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Magnetic flux density is a vector field that describes the force exerted on charged particles in motion by a magnetic field. Learn how to calculate the magnetic flux density using the cross product and the SI units of tesla.
Learn what magnetic flux density is, how to calculate it, and what its unit is. See examples of flux density problems and solutions with formulas and diagrams.
Magnetic Flux Density Definition. The magnetic flux density B is defined as: The force acting per unit current per unit length on a current-carrying conductor placed perpendicular to the magnetic field. Rearranging the equation for magnetic force on a wire, the magnetic flux density is defined by the equation:
In physics, specifically electromagnetism, the magnetic flux through a surface is the surface integral of the normal component of the magnetic field B over that surface. It is usually denoted Φ or Φ B .
4 wrz 2022 · Learn what magnetic flux is, how to calculate it, and how it relates to magnetic field and electric flux. Find out the significance of magnetic flux in Faraday's law, Lenz's law, and Gauss's law for magnetism.
Magnetic flux density is defined by the symbol B; It is measured in Tesla (T) Rearranging the equation for magnetic force on a wire, the magnetic flux density is defined by the equation: Where: B = magnetic flux density (T) F = magnetic force on a current-carrying wire (N) I = current (A) L = length of the wire (m) For reference, the Earth's ...
Magnetic flux density (also called Magnetic density) is symbolized by B, and is a force per unit of sensitive element, which in this case is a current. B is a vector magnitude, and is calculated as the magnitude of the magnetic force per unit of current in a given elemental length of a conductor.
