(Figure 1) shows two small 1.0 kg masses connected by massless but rigid 1.0-m-long rods. Figure 1.0 m n: 1.0 m 1.0 kg 1 of 1 1.0 kg

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What is the Tension in the rod that connects the pivot if the masses rotate at 39rpm in a horizontal circle?
**Transcription for Educational Website**

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**Description:**

The diagram (Figure 1) illustrates a system consisting of two small masses, each weighing 1.0 kg. These masses are interconnected by massless but rigid rods, each measuring 1.0 meters in length.

**Figure Explanation:**

- The diagram shows two brown spheres representing 1.0 kg masses.
- Each mass is connected by a rod labeled as 1.0 m in length.
- The structure forms a linear configuration with the two rods meeting at a central pivot point.

This setup is typically used to explore concepts related to rotational motion, centers of mass, or rigid body dynamics. It highlights the interaction of mass and distance, integral to understanding moments of inertia and related physical principles.
Transcribed Image Text:**Transcription for Educational Website** --- **Description:** The diagram (Figure 1) illustrates a system consisting of two small masses, each weighing 1.0 kg. These masses are interconnected by massless but rigid rods, each measuring 1.0 meters in length. **Figure Explanation:** - The diagram shows two brown spheres representing 1.0 kg masses. - Each mass is connected by a rod labeled as 1.0 m in length. - The structure forms a linear configuration with the two rods meeting at a central pivot point. This setup is typically used to explore concepts related to rotational motion, centers of mass, or rigid body dynamics. It highlights the interaction of mass and distance, integral to understanding moments of inertia and related physical principles.
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