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Electric Conductance Converter

Electric Conductance Conversion Formulas

1 Kilosiemens (kS) = 1,000 Siemens (S)

1 Megasiemens (MS) = 1,000,000 Siemens (S)

1 Millisiemens (mS) = 0.001 Siemens (S)

1 Microsiemens (µS) = 0.000001 Siemens (S)

1 Ampere/volt (A/V) = 1 Siemens (S)

1 Mho (℧) = 1 Siemens (S)

1 Gemmho (gemmho) = 0.000001 Siemens (S)

1 Abmho (ab℧) = 1,000,000,000 Siemens (S)

1 Statmho (st℧) = 0.00000000000111 Siemens (S)

1 Quantized Hall conductance (G₀) = 0.000038740459 Siemens (S)

Siemens (S)

Definition: Siemens (S) is the base unit of Electric Conductance in the International System of Units (SI).

History/origin: The siemens is the fundamental unit of Electric Conductance in the International System of Units.

Current use: The siemens is used worldwide for scientific, engineering, and everyday measurements.

Kilosiemens (kS)

Definition: Kilosiemens (kS) is a metric prefix multiple of the Siemens (S). 1 kS = 1,000 S.

History/origin: The prefix "kS" was adopted as part of the metric system to denote multiples and submultiples of base units.

Current use: It is widely used in countries that have adopted the metric system.

Megasiemens (MS)

Definition: Megasiemens (MS) is a metric prefix multiple of the Siemens (S). 1 MS = 1,000,000 S.

History/origin: The prefix "MS" was adopted as part of the metric system to denote multiples and submultiples of base units.

Current use: It is widely used in countries that have adopted the metric system.

Millisiemens (mS)

Definition: Millisiemens (mS) is a metric prefix submultiple of the Siemens (S). 1 S = 1,000 mS.

History/origin: The prefix "mS" was adopted as part of the metric system to denote multiples and submultiples of base units.

Current use: It is widely used in countries that have adopted the metric system.

Microsiemens (µS)

Definition: Microsiemens (µS) is a metric prefix submultiple of the Siemens (S). 1 S = 1,000,000 µS.

History/origin: The prefix "µS" was adopted as part of the metric system to denote multiples and submultiples of base units.

Current use: It is widely used in countries that have adopted the metric system.

Ampere/volt (A/V)

Definition: Ampere/volt (A/V) is the base unit of Electric Conductance in the International System of Units (SI).

History/origin: The ampere/volt is the fundamental unit of Electric Conductance in the International System of Units.

Current use: The ampere/volt is used worldwide for scientific, engineering, and everyday measurements.

Mho (℧)

Definition: Mho (℧) is the base unit of Electric Conductance in the International System of Units (SI).

History/origin: The mho is the fundamental unit of Electric Conductance in the International System of Units.

Current use: The mho is used worldwide for scientific, engineering, and everyday measurements.

Gemmho (gemmho)

Definition: Gemmho (gemmho) is a unit of Electric Conductance. 1 gemmho = 1e-6 S

History/origin: The gemmho is used in various scientific and engineering applications.

Current use: It is commonly used in various fields including science, engineering, and everyday measurements.

Abmho (ab℧)

Definition: Abmho (ab℧) is a unit of Electric Conductance. 1 ab℧ = 1,000,000,000 S

History/origin: The abmho is used in various scientific and engineering applications.

Current use: It is commonly used in various fields including science, engineering, and everyday measurements.

Statmho (st℧)

Definition: Statmho (st℧) is a unit of Electric Conductance. 1 st℧ = 1.112347e-12 S

History/origin: The statmho is used in various scientific and engineering applications.

Current use: It is commonly used in various fields including science, engineering, and everyday measurements.

Quantized Hall conductance (G₀)

Definition: Quantized Hall conductance (G₀) is a unit of Electric Conductance. 1 G₀ = 3.8740459e-5 S

History/origin: The quantized hall conductance is used in various scientific and engineering applications.

Current use: It is commonly used in various fields including science, engineering, and everyday measurements.

Popular Electric Conductance Unit Conversions

Siemens to Kilosiemens (S to kS) Siemens to Megasiemens (S to MS) Siemens to Millisiemens (S to mS) Siemens to Microsiemens (S to µS) Siemens to Ampere/volt (S to A/V) Siemens to Mho (S to ℧) Siemens to Gemmho (S to gemmho) Siemens to Abmho (S to ab℧) Siemens to Statmho (S to st℧) Siemens to Quantized Hall conductance (S to G₀) Kilosiemens to Siemens (kS to S) Kilosiemens to Megasiemens (kS to MS) Kilosiemens to Millisiemens (kS to mS) Kilosiemens to Microsiemens (kS to µS) Kilosiemens to Ampere/volt (kS to A/V) Kilosiemens to Mho (kS to ℧) Kilosiemens to Gemmho (kS to gemmho) Kilosiemens to Abmho (kS to ab℧) Kilosiemens to Statmho (kS to st℧) Kilosiemens to Quantized Hall conductance (kS to G₀) Megasiemens to Siemens (MS to S) Megasiemens to Kilosiemens (MS to kS) Megasiemens to Millisiemens (MS to mS) Megasiemens to Microsiemens (MS to µS) Megasiemens to Ampere/volt (MS to A/V) Megasiemens to Mho (MS to ℧) Megasiemens to Gemmho (MS to gemmho) Megasiemens to Abmho (MS to ab℧) Megasiemens to Statmho (MS to st℧) Megasiemens to Quantized Hall conductance (MS to G₀) Millisiemens to Siemens (mS to S) Millisiemens to Kilosiemens (mS to kS) Millisiemens to Megasiemens (mS to MS) Millisiemens to Microsiemens (mS to µS) Millisiemens to Ampere/volt (mS to A/V) Millisiemens to Mho (mS to ℧) Millisiemens to Gemmho (mS to gemmho) Millisiemens to Abmho (mS to ab℧) Millisiemens to Statmho (mS to st℧) Millisiemens to Quantized Hall conductance (mS to G₀) Microsiemens to Siemens (µS to S) Microsiemens to Kilosiemens (µS to kS) Microsiemens to Megasiemens (µS to MS) Microsiemens to Millisiemens (µS to mS) Microsiemens to Ampere/volt (µS to A/V) Microsiemens to Mho (µS to ℧) Microsiemens to Gemmho (µS to gemmho) Microsiemens to Abmho (µS to ab℧) Microsiemens to Statmho (µS to st℧) Microsiemens to Quantized Hall conductance (µS to G₀) Ampere/volt to Siemens (A/V to S) Ampere/volt to Kilosiemens (A/V to kS) Ampere/volt to Megasiemens (A/V to MS) Ampere/volt to Millisiemens (A/V to mS) Ampere/volt to Microsiemens (A/V to µS) Ampere/volt to Mho (A/V to ℧) Ampere/volt to Gemmho (A/V to gemmho) Ampere/volt to Abmho (A/V to ab℧) Ampere/volt to Statmho (A/V to st℧) Ampere/volt to Quantized Hall conductance (A/V to G₀) Mho to Siemens (℧ to S) Mho to Kilosiemens (℧ to kS) Mho to Megasiemens (℧ to MS) Mho to Millisiemens (℧ to mS) Mho to Microsiemens (℧ to µS) Mho to Ampere/volt (℧ to A/V) Mho to Gemmho (℧ to gemmho) Mho to Abmho (℧ to ab℧) Mho to Statmho (℧ to st℧) Mho to Quantized Hall conductance (℧ to G₀) Gemmho to Siemens (gemmho to S) Gemmho to Kilosiemens (gemmho to kS) Gemmho to Megasiemens (gemmho to MS) Gemmho to Millisiemens (gemmho to mS) Gemmho to Microsiemens (gemmho to µS) Gemmho to Ampere/volt (gemmho to A/V) Gemmho to Mho (gemmho to ℧) Gemmho to Abmho (gemmho to ab℧) Gemmho to Statmho (gemmho to st℧) Gemmho to Quantized Hall conductance (gemmho to G₀) Abmho to Siemens (ab℧ to S) Abmho to Kilosiemens (ab℧ to kS) Abmho to Megasiemens (ab℧ to MS) Abmho to Millisiemens (ab℧ to mS) Abmho to Microsiemens (ab℧ to µS) Abmho to Ampere/volt (ab℧ to A/V) Abmho to Mho (ab℧ to ℧) Abmho to Gemmho (ab℧ to gemmho) Abmho to Statmho (ab℧ to st℧) Abmho to Quantized Hall conductance (ab℧ to G₀) Statmho to Siemens (st℧ to S) Statmho to Kilosiemens (st℧ to kS) Statmho to Megasiemens (st℧ to MS) Statmho to Millisiemens (st℧ to mS) Statmho to Microsiemens (st℧ to µS) Statmho to Ampere/volt (st℧ to A/V) Statmho to Mho (st℧ to ℧) Statmho to Gemmho (st℧ to gemmho) Statmho to Abmho (st℧ to ab℧) Statmho to Quantized Hall conductance (st℧ to G₀) Quantized Hall conductance to Siemens (G₀ to S) Quantized Hall conductance to Kilosiemens (G₀ to kS) Quantized Hall conductance to Megasiemens (G₀ to MS) Quantized Hall conductance to Millisiemens (G₀ to mS) Quantized Hall conductance to Microsiemens (G₀ to µS) Quantized Hall conductance to Ampere/volt (G₀ to A/V) Quantized Hall conductance to Mho (G₀ to ℧) Quantized Hall conductance to Gemmho (G₀ to gemmho) Quantized Hall conductance to Abmho (G₀ to ab℧) Quantized Hall conductance to Statmho (G₀ to st℧)