Electric Potential: V = IR Explained

AI Thread Summary
Electric potential is inversely related to distance, following a 1/distance formula, while the force between point charges follows an inverse square law. The confusion arises in relating electric potential to Ohm's Law (V = IR), which describes the behavior of charges in a material rather than the potential of individual charges. Ohm's Law is a material property and does not derive from the principles governing point charges. In uniform electric fields, the electric potential changes linearly with distance. Understanding these distinctions is crucial for grasping the relationship between electric potential and current flow.
touqra
Messages
284
Reaction score
0
Electric potential goes like the inverse of distance squared and the product of the two charges. But I can't see how this can produce V = IR.
 
Physics news on Phys.org
touqra said:
Electric potential goes like the inverse of distance squared and the product of the two charges. But I can't see how this can produce V = IR.

The relationship is very remote ! The first you cite is the potential of a *point charge in space*. The second (ohm's law) is the relationship between the motion and the potential distribution of a whole collection of charges within a certain material (which will have its influence on the dynamics).
Ohm's law is a material property (which doesn't always hold, btw), a bit like Hooke's law for the elastic behaviour of materials, while the first law you cited is more like, say, the law of Newtonian gravitation. You cannot derive Hooke's law from Newton's law of gravitation either.
 
touqra said:
Electric potential goes like the inverse of distance squared and the product of the two charges. But I can't see how this can produce V = IR.

The last time I saw, the potential went like one over distance (not squared!) and depended only on the source charge. What you say is true for the force between two point charges, though.
 
neutrino said:
The last time I saw, the potential went like one over distance (not squared!) and depended only on the source charge. What you say is true for the force between two point charges, though.

Ooops. I typed too fast. 1/distance squared for electric force. 1/distance for potential.
 
It might be good to review the microscopic Ohm's Law:
http://hyperphysics.phy-astr.gsu.edu/hbase/electric/ohmmic.html
although this presentation doesn't address the relevant issues in the order needed to address the OP.

As a first step, recall that when the electric field is uniform, the electric potential varies linearly with distance.
 
Last edited:

Similar threads

I How is Potential Difference Created across a Resistor?
Replies
21
Views
4K
A Origin of Hertzian dipole radiation
Replies
21
Views
2K
I Why Does Grounding Imply Zero Electric Potential in the Method of Images?
Replies
7
Views
3K
B E. Potential Energy: Uniformly Charged Hollow Sphere and Point Charge
Replies
4
Views
1K
A Finding potential of a dipole outside of a sphere
Replies
2
Views
1K
I Work done by electric field of an irregularly shaped conductor
Replies
3
Views
2K
I Is this example incorrect in Agawal's book on electric circuits?
Replies
3
Views
2K
I Electric field of ring at any point
Replies
2
Views
831
A Voltage and current waves in a transmission line
Replies
4
Views
3K
I Is electromotive force always equal to potential difference?
Replies
9
Views
2K

Hot Threads

Recent Insights

Back
Top