Here's a scenario that came up just recently at work.
Consider three tables, A, B, C.
A has 3,000 rows; B has 300,000,000 rows; and C has 2,000 rows.
Foreign keys are defined: B(a_id), B(c_id).
Suppose you had a query that looks like this:
select a.id, c.id
join b on b.a_id = a.id
join c on c.id = b.c_id
In my experience, MySQL may choose to go C -> B -> A in this case. C is smaller than A and B is enormous, and they're all equijoins.
The trouble is MySQL doesn't necessarily take into account the size of the intersection between (C.id and B.c_id) vs (A.id and B.a_id). If the join between B and C returns just as many rows as B, then it's a very poor choice; if starting with A would have filtered down B to as many rows as A, then it would have been a much better choice.
Generally you want to do your joins in an order that minimizes the number of rows in the resulting set. So starting with a small table and joining such that the resulting join will also be small, is ideal. Things go pear-shaped if starting with a small table and joining it to a bigger table ends up just as large as the big table.
It's stats dependent though. If the data distribution changes, the calculation may change. It's also dependent on the implementation details of the join mechanism.