Just an addendum to the answer:
The reason is I beleive, that it'll only do static checking. in the first case if(false) it'll see that that's unreachable code by a simple pattern check, so it'll not compile it in (should give a warning too).
For the second case, because F is a constant and it know it never changes,when doing static checking it can just do substitution. [F->false]<< body >>. and that would give the same code as the first one.
The last one is tricky. Since it's infeasible to know that 100% using static checking only what the value of F is. C# like all imperative languages have side effects.
imagine if you rewrite the code slightly
bool F = false;
// some code - is this compiled?
The problem here is, it doesn't know what foo does to F. in order to find out, it would have to trace (and possibly evaluate) the function, now imagine a very large programs with alot of these patterns, after all, If statements are used alot, trying to find the runtime value of F for all these statements would be very slow and time consuming and sometimes not even possible.