depicts the potential energy of a 380-kg pallet that slides from rest down a frictionless roller conveyer ramp, then moves across a frictionless horizontal conveyer, and finally encounters a horizontal spring at x=4.0m.When the pallet encounters the spring, it momentarily comes to rest at x=6.0m At what height h above the horizontal conveyer did the pallet begin sliding from rest?

College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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depicts the potential energy of a 380-kg pallet that slides from rest down a frictionless roller conveyer ramp, then moves across a frictionless horizontal conveyer, and finally encounters a horizontal spring at x=4.0m.When the pallet encounters the spring, it momentarily comes to rest at x=6.0m

 

At what height h above the horizontal conveyer did the pallet begin sliding from rest?

The image depicts a graph that illustrates the relationship between position (x) and potential energy (J) for two types of energy: gravitational potential energy and spring potential energy.

**Graph Details:**

- **X-Axis (Position, x):** The horizontal axis represents the position in meters (m), ranging from 0 to 7 meters.
  
- **Y-Axis (Potential Energy, J):** The vertical axis represents potential energy in joules (J), ranging from 0 to 3000 J.

- **Gravitational Potential Energy:**
  - The gravitational potential energy curve is shown on the left side of the graph. 
  - It starts at a high energy level of 2500 J at a position of 0 m and decreases to 0 J at around 2.5 m.
  
- **Spring Potential Energy:**
  - The spring potential energy curve is shown on the right side of the graph.
  - It begins at 0 J near 2.5 m and rises to approximately 2750 J at 7 m.
  
This graph effectively demonstrates the conversion and conservation of energy between gravitational potential energy and spring potential energy as the position changes. It highlights how energy can transform from one form to another based on the system's configuration and external influences.
Transcribed Image Text:The image depicts a graph that illustrates the relationship between position (x) and potential energy (J) for two types of energy: gravitational potential energy and spring potential energy. **Graph Details:** - **X-Axis (Position, x):** The horizontal axis represents the position in meters (m), ranging from 0 to 7 meters. - **Y-Axis (Potential Energy, J):** The vertical axis represents potential energy in joules (J), ranging from 0 to 3000 J. - **Gravitational Potential Energy:** - The gravitational potential energy curve is shown on the left side of the graph. - It starts at a high energy level of 2500 J at a position of 0 m and decreases to 0 J at around 2.5 m. - **Spring Potential Energy:** - The spring potential energy curve is shown on the right side of the graph. - It begins at 0 J near 2.5 m and rises to approximately 2750 J at 7 m. This graph effectively demonstrates the conversion and conservation of energy between gravitational potential energy and spring potential energy as the position changes. It highlights how energy can transform from one form to another based on the system's configuration and external influences.
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