The electrical resistance of an electrical conductor is a measure of the difficulty of passing an electric current through a substance. It explains the relationship between voltage and the current. With more resistance in a circuit, less electricity will flow through the circuit. The inverse of resistance is conductance, a measure not much used. All objects have some resistance, except superconductors.
Resistance, discovered by Georg Simon Ohm in 1827, is the ratio between voltage and current. Ohm's law said that the voltage between any two points in a conductor changes directly as the current between the two points, given the temperature remains the same. He described it with the equation:
which models the ratio, where:
Calculating resistance Edit
A long and thin wire has more resistance than a short and thick one. A simple analogy is a road - the more lanes there are, the more cars can go through. The resistance R of a wire with a constant width, therefore, can be calculated as:
where is the length of the conductor, measured in meters [m], is the cross-sectional area of the conductor measured in square meters [m²], and ρ (Greek: rho) is the electrical resistivity (also called specific electrical resistance) of the material, measured in ohm-meters (Ω m).
Example: Calculate the resistance of copper wire with a radius of 2mm and a length of 5 meters.
- The resistivity ( ) of copper is Ω m.
- The cross sectional area ( ) is square meters
- The length ( ) is meters