Electrical
GΩtoµΩ
Convert giga-ohms (GΩ) to micro-ohms (µΩ).
Factor1 GΩ = 1e+15 µΩ
Converter
GΩ
Accepts numbers or expressions, e.g. 150 + 14.7
Result
µΩ
Rendered to 6 significant figures.
Formula
Formula
µΩ = GΩ × 1e+15
Multiply any value in giga-ohms by 1e+15 to obtain the value in micro-ohms.
Worked example
Convert 1 GΩ to µΩ.
- 01Start with 1 GΩ.
- 02Multiply by the conversion factor: 1 × 1e+15 = 1e+15 µΩ.
Result1 GΩ = 1e+15 µΩ
Conversion table
| GΩ | µΩ |
|---|---|
| 1 | 1e+15 |
| 2 | 2e+15 |
| 5 | 5e+15 |
| 10 | 1e+16 |
| 20 | 2e+16 |
| 50 | 5e+16 |
| 100 | 1e+17 |
| 200 | 2e+17 |
| 500 | 5e+17 |
| 1000 | 1e+18 |
Reference values rounded to 5 significant figures for display.
FAQ
What is the conversion factor from GΩ to µΩ?
1 GΩ equals 1e+15 µΩ. To convert, multiply the value in giga-ohms by 1e+15.
How do I convert 1 GΩ to µΩ?
1 GΩ = 1e+15 µΩ. For any value, multiply by 1e+15.
How do I convert µΩ back to GΩ?
Divide by the same factor — or equivalently, multiply by 1e-15. So 1 µΩ = 1e-15 GΩ.
When would I need to convert giga-ohm to micro-ohm?
Resistance conversions between GΩ and µΩ are used in electrical-network analysis, instrumentation (RTD/thermistor specification), grounding and bonding measurements, and electronics design. Ohms cover most circuit calculations; kΩ and MΩ appear in input-impedance specs, while milli-ohms cover bus-bar joints and shunt resistors.
Is the conversion exact?
The factor shown is precise to at least 7 significant figures. For most process-engineering work this is far better than instrument accuracy. For metrology or trade applications, refer to the relevant national standard (NIST, BIPM, ISO 80000).