EDIT: before you read any of the following, here's an excellent on-topic article: http://blogs.msdn.com/b/pfxteam/archive/2012/01/20/10259049.aspx ; You can skip my post and go directly there!
Most important part describing the root cause:
The default implementation of SynchronizationContext.Post just turns around and passes it off to the ThreadPool via QueueUserWorkItem. But (...) can derive their own context from SynchronizationContext and override the Post method to be more appropriate to the scheduler being represented.
In the case of Windows Forms, for example, the WindowsFormsSynchronizationContext implements Post to pass the delegate off to Control.BeginInvoke. For DispatcherSynchronizationContext in WPF, it calls to Dispatcher.BeginInvoke. And so on.
So, you need to use something other than the base SynchronizationContext class. Try using any of the other existing ones, or create your own. Example is included in the article.
And now, my original response:
After thinking a bit, I think the problem is that in your console application there is no thing like "message pump". The default SynchronizationContext is just a piece of lock. It prevents threads from intersecting on a resource, but it does not provide any queueing or thread selection. In general you are meant to subclass the SynchroContext to provide your own way of proper synchronization. Both WPF and WinForms provide their own subtypes.
Wait on your task, most probably the MainThread gets blocked and all other are run on some random threads from the default threadpool.
Please try writing Thread IDs to the console along with the STA/MTA flag.
You will probably see:
If you see this, then most probably your first task is run synchronously on the calling thread and gets instantly finished, then you try to "continue" it's just 'appended' to 'the queue', but it is not started immediatelly (guessing, I dont know why so; the old task is finished, so ContinueWith could also just run it synchronously). Then main thread gets locked on wait, and since there's no message pump - it cannot switch to another job and sleeps. Then threadpool waits and sweps the lingering continuation task. Just guessing though. You could try to check this by
write "starting task1"
start task1 ( -> write "task1")
write "continuing task2" <--- add this one
continue: task2 ( -> write "task2")
and check the order of messages in the log. Is "continuing" before "hello" from task1 or not?
You may also try seeing what happens if you don't create the Task1 by StartNew, but rather create it as prepared/suspended, then Continue, then start, then wait. If I'm right about the synchronous run, then in such setup main and continuation task will either both be run on the calling '1111' STA thread, or both on threadpool's '2222' thread.
Again, if all of these is right, the providing some message pump and proper SyncContext type will probably solve your issue. As I said, both WPF and WinForms provide their own subtypes. Although I don't remember the names now, you can try using them. If I remember correctly, the WPF starts its dispatcher automatically and you don't need any extra setup. I don't remember how's with WinForms. But, with the WPF's auto-start, if your ConsoleApp is actually some kind of a unit-test that will run many separate cases, you will need to shutdown the WPF's dispatcher before the cases.. but that's far from the topic now.