A 300-N weight hangs from two cables that are attached to the ceiling, and it is in static equilibrium, meaning that the sum of the force vectors is zero. [Figure is not drawn to scale.] 02 Cable 1 Cable 2 Weight Cable 1 makes a 55° angle with the ceiling, and cable 2 makes a 35° angle with the ceiling. Find the magnitude of the force in each cable, The magnitude of the force in Cable 1 is: The magnitude of the force in Cable 2 is: N.

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ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

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Question

### Static Equilibrium Problem

A 300-N weight hangs from two cables that are attached to the ceiling. The system is in static equilibrium, which means that the sum of the force vectors is zero. **Note:** The figure is not drawn to scale.

#### Diagram Description

- **Weight:** A vertical arrow labeled "Weight" points downward, representing the gravitational force of 300 N.

- **Cable 1:** A line extends from the weight to the ceiling, forming an angle \( \theta_1 \) with the ceiling. This cable is labeled "Cable 1."

- **Cable 2:** Another line extends from the weight to the ceiling, forming an angle \( \theta_2 \) with the ceiling. This cable is labeled "Cable 2."

- **Angles:**
- \( \theta_1 \) is the angle between Cable 1 and the ceiling.
- \( \theta_2 \) is the angle between Cable 2 and the ceiling.

#### Problem Statement

Cable 1 makes a 55° angle with the ceiling, and cable 2 makes a 35° angle with the ceiling. Determine the magnitude of the force in each cable.

1. **The magnitude of the force in Cable 1 is:** _____ N
2. **The magnitude of the force in Cable 2 is:** _____ N

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