Ohm's Law
A current density J and an electric field E are established in an object that has a potential difference DV across it. In some materials the current density is directly proportional to the electric field - these are known as ohmic materials.
Ohm's Law: J = sE
where s is the conductivity of the material, a measure of how easily charges move through it.
| Resistivity is the inverse of conductivity: r |
= |
| 1
|  |
| s
|
|
Combine this with:
| J |
= |
| I
| |
| A
|
|
and, for a uniform field, E |
= |
| DV
| |
| l
|
|
where l is the length of the conductor.
| I
| |
| A
|
|
= |
| DV
| |
| r l
|
|
| DV |
= I |
( |
| r l
| |
| A
|
|
) |
This is another form of Ohm's Law: DV = IR
| where R, the resistance of the conductor, is given by R |
= |
| r l
| |
| A
|
|