Although the actual details of MySQL's B-tree indexes are more complicated than this, for most purposes it's close enough to say that having an index on a column lets the MySQL engine perform
SELECTs on your table as if it was ordered by that column.
code column has an index on it, and you're searching for records where
code LIKE 'a%', then all MySQL (or whatever other SQL package, as long as it's sufficiently clever) has to do is spit out all the records from the start of 'a' to to the start of 'b'. However, if you're searching for records where
code LIKE '%a%', then having the table already ordered by
code won't help you, because whether a row matches the WHERE clause has no simple relationship to its position in the index. So for the second query, there's nothing the database can reasonably do except check every character of the
code entry of every single row in the table (unless it already has the result cached).
This is fairly easy to understand intuitively, because you can imagine doing something reasonably analogous yourself, as a human. If you want to find all the words in the Oxford English Dictionary that begin with 'a', then you just go through all the pages from the start of 'a' to the start of 'b', and everything you see is a word starting with 'a'. If you want to find all the words in the dictionary with an 'a' in them anywhere, then the dictionary being ordered doesn't offer you much help. If you're sophisticated enough, you can plausibly exploit the ordering of the dictionary a little (such as by using your knowledge that all the words before the first 'b...' word in the dictionary contain an 'a'), but ultimately you're gonna have to look at almost every single word.