Interfaces are a form of polymorphism. An example:
Suppose you want to write some logging code. The logging is going to go somewhere (maybe to a file, or a serial port on the device the main code runs on, or to a socket, or thrown away like /dev/null). You don't know where: the user of your logging code needs to be free to determine that. In fact, your logging code doesn't care. It just wants something it can write bytes to.
So, you invent an interface called "something you can write bytes to". The logging code is given an instance of this interface (perhaps at runtime, perhaps it's configured at compile time. It's still polymorphism, just different kinds). You write one or more classes implementing the interface, and you can easily change how where logging works goes just by changing which one the logging code will use. Someone else can change how where logging works goes by writing their own implementations of the interface, without changing your code. That's basically what polymorphism amounts to - knowing just enough about an object to use it in a particular way, while allowing it to vary in all the respects you don't need to know about. An interface describes things you need to know.
C's file descriptors are basically an interface "something I can read and/or write bytes from and/or to", and almost every typed language has such interfaces lurking in its standard libraries: streams or whatever. Untyped languages usually have informal types (perhaps called contracts) that represent streams. So in practice you almost never have to actually invent this particular interface yourself: you use what the language gives you.
Logging and streams are just one example - interfaces happen whenever you can describe in abstract terms what an object is supposed to do, but don't want to tie it down to a particular implementation/class/whatever.
