depth-first-iterated-deepening search vs depth-first search

I actually don`t have a question concering coding, but search algorithms, I hope this is ok. In an assignment I need to solve the following question:

"Describe a state space in which dfid is much worse than dfs, e.g., O(n²) vs. O(n)." dfid is depth-first-iterated-deepening search and dfs normal depth-first search. I`m not sure how to solve this problem, I know that the worst case runtime is like O(b^d) for both searches in trees, but I find it hard to actually find a good example.

I thought about a tree with a branching of only 2, since the lower the branching the worse for dfid runtime.

Can somebody help me out with this?

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I guess two cases where DFS could be much better are if the branching factor is very large but there are lots of solutions at a given (large) depth (e.g. search to find a way of putting kings on a chess board to attack all squares), or if the branching factor was very small (e.g. 1) in which case dfid would need to keep deepening to find the correct depth. –  Peter de Rivaz Apr 12 '13 at 14:46
thx for the help, I got it know, and found a good example :) –  Jakob Abfalter Apr 12 '13 at 14:51
With DFS, you will proceed along each child until you reach the leaf. If there are `n` nodes, the running time is O(n).