Precision:

Quantized Hall resistance = EMU of resistance / 25813113061435

To get Quantized hall resistance resistance, simply divide Emu of resistance by 25813113061435. With the help of this resistance converter, we can easily convert Emu of resistance to Quantized hall resistance. Here you are provided with the converter, proper definitions,relations in detail along with the online tool to convert EMU of resistance to Quantized Hall resistance.

1 EMU of resistance is 3.874E-14 Quantized Hall resistance.

EMU of resistance to Quantized Hall resistance converter is the resistance converter from one unit to another. It is required to convert the unit of resistance from Emu of resistance to Quantized hall resistance, 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 EMU of resistance to Quantized Hall resistance, and the usage of a tool that will help to convert one unit from another unit, and the relation between Emu of resistance and Quantized hall resistance with detailed explanation.

An EMU of resistance is another name for the abohm (abΩ), which is the basic unit of electrical resistance in the emu-cgs system of units (electromagnetic centimeter-gram-second system of units). EMU of resistance stands for electromagnetic unit of resistance. A potential difference of one abvolt will drive a current of one abampere through a resistance of one EMU of resistance. One EMU of resistance is equal to 10⁻⁹ ohms = 1 nanoohm in the SI system of units. An EMU of resistance is an extremely small resistance and this unit is almost never used. Extremely small resistances are usually referred to in terms of conductance.

The Quantized Hall resistance is a new practical standard for electrical resistance. It is based on the resistance quantum given by the von Klitzing constant RK = h/e² = 25812.807557(18) Ω where h is the Planck’s constant and e is the elementary charge. The quantum Hall effect is a quantum-mechanical version of the Hall effect, observed in MOSFETs (metal–oxide–semiconductor field-effect transistors) when they are subjected to low temperatures and strong magnetic fields, where the Hall conductivity takes on the quantized values. This quantization is incredibly precise, which justifies its use as a new practical standard for electrical resistance.