to 95. As shown below, if M = 6.0 kg, what is the tension %3D in the connecting string? The pulley and all surfaces are frictionless. M (s) S aldeg 30° M

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Ch.5 Problem 95
**Problem 95: Physics - Mechanics**

As shown in the diagram, if \( M = 6.0 \, \text{kg} \), what is the tension in the connecting string? The pulley and all surfaces are frictionless.

**Diagram Explanation:**

The given setup includes:
- An inclined plane making an angle of \(30^\circ\) with the horizontal.
- A mass \( M \) (6.0 kg) is placed on the incline.
- A string connects this mass over a pulley to another mass \( M \) hanging vertically.
- Both masses are labeled as \( M \).
- The pulley system is frictionless, meaning that surfaces and the pulley do not exert additional forces to oppose the motion besides the gravitational force on the masses.

This scenario requires applying Newton's laws of motion and considering forces acting parallel and perpendicular to the incline. The objective is to calculate the tension in the string due to these forces.
Transcribed Image Text:**Problem 95: Physics - Mechanics** As shown in the diagram, if \( M = 6.0 \, \text{kg} \), what is the tension in the connecting string? The pulley and all surfaces are frictionless. **Diagram Explanation:** The given setup includes: - An inclined plane making an angle of \(30^\circ\) with the horizontal. - A mass \( M \) (6.0 kg) is placed on the incline. - A string connects this mass over a pulley to another mass \( M \) hanging vertically. - Both masses are labeled as \( M \). - The pulley system is frictionless, meaning that surfaces and the pulley do not exert additional forces to oppose the motion besides the gravitational force on the masses. This scenario requires applying Newton's laws of motion and considering forces acting parallel and perpendicular to the incline. The objective is to calculate the tension in the string due to these forces.
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