Add to ORKGWe provide theoretical insights on a mathematical approach used to calculate the Coulomb electrostatic potential of a uniformly charged square plate at any given point on its plane that we developed in the past. It is shown here that this method can be generalized in an elegant way to calculate this quantity at any arbitrary point in space. We explain the formalism and illustrate the implementation of the technique by providing all the key results that lead to an exact analytic expression for the value of the electrostatic potential on a point in the line perpendicular to the square plate that passes through its center
The most popular model for a two-dimensional electronic system considers electrons moving in a backg...
Knowledge of electrical potential and energy is important to systems where electrostatic forces play...
A large number of electronic devices contain charged, flat plates (electrodes) as their components. ...
We calculate exactly in closed analytic form the Coulomb electrostatic potential created by a unifor...
We calculate exactly the Coulomb electrostatic potential created by a uniformly charged square on it...
We use a novel method to calculate in closed form the Coulomb electrostatic potential created by a u...
We consider a recent paper by Aghamohammadi (2011 Eur. J. Phys. 32 633) focused on the calculation o...
Closed-form expressions of the Coulomb electrostatic potential created by a uniformly charged disk a...
Uniformly charged regular bodies have always been of great interest to physics as well as to several...
We study the form of the electrostatic potential created by a hemispherical surface with uniform sur...
A common problem in electrostatics is determining the electrostatic potential due to a uniformly cha...
We use two different frameworks to calculate the electrostatic potential created by a uniformly char...
The most popular model for a two-dimensional electronic system considers electrons moving in a backg...
Knowledge of electrical potential and energy is important to systems where electrostatic forces play...
A large number of electronic devices contain charged, flat plates (electrodes) as their components. ...
We calculate exactly in closed analytic form the Coulomb electrostatic potential created by a unifor...
We calculate exactly the Coulomb electrostatic potential created by a uniformly charged square on it...
We use a novel method to calculate in closed form the Coulomb electrostatic potential created by a u...
We consider a recent paper by Aghamohammadi (2011 Eur. J. Phys. 32 633) focused on the calculation o...
Closed-form expressions of the Coulomb electrostatic potential created by a uniformly charged disk a...
Uniformly charged regular bodies have always been of great interest to physics as well as to several...
We study the form of the electrostatic potential created by a hemispherical surface with uniform sur...
A common problem in electrostatics is determining the electrostatic potential due to a uniformly cha...
We use two different frameworks to calculate the electrostatic potential created by a uniformly char...
The most popular model for a two-dimensional electronic system considers electrons moving in a backg...
Knowledge of electrical potential and energy is important to systems where electrostatic forces play...
A large number of electronic devices contain charged, flat plates (electrodes) as their components. ...