What is Quantized Hall conductance?

It is a discrete transverse electrical conductance observed in the quantum Hall effect, based on fundamental constants and typically seen under strong magnetic fields and low temperatures.

Why convert Quantized Hall conductance to mho?

Converting to mho translates specialized quantum conductance units into more conventional electrical units, aiding comparison and practical application.

Is mho still a standard unit?

Mho is a historical, non-SI unit equivalent to the siemens; modern measurements generally use siemens instead.

How to Convert from Quantized Hall conductance to Mho?

Learn how to convert values from Quantized Hall conductance, a specialized quantum unit, into mho, a conventional unit of electrical conductance. This guide covers definitions, use cases, conversion formulas, and practical examples.

Quantized Hall conductance

Mho

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Quantized Hall conductance to Mho Conversion Table

Quantized Hall conductance	Mho

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Quantized Hall conductance to Mho Conversion Table
Quantized Hall conductance	Mho

Explore More Electric Conductance Units Converter

What Is This Tool?

This converter changes values in Quantized Hall conductance, a discrete quantum electrical conductance unit observed in the quantum Hall effect, into mho, a historical unit representing electrical conductance equivalent to a siemens.

How to Use This Tool?

Enter the value in Quantized Hall conductance you wish to convert
Select Quantized Hall conductance as the input unit
Choose mho as the output unit
Apply the conversion formula to obtain the equivalent mho value
Use the result for comparison or practical electrical engineering applications

Key Features

Converts from a quantum mechanical conductance unit to a conventional electrical conductance unit
Includes a precise conversion formula linking Quantized Hall conductance to mho
Facilitates interpretation of specialized physics measurements in standard electrical units
Supports usage in metrology, condensed matter research, and electronic device characterization

Examples

2 Quantized Hall conductance equals 0.000077481 mho
5 Quantized Hall conductance equals 0.0001937025 mho

Common Use Cases

Converting highly specialized quantized conductance units to conventional units for practical use
Supporting electrical resistance standard realizations in metrology laboratories
Bridging condensed matter physics research results with standard electrical engineering units

Tips & Best Practices

Ensure awareness of the extreme experimental conditions under which Quantized Hall conductance is measured
Remember that mho is a non-SI unit and siemens is commonly preferred in modern contexts
Use the conversion for comparison and interpretation rather than direct engineering design without adjustments

Limitations

Quantized Hall conductance values apply under strong magnetic fields and low temperatures, limiting general use
Mho is an outdated unit; siemens is the modern standard for conductance
Conversion precision depends on accurate knowledge of physical constants and experimental conditions

Frequently Asked Questions

What is Quantized Hall conductance?: It is a discrete transverse electrical conductance observed in the quantum Hall effect, based on fundamental constants and typically seen under strong magnetic fields and low temperatures.
Why convert Quantized Hall conductance to mho?: Converting to mho translates specialized quantum conductance units into more conventional electrical units, aiding comparison and practical application.
Is mho still a standard unit?: Mho is a historical, non-SI unit equivalent to the siemens; modern measurements generally use siemens instead.

Key Terminology

Quantized Hall conductance: A quantum electrical conductance observed in the quantum Hall effect, defined by fundamental constants and quantized values.
Mho: A historical unit of electrical conductance equal to one siemens, representing how easily current flows through a component.
Quantum Hall effect: A phenomenon in two-dimensional electron systems under strong magnetic fields leading to quantized transverse conductance.

Quick Knowledge Check

What does Quantized Hall conductance represent?

Electrical resistance in general circuits

Discrete conductance in the quantum Hall effect

The conductance of typical household wiring

What is the relation between mho and siemens?

Mho is ten times larger than siemens

Mho and siemens are numerically equal units of conductance

Siemens is a non-SI version of mho

When is Quantized Hall conductance typically observed?

At room temperature in everyday environments

Under strong magnetic fields and low temperatures

In ordinary electronic devices

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