Understanding Electric Potential: Work and Infinity Explained

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SUMMARY

Electric potential (V) is defined as the work done in bringing a point charge (+1C) from infinity to a specific point in an electric field. The reference point of infinity is chosen because electric fields approach zero at that distance, simplifying calculations. The negative sign in the equations arises from the relationship between force and potential energy, expressed as F = -∇φ and E = -∇V, indicating that the force acts in the direction of decreasing potential.

PREREQUISITES
  • Understanding of electric fields and forces
  • Familiarity with potential energy concepts
  • Knowledge of vector calculus, specifically gradients
  • Basic principles of electrostatics
NEXT STEPS
  • Research the concept of electric fields and their mathematical representation
  • Study the relationship between force and potential energy in electrostatics
  • Learn about the implications of choosing reference points in potential energy calculations
  • Explore advanced topics in vector calculus relevant to electromagnetism
USEFUL FOR

Students of physics, electrical engineers, and anyone interested in the foundational concepts of electrostatics and electric potential.

v_pino
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I've been told that Electric potential (V) is the work done in bringing a point charge (+1C) from infinity to a given point in an electric field.

Why infinity? And how come it is negative?

What should I research into for further details?

Thank you.
 
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Potentials are always defined up to a constant. That means that there needs to be some reference point to uniquely define the potential. Sort of like defining altitude relative to sea level. It is conventional to choose infinity as the reference point, since electric fields are generally 0 at infinity, and it greatly simplifies the math.

The negative sign is because it is conventional to write
\vec{F} = -\nabla\phi
where F is the force and phi is the potential energy.
This extends to electrostatics, so we write
\vec{E} = -\nabla V
 

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