When a spring is attached to the metal bob (the green object) as shown in the image, the string from which it hangs is vertical. Draw a free body diagram for the bob and label the forces. What force or forces provides the net force or centripetal force that keeps the hanging bob moving in a circular path? Also, what force supports the weight of the bo

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Chapter1: Units, Trigonometry. And Vectors
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When a spring is attached to the metal bob (the green object) as shown in the image, the string from which it hangs is vertical. Draw a free body diagram for the bob and label the forces. What force or forces provides the net force or centripetal force that keeps the hanging bob moving in a circular path? Also, what force supports the weight of the bob?

**Figure 7-14: Free-Body Diagram**

This illustration contains two primary components:

1. **Spring Mechanism:**
   - On the left side, a coiled spring is attached to a hanging mass. The spring is depicted extending horizontally from a fixed point.

2. **Hanging Masses:**
   - Two masses are shown. The upper mass is suspended by two cables or supports from a horizontal bar. This setup likely represents a system in equilibrium.
   - The lower mass is labeled "FBD," indicating it is a simplified representation for a free-body diagram. This diagram helps visualize the forces acting on the mass.

The figure is designed to illustrate the concept of forces in equilibrium and the application of free-body diagrams in engineering or physics contexts.
Transcribed Image Text:**Figure 7-14: Free-Body Diagram** This illustration contains two primary components: 1. **Spring Mechanism:** - On the left side, a coiled spring is attached to a hanging mass. The spring is depicted extending horizontally from a fixed point. 2. **Hanging Masses:** - Two masses are shown. The upper mass is suspended by two cables or supports from a horizontal bar. This setup likely represents a system in equilibrium. - The lower mass is labeled "FBD," indicating it is a simplified representation for a free-body diagram. This diagram helps visualize the forces acting on the mass. The figure is designed to illustrate the concept of forces in equilibrium and the application of free-body diagrams in engineering or physics contexts.
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