Electric Potential Energy and Sign

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SUMMARY

The discussion centers on the behavior of a negative point charge in an electric field created by a positively charged plate above and a negatively charged plate below. When the negative charge moves upward towards the positively charged plate, it experiences a force in the positive direction, resulting in negative work done by the electric field and a corresponding increase in electrostatic potential energy. This phenomenon is explained using the equation deltaU = -W, where the work done is negative, leading to an increase in potential energy as the charge moves against the electric field. The reference to "University Physics" by Young and Freedman reinforces this concept.

PREREQUISITES
  • Understanding of electric fields and forces
  • Familiarity with potential energy concepts in physics
  • Knowledge of the relationship between work and energy
  • Basic grasp of electrostatics and charge interactions
NEXT STEPS
  • Study the concept of electric potential energy using the formula ΔU = qΔV
  • Explore the implications of work done by electric fields in various charge configurations
  • Investigate the graphical representation of electric fields and potential energy
  • Review the principles of electrostatics in "University Physics" by Young and Freedman
USEFUL FOR

Students of physics, educators teaching electrostatics, and anyone interested in the principles of electric potential energy and charge interactions.

always_tired
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There is a negative point charge with a positively charged plate above it and a negatively charged plate below it. Define up as positive and down as negative. When the point charge moves towards the positively charged plate it does negative work. Why? The force the charge experiences is upward in the positive direction and it moves in the same direction as the force.
 
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It loses potential energy. That can be used to pull up something that is pulling downwards.

Just like a mass does when it goes from a high position to a lower position.
 
? It gains potential energy.
 
always_tired said:
? It gains potential energy.
It gains gravitational PE but loses (more) electrostatic PE.
 
No, it gains electrostatic potential energy. deltaU = -W; work is negative in this case; potential energy increases. From "University Physics" by Young and Freedman:

"Negative charge moves in the direction of the electric field, field does negative work, potential energy increases" (pg 756)

I'm wondering why this is true.
 
always_tired said:
"Negative charge moves in the direction of the electric field, field does negative work, potential energy increases" (pg 756)
I can only suppose that should say "If the negative charge ..."
In the OP, the direction of the field is down and the charge is moving up, so against the field. Correspondingly, the field is doing positive work and the electrostatic PE decreases.
 
"Negative charge moves in the direction of the electric field, field does negative work, potential energy increases" (pg 756)

I'm wondering why this is true.

Perhaps ##\Delta {\rm potential\ energy} = q\Delta V## ?

In your description the negative charge moves against the direction of the electric field !And what helped me was to draw a few graphs for a fixed single positive point charge case: 1/r2 for E, 1/r for V. And move a positive test charge from A to B >A. Then idem negative test charge.

I liked this presentation.
 

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