How Does Electric Potential Affect Electron Movement Between Charged Plates?

AI Thread Summary
Electric potential is a property of a location, not of the electron itself, which means an electron's movement is influenced by the electric potential of its surroundings. In the scenario described, the negatively charged plate creates a low electric potential, while the positively charged plate creates a high electric potential. An electron, being negatively charged, experiences a force that drives it from the low potential (near the negative plate) to the high potential (near the positive plate). This movement occurs despite the electron having higher potential energy at the low potential location due to the nature of electric fields and forces acting on charges. Understanding these principles clarifies how electrons can move from low to high potential areas.
Oscar Wilde
Messages
48
Reaction score
0
Lately I have been struggling with the concepts of electric potential and potential difference.

Here is a paraphrase of a scenario I am having trouble understanding. Suppose there is a negatively charged plate across from a positively charged plate. The electric field flows left to right, indicating that the negatively charged plate is on the right.

Now, suppose an electron is placed next to the negatively charged plate. I understand that here it is all potential energy, yet somehow its electric potential is at its smallest at this point. How does a negatively charged object move naturally from a low potential to a high potential? How can an electron, as described, have a low electric potential at a point where its potential energy is the highest?


I would appreciate an explanation, thank you very much

Oscar
 
Physics news on Phys.org
The electron does not "have" electric potential. Electric potential is a property of the location at which the electron is located, and exists regardless of whether the electron is there or not. (Assuming that the charged plates that create the potential are still there, of course.)

The electric potential energy of a charge Q, placed at at a location that has electric potential V, is PE = QV. You have to take into account the + or - signs of both Q and V.
 

Thread 'Why measure the speed of light in one direction?'

It may be shown from the equations of electromagnetism, by James Clerk Maxwell in the 1860’s, that the speed of light in the vacuum of free space is related to electric permittivity (ϵ) and magnetic permeability (μ) by the equation: c=1/√( μ ϵ ) . This value is a constant for the vacuum of free space and is independent of the motion of the observer. It was this fact, in part, that led Albert Einstein to Special Relativity.
View full post »

Similar threads

B Some Questions about Electric Current/Capacitors to help my understanding
Replies
7
Views
2K
Potential Gradient for individual charges and parallel plates?
Replies
33
Views
5K
I How is Potential Difference Created across a Resistor?
Replies
21
Views
4K
B Definition of ground potential in infinite sheet charge distributions
Replies
11
Views
2K
I Why Does Grounding Imply Zero Electric Potential in the Method of Images?
Replies
7
Views
2K
Max surface charge of a conductive plate
Replies
8
Views
1K
B Electric Field Created by 2 Infinite Plates
Replies
1
Views
1K
I Potential difference between a battery's terminal and Earth ground
2
Replies
58
Views
4K
Electric potential of an electron in a capacitor
Replies
7
Views
2K
I Parallel plate capacitor, charge imbalance VS charge redistribution
Replies
1
Views
876

Hot Threads

Recent Insights

Back
Top