Electric Resistivity Converter
Convert electric resistivity measurements.
Popular Electric Resistivity Conversions
Complete List of Electric Resistivity Units for Conversion
1 Ohm Centimeter [Ω·cm] = 0.0100000 Ohm Meter [Ω·m]
1 Microohm Centimeter [µΩ·cm] = 1.00000e-8 Ohm Meter [Ω·m]
Microohm Centimeter to Ohm Meter, Ohm Meter to Microohm Centimeter
1 Ohm Millimeter [Ω·mm] = 0.00100000 Ohm Meter [Ω·m]
1 Ohm Inch [Ω·in] = 0.0254000 Ohm Meter [Ω·m]
1 Ohm Foot [Ω·ft] = 0.304800 Ohm Meter [Ω·m]
1 Abohm Centimeter [abΩ·cm] = 1.00000e-11 Ohm Meter [Ω·m]
Abohm Centimeter to Ohm Meter, Ohm Meter to Abohm Centimeter
1 Statohm Centimeter [statΩ·cm] = 8.98755e+9 Ohm Meter [Ω·m]
Statohm Centimeter to Ohm Meter, Ohm Meter to Statohm Centimeter
How this electric resistivity converter works
Ohm Meter (Ω·m) is used as the internal base unit. Every value you enter is first converted to Ohm Meter using exact SI factors, then translated to the requested unit with the same data pulled from the SI Brochure and NIST SP 811.
Key electric resistivity relationships
- 1 Ohm Centimeter = 0.01 Ohm Meter
- 1 Microohm Centimeter = 1.0000e-8 Ohm Meter
- 1 Ohm Millimeter = 0.001 Ohm Meter
- 1 Ohm Inch = 0.0254 Ohm Meter
- 1 Ohm Foot = 0.3048 Ohm Meter
Where electric resistivity units are used
Electrical engineers, PCB designers, and maintenance teams convert these electrical quantities while specifying circuits, troubleshooting faults, and documenting test data. The electric resistivity converter covers real-world units such as Ohm Meter and Ohm Centimeter, giving teams a trusted reference when cross-checking data between labs, suppliers, and regulatory filings.
Tips for accurate electric resistivity conversions
- Always verify the unit symbol in your worksheet—this converter normalizes values through Ohm Meter, which is the SI reference for electric resistivity measurements.
- When jumping between Ohm Meter and Ohm Centimeter, watch metric prefixes and rounding. A misplaced milli-, micro-, or kilo- prefix can produce errors of several orders of magnitude.
- Document the context (test conditions, instrument resolution, uncertainty) whenever you publish electric resistivity conversions so coworkers and auditors can reproduce your results.