Here's an example of why iterators throw up when you try to modify a list when you're iterating over it.
Let's say your iterator is implemented using an index, as in an
ArrayList: let's say your iterator is pointing to position 3 in the
List right now. Now you add an element at position
1. The iterator doesn't know what changes you've made, so it's still pointing at position 3, but position 3 now holds the element that used to be at position 2, because everything got shifted down. So your iterator will now visit one element twice! That's bad.
So the rule is that when you modify a list while you're iterating over it, you have to do so from the iterator itself, so the iterator knows how to keep its position in sync with the modifications to the list. If you modify the list without going through the iterator, the iterator throws a
ConcurrentModificationException instead of silently becoming corrupted, e.g. visiting an element more than once.