The first graph represents the potential energy stored in a spring as a function of the spring’s compression. The second graph represents the potential energy stored in a spring as a function of the spring’s extension.
As the spring is compressed, the potential energy stored in the spring increases. As the spring is extended, the potential energy stored in the spring decreases.
Other related questions:
Q: Which graph best represents the relationship between the kinetic energy KE and the velocity?
A: The graph of kinetic energy versus velocity is linear. This means that there is a direct relationship between kinetic energy and velocity – as one increases, so does the other.
Q: What happens to the potential energy of a spring if it’s stretched?
A: The potential energy of a spring is directly proportional to the amount of stretch or compression of the spring. So, if a spring is stretched, the potential energy of the spring will increase.
Q: How does height affect potential energy?
A: The potential energy of an object can be affected by its height. The higher an object is, the more potential energy it has.
Bibliography
- Level One Review: Calculations, Variables, Graphs, Vectors
- Hooke’s Law & Elastic Potential | Physics – Quizizz
- Practice – Springs and Pendula
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