Magnetic Monopoles & Gauss' Law for Magnetism



"A fact is a simple statement that everyone believes.  It is innocent, unless found guilty.  A hypothesis is a novel suggestion that no one wants to believe.  It is guilty, until found effective"
Edward Teller

questionmark     Magnetic Monopoles    questionmark

magmonopolefig2    magmonopolefig3


mag_monopole_fig1                                           magintrofig3

The belief is that shortly after their creation, magnetic monopoles were "frozen out" - meaning that their interactions with the rest of the matter in the Universe is highly suppressed.  This does not prevent physicists from searching for evidence for the existence of magnetic monopoles.




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Gauss' Law for Magnetism

  • So far we have discussed three basic equations describing electromagnetic phenomena - the first three of Maxwell's equations.
Gauss' Law:   elecgausseqn3

Ampere's Law:  magampereeqn1

Faraday's Law:  magfaradayeqn6
  • Gauss' Law involves the flux integral for the electric field.  To complete the correspondence between electricity and magnetism we expect a fourth equation involving the magnetic flux - "Gauss' Law for Magnetism".
  • The right hand side of Gauss' Law includes a summation over electric charges.  Therefore, for magnetism, we expect a summation over "magnetic charges".  But magnetic charges, North and South poles (equivalent to positive and negative electric charges) always exist in pairs, the net "magnetic charge" is thus always zero.  Gauss' Law for Magnetism must therefore take the form,
magmonopolefig5
the flux of B through a closed surface is zero.

exclamation Note that the fact that the surface is closed is very important !  A magnetic flux integral  appears in Faraday's Law - in this case the surface is generally not closed.

hot Electric field lines begin (positive) and end (negative) on charges.  Since there are no magnetic charges magnetic field lines form closed loops.


magmonopolefig7

This girl said she recognized me from the vegetarian club, but I'd never met herbivore.

 
 

Dr. C. L. Davis
Physics Department
University of Louisville
email: c.l.davis@louisville.edu