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Weber Converter

Convert Weber to Kiloampere Meter and more • 51 conversions

Result

0

1 0
Conversion Formula
1 = ---
Quick Reference
1 = 1
10 = 10
50 = 50
100 = 100
500 = 500
1000 = 1000

Unit Explanations

WeberWb

Source Unit

The weber (symbol: Wb) is the SI unit of magnetic flux, defined as the amount of magnetic field passing through a surface. One weber is equivalent to one volt-second, which is the magnetic flux that, when linked with a circuit, induces an electromotive force of one volt as it changes at a rate of one weber per second. This unit is crucial for understanding electromagnetic systems and their interactions with electric circuits.

1 Wb = 1 V·s = 1 J/A·s

Current Use

The weber is extensively used in electrical engineering and physics, particularly in the analysis of magnetic circuits and the design of electrical machines. It provides a clear quantification of magnetic flux in various applications, including transformers, inductors, and magnetic sensors.

Fun Fact

The weber is used to measure not only magnetic flux but also magnetic fields in various scientific experiments.

Kiloampere MeterkA·m

Target Unit

The kiloampere meter (kA·m) is a unit of magnetic moment that quantifies the strength of a magnetic source in relation to its geometric configuration. Specifically, it represents the magnetic moment generated by a current of one kiloampere flowing in a loop of one meter in circumference. The kiloampere meter is significant in the study of magnetism, particularly in magnetic materials and electromagnetic fields. It is commonly used in the characterization and analysis of magnetic circuits, inductive components, and electromagnetic systems, where precise measurements of magnetic phenomena are essential to understanding their behavior and design applications.

1 kA·m = 1000 A·m

Current Use

The kiloampere meter is widely used in various industries including electrical engineering, telecommunications, and medical technology. In the electrical sector, it plays a critical role in designing and analyzing transformers, motors, and generators, where understanding magnetic moment is vital for efficiency and performance. The telecommunications industry utilizes the kiloampere meter in the development of inductive components such as coils and antennas, essential for signal transmission. In medical technology, particularly in MRI machines, the kiloampere meter helps characterize the magnetic fields used in imaging processes. Countries like the USA, Germany, and Japan actively employ this unit in their scientific research and industrial applications, reflecting its global significance.

Fun Fact

The kiloampere meter is often used in high-energy physics experiments.

Decimals:
Scientific:OFF

Result

0

1
0
Conversion Formula
1 = ...
1→1
10→10
100→100
1000→1000

All Magnetic Conversions

49 converters
Field Strengthampere Meter
Ampere Turn Meter
Field Strengthampere Meter
Kiloampere Meter
Field Strengthampere Meter
Oersted
Field Strengthampere Turn Meter
Ampere Meter
Field Strengthkiloampere Meter
Ampere Meter
Field Strengthoersted
Ampere Meter
Fluxgauss Square Centimeter
Weber
Fluxkiloline
Weber
Fluxmagnetic Flux Quantum
Weber
Fluxmaxwell
Weber
Fluxmegaline
Weber
Fluxmicroweber
Weber

Popular Conversions

MeterFootKilometerMileCelsiusFahrenheitKilogramPoundLiterGallonSq MeterSq FootKm/HourMile/HourPascalPSI

📐Conversion Formula

= × 1.00000

How to Convert

To convert to , multiply the value by 1.00000. This conversion factor represents the ratio between these two units.

Quick Examples

1
=
1.000
10
=
10.00
100
=
100.0

💡 Pro Tip: For the reverse conversion (), divide by the conversion factor instead of multiplying.

Wb

Weber

magneticSI Unit

Definition

The weber (symbol: Wb) is the SI unit of magnetic flux, defined as the amount of magnetic field passing through a surface. One weber is equivalent to one volt-second, which is the magnetic flux that, when linked with a circuit, induces an electromotive force of one volt as it changes at a rate of one weber per second. This unit is crucial for understanding electromagnetic systems and their interactions with electric circuits.

History & Origin

The weber was named after the German physicist Wilhelm Eduard Weber, who made significant contributions to the field of electromagnetism during the 19th century. The unit was established in the context of the International System of Units (SI), which standardizes measurements across various scientific disciplines.

Etymology: The term 'weber' comes from Wilhelm Eduard Weber's last name, honoring his work in physics, particularly in magnetism and electricity.

1959: The weber was officially adopt...

Current Use

The weber is extensively used in electrical engineering and physics, particularly in the analysis of magnetic circuits and the design of electrical machines. It provides a clear quantification of magnetic flux in various applications, including transformers, inductors, and magnetic sensors.

Electrical EngineeringPhysicsElectronics

💡 Fun Facts

  • The weber is used to measure not only magnetic flux but also magnetic fields in various scientific experiments.
  • Wilhelm Eduard Weber also contributed to the development of the first electromagnetic telegraph.
  • The weber is sometimes humorously referred to as 'the flux capacitor' in popular culture.

📏 Real-World Examples

1 Wb
Magnetic flux through a coil with a magnetic field of 0.5 T and area of 2 m².
2.5 V
Induced voltage in a loop with 5 Wb of magnetic flux changing in 2 seconds.
0.002 V
A transformer with a primary coil of 100 turns and 0.2 Wb of magnetic flux.
0.1 Wb
Measurement of magnetic flux in a solenoid with 50 turns and 0.1 Wb.
2 H
Inductance of a coil with 10 Wb of magnetic flux and 5 A of current.

🔗 Related Units

Volt (1 Wb induces 1 V when changing at a rate of 1 Wb/s.)Henry (1 H = 1 Wb/A, defining the inductance of a coil.)Tesla (1 Wb/m² = 1 T, relating magnetic flux density to flux.)Joule (1 Wb = 1 J/V, connecting energy and electric potential.)
kA·m

Kiloampere Meter

magneticNon-SI

Definition

The kiloampere meter (kA·m) is a unit of magnetic moment that quantifies the strength of a magnetic source in relation to its geometric configuration. Specifically, it represents the magnetic moment generated by a current of one kiloampere flowing in a loop of one meter in circumference. The kiloampere meter is significant in the study of magnetism, particularly in magnetic materials and electromagnetic fields. It is commonly used in the characterization and analysis of magnetic circuits, inductive components, and electromagnetic systems, where precise measurements of magnetic phenomena are essential to understanding their behavior and design applications.

History & Origin

The concept of magnetic moment has its roots in classical electromagnetism, which was extensively developed in the 19th century through the works of scientists such as André-Marie Ampère and James Clerk Maxwell. The kiloampere meter as a specific unit emerged from the need to quantify magnetic moments in a standardized manner, particularly in the context of electrical engineering and physics. The introduction of the kiloampere as a unit of electric current allowed for greater convenience in calculations involving large currents, leading to the adoption of the kiloampere meter as a logical extension for measuring magnetic moments.

Etymology: The term 'kiloampere' derives from the prefix 'kilo-', meaning one thousand, and 'ampere', named after André-Marie Ampère, the French physicist who is considered one of the founders of electromagnetism.

1959: The kiloampere meter was offic...

Current Use

The kiloampere meter is widely used in various industries including electrical engineering, telecommunications, and medical technology. In the electrical sector, it plays a critical role in designing and analyzing transformers, motors, and generators, where understanding magnetic moment is vital for efficiency and performance. The telecommunications industry utilizes the kiloampere meter in the development of inductive components such as coils and antennas, essential for signal transmission. In medical technology, particularly in MRI machines, the kiloampere meter helps characterize the magnetic fields used in imaging processes. Countries like the USA, Germany, and Japan actively employ this unit in their scientific research and industrial applications, reflecting its global significance.

Electrical EngineeringTelecommunicationsMedical Technology

💡 Fun Facts

  • The kiloampere meter is often used in high-energy physics experiments.
  • This unit is crucial for the functioning of electric vehicles, where magnetic fields play a key role.
  • In MRI technology, the kiloampere meter is essential for ensuring image clarity and resolution.

📏 Real-World Examples

5 kA·m
Designing a transformer for a power plant
3.5 kA·m
Analyzing an MRI machine's magnetic field
2 kA·m
Building an electromagnetic coil
1.2 kA·m
Testing a generator's performance
0.8 kA·m
Evaluating an antenna's characteristics
4 kA·m
Researching magnetic materials

🔗 Related Units

Ampere Meter (1 kA·m = 1000 A·m, where ampere-meter is the base unit for magnetic moment.)Tesla (1 T = 1 kA·m/m², where tesla is the unit of magnetic flux density.)Henry (1 H = 1 kA·m/V, where henry is the unit of inductance.)Weber (1 Wb = 1 kA·m, where weber is the unit of magnetic flux.)Gauss (1 G = 0.0001 T = 0.1 kA·m/m, where gauss is a unit of magnetic field strength.)Volt (1 V = 1 W/mA, where volt is the unit of electric potential.)

Related Magnetic Conversions

Explore more magnetic conversions for your calculations.

Field Strengthampere Meter to Ampere Turn MeterField Strengthampere Meter to Kiloampere MeterField Strengthampere Meter to OerstedField Strengthampere Turn Meter to Ampere MeterField Strengthkiloampere Meter to Ampere MeterField Strengthoersted to Ampere MeterFluxgauss Square Centimeter to WeberFluxkiloline to WeberFluxmagnetic Flux Quantum to WeberFluxmaxwell to WeberFluxmegaline to WeberFluxmicroweber to Weber
View all 49 magnetic conversions →

Frequently Asked Questions

How do I convert to ?

To convert to , multiply your value by 1. For example, 10 equals 10 .

What is the formula for to conversion?

The formula is: = × 1. This conversion factor is based on international standards.

Is this to converter accurate?

Yes! MetricConv uses internationally standardized conversion factors from organizations like NIST and ISO. Our calculations support up to 15 decimal places of precision, making it suitable for scientific, engineering, and everyday calculations.

Can I convert back to ?

Absolutely! You can use the swap button (⇄) in the converter above to reverse the conversion direction, or visit our to converter.

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