Poisson Equation for Electrostatic Potential
Live Script that solves the Poisson equation to find the electrostatic potential surrounding charge near a conductor in two dimensions.
You are now following this Submission
- You will see updates in your followed content feed
- You may receive emails, depending on your communication preferences
The electrostatic potential V associated with a static charge density ρ is governed by Poisson's equation which follows from Gauss's Law in differential form. This Live Script illustrates how to use the 2nd order central difference approximation for the Laplacian on a square grid to represent Poisson's equation as a matrix equation. The potential values are found by matrix inversion. The example illustrated here is a single line charge inside a cylindrical hole in a conductor.
This script may interest students and instructors of physics. 'Try this' suggestions and coding 'Challenges' are included for further exploration. Alternative methods of solving two-dimensional electrostatics problems are explored in Ref[1-2].
Cite As
Duncan Carlsmith (2026). Poisson Equation for Electrostatic Potential (https://www.mathworks.com/matlabcentral/fileexchange/178404-poisson-equation-for-electrostatic-potential), MATLAB Central File Exchange. Retrieved .
Acknowledgements
Inspired: Poisson Equation PDE Model Explorer
General Information
- Version 1.01 (1.63 MB)
MATLAB Release Compatibility
- Compatible with any release
Platform Compatibility
- Windows
- macOS
- Linux
