Note that numberOf(actors) != numberOf(threads).
You should create an actor for every entity that would otherwise share mutable state across threads. The whole thing about the actor model is that it shall isolate mutable state so that only immutable messages get exchanged between the actors. The result is that you don't need any locks anymore and you can easily reason about the thread safety of your program because all mutable state is isolated in actors and you can rely on the framework to properly pass the memory barrier whenever required, e.g. when switching an actor from one thread to another.
The number of threads is a different subject: This depends on the number of cores and the blocking coefficient for each thread, i.e. the percentage of time it spends waiting for other threads or the I/O subsystem. For example, if your actors are doing CPU intensive calculations (e.g. calculating Pi) then the blocking coefficient will be close to 0%. If however your actors are doing mostly I/O, you can easily assume a blocking coefficient of 90% or more.
Finally, the number of threads can be calculated like this:
int threads = Runtime.getRuntime().availableProcessors() * 100 / (100 - blockingCoefficient)
where blockingCoefficient represents an integer percentage between 0 and 99 inclusively.