Let's go with all the possible cases, because from your question I'm not too sure either:
extern as a keyword. In order to understand this, you need to understand compilation units. Basically, each file is a compilation unit - so each
.c is compiled to a
.o with the headers substituted in place. In each compilation unit, you forward declare symbols you expect to use - functions belonging to other compilation units, for example.
Now, if you declare a global variable in one
.c file, it is global wrt that file, but does not exist as a symbol in any other file at all - the compiler will error because it doesn't know where that variable was declared.
(Of course, if you declare the variable in a header - it will exist in all of the objects the header is included in, and then the linker will sulk, because when it links all the objects up some of the symbols will have the same name).
To get around this, it is possible to define a variable with
extern int x;, for example. This tells the compiler a)
int x should be available to this compilation unit, b)
int x is not in this compilation unit and c) the linker should check it exists somewhere in all the units you've put together to form a library or program.
Conceptually, you're doing this all the time with forward-declarations of functions. There's just no way to forward declare a variable. In fact, you can do this with functions too and not bother r.e shared headers, although this is not really a good idea.
The other case is that "external variables" mean something external to a certain scope or module you have. I would check your assignment very carefully and if in doubt ask - whoever set it should be able to explain to you exactly what they mean.