Note the answers provided by the other posters, to which I would add a few:
1) Apps that must handle multiple operations that require timeouts and/or delays. Multiple threads can eliminate complex and difficult-to-debug state-machines, (a thread is effectively a state-machine run by the OS). The obvious example is multi-channel comms apps that need delays to implement specific protocols - sleep() is much easier to both implement, understand and debug than all the timers, callbacks etc. etc. than infest single-threaded apps that need this functionality. Running a separate thread for each channel allows such code to be written 'in-line'. Once you have got one channel working, 100 is no problem.
2) Apps that need API's that block. There are some API's, (well, on Windows anyway), that block and do not have an asynchronous alternative, esp. on older OS. Without a dedicated thread to call these, you will get stuck.
3) Apps where multiThreading the solution looks like it will be quicker, but provide just insufficient cost/performance benefit to make it worth while. Next year, things will be different.
4) Apps that are part of a large system and have a printed requirement spec heavier than ~ 100g, start thinking multiple threads.
5) If the app is trivial, not time-constrained and you have little/no threading experience, thread off part of it anyway, just for the fun, (?), of it. After a while, you will just know how to structure large, complex apps so that they will work reliably and are maintainable and expandable. 'I don't do multiple threads' does not go down well in an interview :)