It may not be used in practice, but it is incredibly valuable to learn the concept of the equivalence between member functions and functions that take the object as the first parameter. Having this concept in the back of their head will help them in many problems they will encounter down the road.
Day in and day out I see people asking questions on Stack Overflow about why it doesn't work to point to pass a member function to something requiring function pointer, and things like that. They think that member functions are just some magical functions that are part of an object, and over-complicate the whole situation. If they had realized that member functions were equivalent to functions that took the object as the first parameter, then the problem they're having (that to call the method they would somehow need both the member function pointer as well as the object), as well as possible solutions (somehow pass the object in separately, or make some kind of closure that captures the object) becomes apparent. Apparently, too many people just pretend that OO is "magic" and don't understand this.
In functional programming, we often teach people how data structures and local variables and all that stuff could be written purely in terms of manipulation of functions. Not that this is practical -- it would probably be inefficient -- but this impresses upon them something about the power of functions. And it helps them to understand things in a different way. And maybe down the road if they write a compiler or something, these equivalences will come in handy.
Computer science is all about equivalences and reductions, and how to think about one problem in terms of another. We reduce SAT-3 to subset sum, not because that's actually how we would actually solve the SAT-3 problem, but because this teaches us that subset sum is NP-complete.
Every once in a while, I come across a piece of code written by someone else, where non-instance methods take a pointer to a structure as an argument, and I see a pattern and a light bulb goes off in my head, and I say, ah-ha, this can be re-factored into an instance method, because I know about this equivalence. So you see, knowing these equivalences also helps us to write better, simpler code.