Microsiemens to Abmhos Conversion
Enter the electrical conductance in microsiemens below to get the value converted to abmhos.
How to Convert Microsiemens to Abmhos
To convert a microsiemens measurement to an abmho measurement, divide the electrical conductance by the conversion ratio. One abmho is equal to 1.0E+15 microsiemens, so use this simple formula to convert:
The electrical conductance in abmhos is equal to the microsiemens divided by 1.0E+15.
Microsiemens and abmhos are both units used to measure electrical conductance. Keep reading to learn more about each unit of measure.
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.
One abmho is the electrical conductance equal to an increase in current of one abampere for every increase in electrical potential difference of one abvolt. One abmho is equal to 1,000,000,000 siemens.
The abmho is a centimeter-gram-second (CGS) electromagnetic unit of electrical conductance. An abmho is sometimes also referred to as an absiemens or EMU. Abmhos can be abbreviated as ab℧; for example, 1 abmho can be written as 1 ab℧.
Microsiemens to Abmho Conversion Table
|1 μS||0.000000000000001 ab℧|
|2 μS||0.000000000000002 ab℧|
|3 μS||0.000000000000003 ab℧|
|4 μS||0.000000000000004 ab℧|
|5 μS||0.000000000000005 ab℧|
|6 μS||0.000000000000006 ab℧|
|7 μS||0.000000000000007 ab℧|
|8 μS||0.000000000000008 ab℧|
|9 μS||0.000000000000009 ab℧|
|10 μS||0.00000000000001 ab℧|
|100 μS||0.0000000000001 ab℧|
|1,000 μS||0.000000000001 ab℧|
|10,000 μS||0.00000000001 ab℧|
|100,000 μS||0.0000000001 ab℧|
|1,000,000 μS||0.000000001 ab℧|
|10,000,000 μS||0.00000001 ab℧|
|100,000,000 μS||0.0000001 ab℧|
|1,000,000,000 μS||0.000001 ab℧|
|10,000,000,000 μS||0.00001 ab℧|
|100,000,000,000 μS||0.0001 ab℧|
|1,000,000,000,000 μS||0.001 ab℧|
|10,000,000,000,000 μS||0.01 ab℧|
|100,000,000,000,000 μS||0.1 ab℧|
|1,000,000,000,000,000 μS||1 ab℧|