This web page allows you to convert the different electrical conductivity units and answers the following questions in particular: What is electrical conductivity, and how is it measured? What are the different units used to measure electrical conductivity throughout history? How are the units of electrical conductivity used in measuring different aspects of circuits and appliances? What are some examples of reference and record values for electrical conductivity units? How can electrical conductivity units be converted into different units, and what are the formulas used for conversion?
Electrical conductivity is a vital concept for the study of electricity, electronics and materials science. It is a measure of how well a material conducts electricity or allows it to flow through it. It is usually expressed in units of Siemens per meter, also known as reciprocal ohm meter, and it is the universal measure of conductivity. The history of the units of electrical conductivity is full of interesting facts.
Electrical conductivity, also called specific electrical conduction, is expressed in terms of resistance or impedance. The earliest unit for measuring resistance was the ohm, named after Georg Ohm. The ohm was followed by the mho, which was named after physicist Karl Friedrich Gauss. The mho was later replaced by the reciprocal ohm (Ω⁻¹) and then upgraded to the Siemens per meter and the reciprocal ohm meter.
The units of electrical conductivity are used to measure the flow of electrical signals through materials, components and circuits. They are also used to measure the resistance of a material- for example, the resistance of a contact surface, like a wire or an electrical outlet. Furthermore, they are used to measure current and voltage and to determine the output of an electric current within an appliance or circuit.
Reference and record values in the different units of electrical conductivity used can be found in different materials, components, and systems. Some examples are:
When it comes to converting electrical conductivity units, it is important to understand how the units of S/m (Siemens per meter) and ℧/m (Mho per meter) are related to each other. To convert S/m to ℧/m, use the following formula: ℧/m = 1 / (S/m). Meanwhile, to convert℧/m to S/m, use the following formula: S/m = 1 / (℧/m). Similarly, reciprocal ohm meters (Ω⁻¹⋅m) and the other centimetric units of electrical conductivity can be converted by using the appropriate formulas.