To perform a merge, Git needs to find out, what exactly happened in the two branches since the common ancestor (
A1). As you have said correctly, Git stores snapshots of the commits/trees so to get an actual change set, it has to compare
A1 and then merge those individual change sets.
The same thing happens in a rebase. To apply the change set of
B1, we first need to calculate that change set from the differences between
A2. And then we can apply that to
B1. You can think of a rebase as something similar to an automated generation of patch files. First it generates all those patch files from the old branch and applies them then to the current HEAD.
So, we need all those three commits to actually calculate the differences, as we cannot figure out what happened in a commit just by looking at that commit.