WaltDog t1_j9a7c0a wrote
Reply to comment by Glasnerven in When something is bent (a metal ruler for example) and returns to its original shape, what is happening on the molecular level? Where is the information of the original shape stored and what forces do the unbending? by JewNugget2525
Question: In a metal lattice of say iron, what holds the iron atoms together? They're all electrically neutral overall so I would think the attraction between the protons and electrons and the repulsion between the electrons would cancel out.
KarlSethMoran t1_j9ab3fs wrote
The charge cancels out, but that doesn't mean they can't stay put. Imagine a positive charge in the middle of a triangle and three smaller identical negative charges in the corners, for instance.
In reality it's a bit more complex than that. Electrons are fermions, and that means that they experience so-called Pauli repulsion. This is what prevents two atoms from falling on top of one another, and what prevents you from inserting your hand into the table. On top of that there are dynamical electromagnetic effects, known as dispersion, that lead to electromagnetic attraction even between uncharged objects. For instance two atoms of argon, both neutral, will attract one another unless they are very close to one another.
In an iron lattice the cohesion is due to the electrons stabilizing the nuclei.
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