# Mhos to Microsiemens Conversion

Enter the electrical conductance in mhos below to get the value converted to microsiemens.

**Results in Microsiemens:**

## How to Convert Mhos to Microsiemens

To convert a mho measurement to a microsiemens measurement, multiply the electrical conductance by the conversion ratio.

Since one mho is equal to 1,000,000 microsiemens, you can use this simple formula to convert:

The electrical conductance in microsiemens is equal to the mhos multiplied by 1,000,000.

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

### How Many Microsiemens are in a Mho?

There are **1,000,000** microsiemens in a mho, which is why we use this value in the formula above.

1 ℧ = 1,000,000 μS

Mhos and microsiemens are both units used to measure electrical conductance. Keep reading to learn more about each unit of measure.

## Mhos

The mho is a unit of electrical conductance and is the reciprocal of the resistance in ohms, and is actually ohm spelled backwards. One mho is equal to one siemens, which is the SI derived unit of conductance.

Mhos can be abbreviated as *℧*; for example, 1 mho can be written as 1 ℧.

## Microsiemens

The microsiemens is the SI defined unit equal to the micromho. One microsiemens is the electrical conductance equal to 1/1,000,000 of a siemens, which is equal to one ampere per volt.

The microsiemens is a multiple of the siemens, which is the SI derived unit for electrical conductance. In the metric system, "micro" is the prefix for 10^{-6}. Microsiemens can be abbreviated as *μS*; for example, 1 microsiemens can be written as 1 μS.

## Mho to Microsiemens Conversion Table

Mhos | Microsiemens |
---|---|

0.000001 ℧ | 1 μS |

0.000002 ℧ | 2 μS |

0.000003 ℧ | 3 μS |

0.000004 ℧ | 4 μS |

0.000005 ℧ | 5 μS |

0.000006 ℧ | 6 μS |

0.000007 ℧ | 7 μS |

0.000008 ℧ | 8 μS |

0.000009 ℧ | 9 μS |

0.0000001 ℧ | 0.1 μS |

0.000001 ℧ | 1 μS |

0.00001 ℧ | 10 μS |

0.0001 ℧ | 100 μS |

0.001 ℧ | 1,000 μS |

0.01 ℧ | 10,000 μS |

0.1 ℧ | 100,000 μS |

1 ℧ | 1,000,000 μS |