**Physics Problem: Acceleration of a Suspended Object****Problem Statement:** If $ F = 47.6 \, \text{N} $ and $ M = 1.8 \, \text{kg} $, what is the magnitude of the acceleration of the suspended object? All surfaces are frictionless.**Diagram Description:**The diagram shows a pulley system. The system comprises the following:1. A force $ F $ with a magnitude of 47.6 N applied at an angle of 30° to the horizontal.2. A mass labeled $ 2M $ is connected to the force $ F $ and positioned on a horizontal surface.3. The $ 2M $ mass is connected over a pulley to another mass labeled $ M $, which is hanging vertically.Key information:- The pulley is frictionless.- Surfaces are frictionless.- Given $ M = 1.8 \, \text{kg} $.Using this information, we can solve for the magnitude of the acceleration of the suspended object ($ M $) using Newton's second law and principles of mechanics.

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Answered: If F = 47.6 N and M = 1.8 kg, what is…

If F = 47.6 N and M = 1.8 kg, what is the magnitude of the acceleration of the suspended object? All surfaces are frictionless. F

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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Question

**Physics Problem: Acceleration of a Suspended Object**

**Problem Statement:**
If $ F = 47.6 \, \text{N} $ and $ M = 1.8 \, \text{kg} $, what is the magnitude of the acceleration of the suspended object? All surfaces are frictionless.

**Diagram Description:**
The diagram shows a pulley system. The system comprises the following:

1. A force $ F $ with a magnitude of 47.6 N applied at an angle of 30° to the horizontal.
2. A mass labeled $ 2M $ is connected to the force $ F $ and positioned on a horizontal surface.
3. The $ 2M $ mass is connected over a pulley to another mass labeled $ M $, which is hanging vertically.

Key information:
- The pulley is frictionless.
- Surfaces are frictionless.
- Given $ M = 1.8 \, \text{kg} $.

Using this information, we can solve for the magnitude of the acceleration of the suspended object ($ M $) using Newton's second law and principles of mechanics.

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