Units of Magnetic Flux

Last Updated: August 29, 2024

Units of Magnetic Flux

Units of Magnetic Flux

What is the Unit of Magnetic Flux?

The unit of magnetic flux is the weber (Wb). It is defined as the magnetic field passing through a surface perpendicular to the magnetic field lines. The formula to calculate magnetic flux (Φ) is:

Φ =B × A

Where:
Φ is the magnetic flux in webers (Wb).
B is the magnetic field strength in teslas (T).
A is the area perpendicular to the magnetic field lines in square meters (m²).

SI Unit and CGS Unit of Magnetic Flux

The SI unit of magnetic flux is the weber (Wb). It measures the amount of magnetic field passing through a surface. The formula for magnetic flux (Φ) is Φ=B × A, where 𝐵B is the magnetic field strength in teslas (T) and 𝐴 is the area perpendicular to the field lines in square meters (m²).

Units of Magnetic Flux in MKS System

In the MKS (meter-kilogramsecond) system, the unit of magnetic flux is the weber (Wb). It represents the magnetic flux that passes through an area perpendicular to a magnetic field of one tesla (T) and one square meter (m²). The weber is a fundamental unit in electromagnetism and is commonly used in physics, engineering, and related fields.

SI Sub Multiples of Magnetic Flux :

SubmultipleSymbolEquivalent
MilliwebermWb0.0010.001 Wb
MicroweberμWb0.0000010.000001 Wb
NanowebernWb0.0000000010.000000001 Wb
PicoweberpWb0.0000000000010.000000000001 Wb

SI Multiples of Magnetic Flux :

MultipleSymbolEquivalent
KiloweberkWb1,0001,000 Wb
MegaweberMWb1,000,0001,000,000 Wb
GigaweberGWb1,000,000,0001,000,000,000 Wb
TeraweberTWb1,000,000,000,0001,000,000,000,000 Wb

List of Magnetic Flux Units

WeberWbSI unit, measures magnetic flux.
KiloweberkWbEquivalent to 103103 webers.
MegaweberMWbEquivalent to 106106 webers.
GigaweberGWbEquivalent to 109109 webers.
Tesla Square MeterT·m²Represents magnetic flux in terms of teslas and square meters.
MaxwellsMxCGS unit, equivalent to 10−810−8 webers.
Gauss Square CentimeterG·cm²Represents magnetic flux in terms of gauss and square centimeters.
Gauss Square MillimeterG·mm²Represents magnetic flux in terms of gauss and square millimeters.

Conversion of Magnetic Flux

Conversion-of-Magnetic-Flux-2
Magnetic Flux ConversionConversion Factor
Weber to Maxwells1 Weber (Wb) = 10⁸ Maxwells (Mx)
Maxwells to Weber1 Maxwell (Mx) = 10⁻⁸ Weber (Wb)
Weber to Tesla Square Meters1 Weber (Wb) = 1 Tesla Square Meter (T·m²)
Tesla Square Meters to Weber1 Tesla Square Meter (T·m²) = 1 Weber (Wb)

Weber (Wb) to Maxwells (Mx)

1 Weber (Wb) = 10⁸ Maxwells (Mx)

One weber (Wb) is equivalent to 10⁸ maxwells (Mx). This conversion factor simplifies transitioning between the International System of Units (SI) and the CGS unit of magnetic flux.

Maxwells (Mx) to Weber (Wb)

1 Maxwells (Mx) = 10⁻⁸ Weber (Wb)

One maxwell (Mx) is equivalent to 10⁻⁸ webers (Wb). This conversion factor is commonly used in the centimeter-gram-second (CGS) system for measuring magnetic flux.

Weber to Tesla Square Meters

1 Weber (Wb) = 1 Tesla Square Meters (T·m²)

One weber (Wb) is equivalent to one tesla multiplied by one square meter (T·m²). This relationship quantifies the magnetic flux passing through a surface perpendicular to a magnetic field.

Tesla Square Meters (T·m²) to Weber (Wb)

1 Tesla Square Meters (T·m²) = 1 Weber (Wb)

Tesla square meters (T·m²) is a unit used to express magnetic flux. To convert to webers (Wb), simply multiply the value in T·m² by the area to obtain the flux in webers (Wb).

FAQ’s

What is magnetic flux and its unit?

Magnetic flux is a measure of the quantity of magnetic field passing through a given surface. It represents the number of magnetic field lines penetrating a surface. The unit of magnetic flux in the International System of Units (SI) is the weber (Wb).

Why is magnetic flux important?

Understanding magnetic flux is crucial in various fields, including physics, engineering, and technology. It plays a key role in designing electrical devices, studying magnetic materials, and analyzing electromagnetic phenomena.

What are some applications of magnetic flux?

Magnetic flux is applied in various technologies, including transformers, electric motors, generators, magnetic resonance imaging (MRI) machines, and magnetic data storage devices.

What factors affect magnetic flux?

The magnitude of magnetic flux depends on the strength of the magnetic field and the size of the area through which the field passes. It also depends on the orientation of the surface relative to the magnetic field lines.

How does magnetic flux relate to electromagnetic induction?

Magnetic flux plays a central role in electromagnetic induction, where changing magnetic flux induces an electromotive force (EMF) in a conductor, according to Faraday’s law of electromagnetic induction.

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