Not to mention, there is no guarantee of what order codes gets executed when running in threads. This is caused by what is called timeslicing. The CPU will allocate "slices" of time to a particular thread. When the slice is up, it effectively pauses the thread, and allows other threads to get a slice. Eventually, it will get back to paused threads and give them additional timeslices, but that's really up to the CPU.
Having multiple cores and/or hyperthreading allows the CPU(s) to have more threads be given a timeslice concurrently.
However, as i've said, there's no guarantee in which order threads are timesliced and where and when each individual thread will pause and resume.
What this means is that the order in which the "i++" operation (along with the associated print) is done is not necessarily the order in which you start your threads. In addition, any shared variable between threads should really be declared with the "volatile" modifier to prevent thread level caching of the value.
If you want to force sequential ordering, you should call into question why you are using threads in the first place instead of sequential loop.