• Congratulations to the Class of 2024 on your results!
    Let us know how you went here
    Got a question about your uni preferences? Ask us here

Proper explanation for the Meissner effect (1 Viewer)

porcupinetree

not actually a porcupine
Joined
Dec 12, 2014
Messages
664
Gender
Male
HSC
2015
Ok, I've been reading a lot about the Meissner effect and have looked at old threads on this forum which ask similar questions to mine, but haven't been able to find a good answer. In the situation where a magnet is placed on a warm superconductor, which is then cooled, and the magnet will start to hover, I understand that this is meant to occur due to 'repulsion of magnetic fields' (instead of eddy currents, which may be responsible for some levitation when the magnet is placed [creating a change of flux] onto an already cooled superconductor). But I have not been able to find a decent explanation as to HOW the field is expelled. What is actually happening to make the flux expelled if there is no change in flux to induce eddy currents?

Also, I did also read something which suggested that in an exam answer we must mention something about currents/induced currents?? What is this about, if it's true? Is it part of the proper explanation as to how the field is repelled?

Thanks.
 

Kaido

be.
Joined
Jul 7, 2014
Messages
798
Gender
Male
HSC
2015
At HSC level: Changing Magnetic fields induce currents in the super (F-law). The currents flow in such a direction such that the magnetic field it creates opposes that which created it (L-law). This causes the Meissner effect such that no flux lines can penetrate it. The upward magnetic force from repulsion between the magnet and the superconductor is equal to the weight force of the magnet, thus causing it to hover above the superconducting disk

However, this explanation is far from the real phenomenon of flux pinning by vortex states and 'quantum locking' as a result of a need to conserve energy and superconductivity
 

Kaido

be.
Joined
Jul 7, 2014
Messages
798
Gender
Male
HSC
2015
Hey Fizzy, how do i approach the magnetic levitation experiment and background information on this? We can only use type II's for experiments, but the explanation for the 'levitation' that occurs in type II's is vastly different from type I's (which is the expected explanation)
 

Users Who Are Viewing This Thread (Users: 0, Guests: 1)

Top