What is energy at infinity in the context of electrical potential energy?

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Discussion Overview

The discussion centers around the concept of "energy at infinity" in the context of electrical potential energy, particularly related to point charges and the reference points used for measuring electric potential. Participants explore the implications of choosing infinity as a reference point for potential energy and how it relates to the behavior of electric fields.

Discussion Character

  • Conceptual clarification
  • Debate/contested
  • Technical explanation

Main Points Raised

  • Some participants note that electric potential is defined relative to a reference point, often chosen to be zero at infinity, where the potential from a point charge approaches zero.
  • One participant highlights that potential can be defined up to a constant, suggesting that different reference points can yield equivalent potentials.
  • Another participant questions whether "infinity" refers to a distance far from the charge or near it, indicating a need for clarification on the concept.
  • It is mentioned that potential and potential energy are relative, and choosing an appropriate reference point allows for treating them as absolute values.
  • Some participants propose that the assumption of no interaction between charges at infinite distances is reasonable, emphasizing the conceptual framework behind this choice.
  • A later reply warns against oversimplifying the relationship between electric potential and energy required to separate charges, suggesting a nuanced understanding is necessary.

Areas of Agreement / Disagreement

Participants express varying levels of understanding and agreement on the concept of energy at infinity, with some clarifying the idea while others remain confused. No consensus is reached on the implications of this concept, and multiple interpretations are present.

Contextual Notes

Participants discuss the limitations of defining potential and energy based on chosen reference points, indicating that the choice of infinity as a reference is not universally applicable across all scenarios involving electric fields.

canoluk2003
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Hi guys, have some problem with Electrical PE.

My textbook said sth like this " for the electric field produced by a point charge, we usually choose the energy at infinity to be zero"

What does that mean? What is "energy at infinity"?

Thx!
 
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canoluk2003 said:
Hi guys, have some problem with Electrical PE.

My textbook said sth like this " for the electric field produced by a point charge, we usually choose the energy at infinity to be zero"

What does that mean? What is "energy at infinity"?

Thx!


Potential (like gravitational potential) is determined up to a constant. So, \phi_1 = \frac{1}{r} is just as good as the potential \phi_2 = \frac{1}{r} + 1.

But it is often nice to chose one with appropriate boundary condition, such as [\itex]\lim_{r \to \infty) \phi (r) = 0[/itex]. One of the two above satisfies this condition.
 
So...(don't quite understand), is the "infinity" mentioned in my textbook away from the fixed charge or very near to the fixed charge?

Can you explain in a simpler way? :D

Thx!
 
Potential and potential energy are relative. Between two points, there is an absolute difference in potential and potential energy. If an appropriate reference point is chosen, then potential and potential energy can be treated as absolute values instead of relative ones. Since potential from a point charge is relative to 1/r, then choosing ∞ as the reference point make sense because 1/∞ = 0.

For a infinite plane with some finite positive charge per unit area, or between two plates of a capacitor, potential is relative to distance from the positive plate (r), so it make sense to use the surface of the plate (r = 0) as the reference distance.

For an infinite wire, potential is relative to ln(... r), so it makes sense to choose some distance r where ln(... r) is zero as the reference distance.
 
easier way to understand is "for the electric field produced by a point charge, assume Energy = 0 at a distance \infty away from the point charge."
 
thx dude! i was really confused with the word "infinite" haha
 
hello canoluk, welcome to Physics Forums

∞ away from the point charge."

The 'assumption' that there is no interaction beteen charges an infinite distance apart is not at all unreasonable.

It is very important that you do not fall into the trap of saying

"The electric potential is energy required to separate two charges"

Reading this thead may help

https://www.physicsforums.com/showthread.php?t=489731&highlight=potential&page=2

go well
 

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