It very much depends on the implementation details.
A HashSet uses an array as an underlying store which by default it attempt to grow when the collection is 75% full. This means it will fail if you try to add more than about 750,000,000 entries. (It cannot grow the array from 2^30 to 2^31 entries)
Increasing the load factor increases the maximum size of the collection. e.g. a load factor of 10 allows 10 billion elements. (It is worth noting that HashSet is relatively inefficient past 100 million elements as the distribution of the 32-bit hashcode starts to look less random, and the number of collisions increases)
A Vector doubles its capacity and starts at 10. This means it will fail to grow above approx 1.34 billion. CHanging the initial size to 2^n-1 gives you slightly more head room.
BTW: Use ArrayList rather than Vector if you can.
A LinkedList has no inherant limit and can grow beyond 2.1 billion. At this point size() could return Integer.MAX_VALUE, however some functions such as toArray will fail as it cannot put all objects into an array, in will instead give you the first Integer.MAX_VALUE rather than throw an exception.
As @Joachim Sauer notes, the current OpenJDK could return an incorrect result for sizes above Integer.MAX_VALUE. e.g. it could be a negative number.