The four masses shown in (Figure 1) are connected by massless, rigid rods. Assume that m = 190 g. a)What is the x-coordinate of the center of gravity? b)What is the y-coordinate of the center of gravity?         c)Find the moment of inertia about an axis that passes through mass AA and is perpendicular to the plane of the image. Express your answer in kilogram meters squared to two significant figures

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The four masses shown in (Figure 1) are connected by massless, rigid rods. Assume that m = 190 g.

a)What is the x-coordinate of the center of gravity?

b)What is the y-coordinate of the center of gravity?      
 
c)Find the moment of inertia about an axis that passes through mass AA and is perpendicular to the plane of the image.
Express your answer in kilogram meters squared to two significant figures.
**Text:**

The four masses shown in (Figure 1) are connected by massless, rigid rods. Assume that \( m = 190 \, \text{g} \).

**Figure Explanation:**

The diagram displays a rectangular arrangement formed by four masses connected by massless, rigid rods. The vertices where the masses are located are labeled as A, B, C, and D.

- **Point A:** Has a mass of 100 g.
- **Point B:** Has a mass labeled as \( m \).
- **Point C:** Has a mass of 300 g.
- **Point D:** Has a mass labeled as \( m \).

The distance between points A and B, as well as between C and D (vertically), is 8 cm. The distance between points B and C, as well as between A and D (horizontally), is 10 cm.

The axes are labeled such that the horizontal dimension is represented by the x-axis and the vertical dimension is represented by the y-axis.

In this setup, \( m = 190 \, \text{g} \).
Transcribed Image Text:**Text:** The four masses shown in (Figure 1) are connected by massless, rigid rods. Assume that \( m = 190 \, \text{g} \). **Figure Explanation:** The diagram displays a rectangular arrangement formed by four masses connected by massless, rigid rods. The vertices where the masses are located are labeled as A, B, C, and D. - **Point A:** Has a mass of 100 g. - **Point B:** Has a mass labeled as \( m \). - **Point C:** Has a mass of 300 g. - **Point D:** Has a mass labeled as \( m \). The distance between points A and B, as well as between C and D (vertically), is 8 cm. The distance between points B and C, as well as between A and D (horizontally), is 10 cm. The axes are labeled such that the horizontal dimension is represented by the x-axis and the vertical dimension is represented by the y-axis. In this setup, \( m = 190 \, \text{g} \).
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