Webpage title: Understanding Elastic Potential Energy in Springs

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SUMMARY

The discussion confirms that elastic potential energy (EPE) stored in a spring is the same whether the spring is compressed or stretched by the same amount. This conclusion is supported by the formula for elastic potential energy, PEe = 1/2 kx², where x represents the displacement from the equilibrium position. Since the formula involves x², the energy depends only on the magnitude of displacement, not its direction. Thus, both compression and extension yield identical amounts of stored energy.

PREREQUISITES
  • Understanding of basic physics concepts, specifically energy types.
  • Familiarity with Hooke's Law and spring mechanics.
  • Knowledge of mathematical functions, particularly even functions.
  • Basic algebra skills for manipulating equations.
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  • Study Hooke's Law and its applications in mechanical systems.
  • Explore the concept of potential energy in different contexts, such as gravitational potential energy.
  • Learn about the characteristics of even functions in mathematics.
  • Investigate real-world applications of springs in engineering and design.
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Students in physics, educators teaching mechanics, and anyone interested in understanding the principles of energy storage in springs.

mr.coon
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Question:

Is more elastic potential energy stored in a spring when the spring is compressed by one centimeter than when it is stretched by the same amount?


my conclusion:

part of the definition in the book states that Elastic Potential Energy is the energy that a spring has by virtue of being stretched or compressed. going off this statement i would say that the answer is NO because the definition makes no differentiation between stretching and compressing. there is also some other discussion in the text that would believe me to believe that the EPE would be the same whether the spring is compressed or stretched. also, there is also only one formula in the book: PEe= 1/2kx2 am i right?
 
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mr.coon said:
Question:

Is more elastic potential energy stored in a spring when the spring is compressed by one centimeter than when it is stretched by the same amount?


my conclusion:

part of the definition in the book states that Elastic Potential Energy is the energy that a spring has by virtue of being stretched or compressed. going off this statement i would say that the answer is NO because the definition makes no differentiation between stretching and compressing. there is also some other discussion in the text that would believe me to believe that the EPE would be the same whether the spring is compressed or stretched. also, there is also only one formula in the book: PEe= 1/2kx2 am i right?
You are indeed correct. One can observe the fact simply by looking at the formula for the potential energy. Here x is the displacement of the spring from its equilibrium position, negative x represents compression, whilst positive x represents extension. Since we are dealing with x2, it doesn't matter what the sign of x is, merely the magnitude of x. Mathematically, this means that the energy is an even function.
 
thank you Hoot.

i just wanted to make absolutely sure because this question is for some extra credit that i desperately need.
 

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