Resistance vs. Resistivity (original) (raw)

Electrical resistance of an electrical conductor depends on

Electrical resistance of a conductor can be calculated as

R = ρ L / A

= L / (σ A) (1)

where

R = resistance of the conductor (ohms, Ω)

σ = electrical conductivity (1/ohms m, 1/Ω m, siemens/m, S/m, mho/m)

L = length of conductor (m)

A = cross-sectional area of conductor (m2)

Aluminum: 2.65×10-8 Ω m (0.0265 μΩ m)
Carbon: 10×10-8 Ω m (0.10 μΩ m)
Copper: 1.724×10-8 Ω m (0.0174 μΩ m)
Iron: 10×10-8 Ω m (0.1 μΩ m)
Silver: 1.6×10-8 Ω m (0.0265 μΩ m)

Note that resistivity depends on temperature . The values above are for temperatures 20 oC .

Note that good conductors of electricity have low resistivity and good insulators have high resistivity.

The resistance of 10 meter gauge 17 copper wire with cross sectional area 1.04 mm2 can be calculated as

R = (1.7×10-8 Ω m) (10 m) / ((1.04 mm2)(10-6 m2/mm2))

= 0.16 Ω

The copper wire above is reduced to gauge 24 and cross-sectional area 0.205 mm 2. The increase in resistance can be calculated to

R = (1.7×10-8 Ω m) (10 m) / ((0.205 mm2)(10-6 m2/mm2))

= 0.83 Ω