In general, it's a bad idea to play hunches to "guess" what the performance of an SQL engine will be like. There is very sophisticated optimization happening in there which takes into account the size of the tables, the availability of indexes, the cardinality of indexes, and so on.
In this example, LEFT JOIN is wrong because you're producing a semi-cartesian JOIN. Basically, there will be a lot more rows in your result set than you think. That's because each matching row in t1 will be joined with each matching row in t2. If ten rows match in t1 and three in t2, you will not get ten results but thirty.
Even if only one row is guaranteed to match from each table (eliminating the cartesian join problem) it's clear that the LEFT JOIN solution will give you a dataset that's very hard to work with. That's because the content columns from each of the tables you JOIN will be separate columns in the result set. You'll have to examine each of the columns to figure out which table matched.
In this case, UNION is a better solution.
Also, please note:
Use of "*" in SELECT is generally not a good idea. It reduces performance (because all columns must be assembled in the result set) and in a case like this you lose the opportunity to ALIAS each of the content columns, making the result set harder to work with.
This is a very novel use of LEFT JOIN. Normally, it's used to associate rows from two different tables. In this case you're using it to produce three separate result sets "side-by-side". Most SQL programmers will have to look at this statement cross-eyed for a while to figure out what your intent was.