# Gigaohms to Nanoohms Conversion

Enter the electrical resistance in gigaohms below to get the value converted to nanoohms.

**Results in Nanoohms:**

## How to Convert Gigaohms to Nanoohms

To convert a gigaohm measurement to a nanoohm measurement, multiply the electrical resistance by the conversion ratio.

Since one gigaohm is equal to 1.0E+18 nanoohms, you can use this simple formula to convert:

The electrical resistance in nanoohms is equal to the gigaohms multiplied by 1.0E+18.

**For example,**here's how to convert 5 gigaohms to nanoohms using the formula above.

### How Many Nanoohms Are in a Gigaohm?

There are **1.0E+18** nanoohms in a gigaohm, which is why we use this value in the formula above.

1 GΩ = 1.0E+18 nΩ

Gigaohms and nanoohms are both units used to measure electrical resistance. Keep reading to learn more about each unit of measure.

## Gigaohms

One gigaohm is equal to 1,000,000,000 ohms, which is the resistance between two points of a conductor with one ampere of current at one volt.

The gigaohm is a multiple of the ohm, which is the SI derived unit for electrical resistance. In the metric system, "giga" is the prefix for 10^{9}. Gigaohms can be abbreviated as *GΩ*; for example, 1 gigaohm can be written as 1 GΩ.

## Nanoohms

One nanoohm is equal to 1/1,000,000,000 of an ohm, which is the resistance between two points of a conductor with one ampere of current at one volt.

The nanoohm is a multiple of the ohm, which is the SI derived unit for electrical resistance. In the metric system, "nano" is the prefix for 10^{-9}. Nanoohms can be abbreviated as *nΩ*; for example, 1 nanoohm can be written as 1 nΩ.

## Gigaohm to Nanoohm Conversion Table

Gigaohms | Nanoohms |
---|---|

0.000000000000000001 GΩ | 1 nΩ |

0.000000000000000002 GΩ | 2 nΩ |

0.000000000000000003 GΩ | 3 nΩ |

0.000000000000000004 GΩ | 4 nΩ |

0.000000000000000005 GΩ | 5 nΩ |

0.000000000000000006 GΩ | 6 nΩ |

0.000000000000000007 GΩ | 7 nΩ |

0.000000000000000008 GΩ | 8 nΩ |

0.000000000000000009 GΩ | 9 nΩ |

0.0000000000000000001 GΩ | 0.1 nΩ |

0.000000000000000001 GΩ | 1 nΩ |

0.00000000000000001 GΩ | 10 nΩ |

0.0000000000000001 GΩ | 100 nΩ |

0.000000000000001 GΩ | 1,000 nΩ |

0.00000000000001 GΩ | 10,000 nΩ |

0.0000000000001 GΩ | 100,000 nΩ |

0.000000000001 GΩ | 1,000,000 nΩ |

0.00000000001 GΩ | 10,000,000 nΩ |

0.0000000001 GΩ | 100,000,000 nΩ |

0.000000001 GΩ | 1,000,000,000 nΩ |

0.00000001 GΩ | 10,000,000,000 nΩ |

0.0000001 GΩ | 100,000,000,000 nΩ |

0.000001 GΩ | 1,000,000,000,000 nΩ |

0.00001 GΩ | 10,000,000,000,000 nΩ |

0.0001 GΩ | 100,000,000,000,000 nΩ |

0.001 GΩ | 1,000,000,000,000,000 nΩ |

0.01 GΩ | 10,000,000,000,000,000 nΩ |

0.1 GΩ | 100,000,000,000,000,000 nΩ |

1 GΩ | 1,000,000,000,000,000,000 nΩ |