This web page allows you to convert the different magnetic flux units and answers the following questions in particular: What is magnetic flux, and how is it measured? What are the different units of magnetic flux, and how are they related? What are some common record and reference values for magnetic flux, and what do they correspond to? How can you convert between different units of magnetic flux? What are some applications of magnetic flux, and how is it used in electronics, engineering, and electrical systems?
The magnetic flux is the rate of flow of the magnetic field through any surface. This flow is measured with several units, depending on the scope of the application. The most used units are the weber, the tesla meter squared, the maxwell and the gauss centimeter squared.
The weber is the SI derived unit of the magnetic flux. It is represented as Wb, and it is the SI unit used in industry. One weber equals one tesla meter squared and 10,000 amperes per meter of wire length.
The tesla meter squared is usually abbreviated as T·m² and it is the same as one weber. A tesla is the SI unit for measure of magnetic field strength.
The maxwell, abbreviated as Mx, is a very old unit of measure of the magnetic flux. It is one line integral per square centimeter of area. One maxwell is approximately equal to 1x10-8 Wb.
Finally, the gauss centimeter squares or G·cm² is equal to 10 maxwells or 0.0001 Wb.
Reference and record values for the different units of magnetic flux include:
To convert between units of magnetic flux, it is important to know the relationship between the different types of units. The weber is the SI derived unit of magnetic flux, and it is equal to one tesla meter squared. The maxwell is one line integral per square centimeter, and it is equal to 0.0001 Wb. The gauss centimeter squared is equal to 10 maxwells or 0.0001 Wb.
To convert between maxwell and tesla, 10 maxwell is equal to one tesla. To convert between gauss and tesla, one gauss is equal to 0.0001 tesla. To convert between weber and maxwell, one weber is equal to 10,000 maxwell.
The units of magnetic flux are used to measure the rate of flow of the magnetic field through any surface. It is used in a variety of applications, including electronics, engineering and electrical systems.
In engineering, the unit of magnetic flux is used to measure the rate of flow through a magnetic material. It is also used to measure the magnitude of the force formed by two electro-magnetic fields.
In electronics, the units of magnetic flux are used to measure the intensity of the current flowing through an electronic component. It is also used to measure the magnetic shielding effectiveness of materials.
Finally, in electrical systems, the unit of magnetic flux is used to measure the current streaming through a wire or a coil. It is also used to calculate the transformer coupling and magnetic flux density around the transformer.
The first unit of magnetic flux was the gauss. It was named after the German mathematician Carl Friedrich Gauss. The invention of the gauss was in 1788, and it was one-hundredth the amount of the radiance of one square centimeter of the sun.
The weber, one of the most common units of magnetic flux, was also named after a German mathematician - Wilhelm Eduard Weber. He proposed the weber unit in 1856, which was adapted by the International System of Units in 1930.
The tesla meter squared is the same unit as the weber, and it is most commonly used in nuclear reactor vessels and acoustic sensors.
The maxwell is one line integral per square centimeter, and it was named after the British mathematical physicist James Clerk Maxwell in 1882. Finally, the gauss centimeter squared is equal to 10 maxwells or 0.0001 Wb.