This is a fantastic question. You should watch this video (although it is CPython specific and about dictionaries -- but I assume it applies to sets as well).
Basically, python hashes the elements and takes the last N bits (where N is determined by the size of the set) and uses those bits as array indices to place the object in memory. The objects are then yielded in the order they exist in memory. Of course, the picture gets a little more complicated when you need to resolve collisions between hashes, but that's the gist of it.
Also note that the order that they are printed out is determined by the order that you put them in (due to collisions). So, if you reorder the list you pass to set_2, you might get a different order out if there are key collisions.
list1 = [8,16,24]
set(list1) #set([8, 16, 24])
list2 = [24,16,8]
set(list2) #set([24, 16, 8])
Note the fact that the order is preserved in these sets is "coincidence" and has to do with collision resolution (which I don't know anything about). The point is that the last 3 bits of
hash(24) is the same. Because it is the same, collision resolution takes over and puts the elements in "backup" memory locations instead of the first (best) choice and so whether 8 occupies a location or 16 is determined by which one arrived at the party first and took the "best seat".
If we repeat the example with
3, you will get a consistent order no matter what order they have in the input list:
list1 = [1,2,3]
set(list1) # set([1, 2, 3])
list2 = [3,2,1]
set(list2) # set([1, 2, 3])
since the last 3 bits of
hash(3) are unique.