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#### Reciprocal siemens to Megohm Conversion Formula:

megaohm = reciprocal siemens (1/S) / 1000000

#### How to Convert reciprocal siemens (1/S) to megaohm?

To get Megohm resistance, simply divide Reciprocal siemens by 1000000. With the help of this resistance converter, we can easily convert Reciprocal siemens to Megohm. Here you are provided with the converter, proper definitions,relations in detail along with the online tool to convert reciprocal siemens (1/S) to megaohm.

#### How many Megohm in one Reciprocal siemens?

1 reciprocal siemens (1/S) is 1.0E-6 megaohm.

reciprocal siemens (1/S) to megaohm converter is the resistance converter from one unit to another. It is required to convert the unit of resistance from Reciprocal siemens to Megohm, in resistance. This is the very basic unit conversion, which you will learn in primary classes. It is one of the most widely used operations in a variety of mathematical applications. In this article, let us discuss how to convert reciprocal siemens (1/S) to megaohm, and the usage of a tool that will help to convert one unit from another unit, and the relation between Reciprocal siemens and Megohm with detailed explanation.

#### Reciprocal siemens Definition

A siemens (S) is the SI derived unit of electrical conductance and electric admittance. Conductance and admittance are the reciprocals of resistance and impedance respectively, hence one siemens is equal to the reciprocal of one ohm. Another name of the siemens is the mho, which is written with an upside-down capital Greek letter Omega ℧. A device has a conductance of one siemens if the electric current through this device will increase by one ampere for every increase of one volt of electric potential difference across the device. 1/S = 1 Ω.

#### Megohm Definition

A megohm (MΩ) is a decimal multiple of the SI derived unit ohm and is equal to 1,000,000 Ω. Note that the final vowel in the SI prefix mega is omitted. A conductor has an electrical resistance of one megohm when a constant potential difference of one volt applied between its ends produces in this conductor a current of one microampere.