The correct way to write the predicate would be:
prefix(Xs, Ys) :- append(Ys, _, Xs).
What this says is
Ys is a prefix of
Ys appended with some other list (I don't care what it is) is
Now in prolog, when you issue a query, such as
append, and the predicate is defined relationally, it will attempt to find all solutions that make the query TRUE. If I have the query,
append(Ys, _, [1,2,3]), prolog can make this true by instantiating
[1,2,3] (thus yielding the solution,
Ys = . It will then backtrack and find another solution:
[2,3]. And so on...
So when you run your query, you get:
| ?- prefix([1,2,3], X).
X =  ? ; % append(, [1,2,3], [1,2,3]); X = , _ = [1,2,3]
X =  ? ; % append(, [2,3], [1,2,3]); X = , _ = [2,3]
X = [1,2] ? ; % append([1,2], , [1,2,3]); X = [1,2], _ = 
X = [1,2,3] % append([1,2,3], , [1,2,3]); X = [1,2,3], _ = 
Remember, Prolog seeks to find solutions by checking facts and rules and instantiating variables. If there's more than one way to instantiate the variables, it will backtrack. If backtracking finds another set of variable instantiations that makes the query true, Prolog will show it as a solution. If more backtracking is available, it prompts you for more (and entering
; says to give me the next one).