Magnetic Flux: Difference between revisions

Magnetic Flux

Magnetic Flux is the measure of the strength of a magnetic field over a given area. <ref>http://www.google.com/search?hl=en&safe=off&client=firefox-a&rls=org.mozilla:en-US:official&hs=lBE&defl=en&q=define:magnetic+flux&ei=gsNKS7r4EYuqsgPdmMT_Bg&sa=X&oi=glossary_definition&ct=title&ved=0CAcQkAE</ref>The Greek letter used to represent flux is Φ, phi. The SI unit for magnetic flux is the Weber. The area used must be perpendicular to the travel of the magnetic lines. The flux can then be determined by how many magnetic lines go through the area surface. The net flux is the number of magnetic lines going through the area surface in one direction minus the number magnetic lines going through the surface area in the opposite direction. The gneral quantitative expression for finding magnetic flux is:

${\displaystyle \Phi _{m}=\int \!\!\!\!\int _{S}\mathbf {B} \cdot d\mathbf {S} ,}$

where

B is the magnetic field

S is the surface area<ref>http://en.wikipedia.org/wiki/Magnetic_flux</ref>

If specific situations arise and more variables are known the calculations for magnetic flux can become relatively simple. Other forms of the flux equation are as follows:

<math>\Phi_m = \frac{\mathbf{1}}{\mathbf{N}} \cdot \int \mathbf{V} \cdot d\mathbf t,<\math>