The optimiser will make its decision based on the relative cost of the full table scan and using the index. This mainly comes down to how many blocks will have to be read to satisfy the query. The 25%/75% rule of thumb mentioned in another answer is simplistic: in some cases a full table scan will make sense even to get 1% of the rows - i.e. if those rows happen to be spread around many blocks.
For example, consider this table:
SQL> create table t1 as select object_id, object_name from all_objects;
SQL> alter table t1 modify object_id null;
SQL> update t1 set object_id = null
2 where mod(object_id,100) != 0
84558 rows updated.
SQL> analyze table t1 compute statistics;
SQL> select count(*) from t1 where object_id is not null;
As you can see, only approximately 1% of the rows in T1 have a non-null object_id. But due to the way I built the table, these 861 rows will be spread more or less evenly around the table. Therefore, the query:
select * from t1 where object_id is not null;
is likely to visit almost every block in T1 to get data, even if the optimiser used the index. It makes sense then to dispense with the index and go for a full table scan!
A key statistic to help identify this situation is the index clustering factor:
SQL> select clustering_factor from user_indexes where index_name='T1_IDX';
This value 460 is quite high (compared to the 861 rows in the index), and suggests that a full table scan will be used. See this DBAZine article on clustering factors.