The above answers focus on the speed of text search, missing the point of the question. They also presume a few things about the indexing and searching that also miss the point.
So, discard thoughts on text search as it's unrelated.
Now, if you index on an integer field it will be quick, no doubt. But what if you have several integer fields. Only one index will be used (multi-index will not give you what you want). If the search criteria is over multiple fields, the best choice of index will be determined and you'll get the regular speed bump on that. When it has to check the other criteria, though, will it have to scan the columns or will it optimize on knowledge of where, from the index-provided offset, the column it is checking exists? If it has to do this scan on a million rows, one could conceivably greatly reduce the complexity by optimizing on this knowledge, and one hopes this still happens as we have all this effort in providing varied length/fixed-length columns.
The most useful suggestion in the above answers was to try it on a big chunk of data. That's a good idea. I've often wondered exactly this, but I've never bothered to check. To set up the problem, try this:
4 columns, int, int, int, text: random numbers in the ints, random length text in the text. Record the values you used, make 1 million rows. index on the first int, search with where statement on each of the int values. try each search 100 times, try 10 searches.
next step, same setup, except put the text as the second column instead of the fourth. Use the same data as you used in the first test. Check to see if it's faster.