What is the difference between the combination magnet-magnet and magnet-iron?

A permanent magnet and in iron plate attract each other, but there is no repulsion, like you can find between two permanent magnets (see FAQ regarding attraction and repulsion).

At full contact, the attractive force between a raw magnet and an iron plate is the same as the attractive force between two raw magnets. However, with increasing distance, the attraction diminishes faster than the attraction between two raw magnets (see graph). This statement can also be verified with our Adhesive Force Tool.

Please note: These facts apply to raw magnets. For pot magnets the attractive force to iron is stronger than it is to another raw magnet (see FAQ about pot magnets).

Example using disc magnet S-12-06-N

x-axis: distance
y-axis: adhesive force

pink: attraction magnet-magnet
blue: attraction magnet-iron

Ferromagnetic material (iron, cobalt, nickel) contains microscopically small permanent magnets (molecular magnets). These molecular magnets rotate individually and can be adjusted by external magnetic fields. The material is thereby magnetised.

Explaining remanence

Also a super magnet contains molecular magnets. During the production of a permanent magnet, they are adjusted by a very high field that is produced by electromagnets. After turning off this external magnetic field, the alignment in the permanent magnet stays more or less intact (remanence: remanere = remain). A permanent magnet can now, in turn, adjust and thereby magnetise the molecular magnets in other ferromagnetic material. That's what happens at full contact between magnet and iron: The magnet transfers its magnetisation to the iron and the iron acts like a magnet.