Given that C is named "high-level assembler", the answer lies in its compiler structure.
printf is a function, that accepts variable number of arguments without ever checking whether all of them were actually supplied. So, depending on how is that function accepts arguments at compiler level, the following scenario is possible:
First, the string that's passed to printf is parsed, resulting in a subsequent call of an inner function, that would output a string 'Overwritten' in the second case (in the first case the very first symbol of formatted string is a '%' which signifies a parameter). Then, when a parameter is requested to get printed, a corresponding raw data printing routine is invoked, with the argument of what should next lay in stack (the offset is calculated at compile time). In case of
%x, there are no arguments, and the unchanged string to get printed is empty and thus not allocated, so the next 32-bit value that's in the stack is the current return address, the one that's generated by the OS at EXE loading time, and actually put in stack via
call printf_hex_address assembly instruction. The attack is apparently based on the fact that if the processing program is actually persistent in memory, and won't get swapped, this address is a writable memory location within the program's address space. Why did there "Overwritten"'s length appear, can be explained by the internal string operating routine designed so that the actual length of the string is passed into it.