Actually the object is not named FOO. FOO is the name of a variable which is not the object; the variable contains a reference to the object. There could be several distinct variables containing references to the same object.
The garbage collector works by automatically detecting unreachable objects: these are objects which the application cannot use anymore because it has irretrievably forgotten where they are (the application may possibly access any object for which it has a reference to, including the references stored in field in objects it can access, and so on).
When you set
FOO = null, assuming that
FOO contained at that point the last reachable reference to the object, then the memory is released immediately, in the following sense: at the very clock cycle at which
null is set in
FOO, the object becomes unreachable. Therefore, the garbage collector will notice that unreachable object and reclaim the corresponding memory block; that is, the GC will do that the next time it can be bothered to run. Of course, the actual bits which constitute the object may linger a bit in memory; but that block is nonetheless "free" since the memory allocator will automatically run the GC when free memory is tight. From the application point of view, the object is as good as dead and the corresponding memory is free since that memory will be reused the next time the application needs it. The whole thing is automatic.
Things are a bit more complex with regards to the operating system. If an unreachable object is free memory from the application point of view, it is still, as far as the OS is concerned, a block of RAM dedicated to the running process. That block of RAM may be given back to the OS only when the GC (which is, at the OS level, a part of the process) actually runs, notices that the object is unreachable, and condescends to give the block back to the OS. When the GC runs heavily depends on the GC technology and how the application allocates objects; also, some GC will never give back the block the OS at all (the GC knows that the block it free, the memory allocator will reuse it at will, but not other processes).
System.gc() is a hint to the VM, so that it runs the GC now. Formally, it is only a hint, and the VM is free to ignore it. In practice, it runs the GC, unless the VM was instructed not to obey such commands (with Sun's JVM, this is a matter of a specific command-line flag). Even if the GC runs, it does not necessarily give back the memory to the operating system.
System.gc() is not terribly useful.