I won't go into making data structures here since Joshua has done that already, but talk about functions in general.
No functions need a name. Some names points to function objects (procedures, closures).
So you have
(lambda (x) x). In an interpreter
lambda is a special form and it turns the form into a
procedure (closure). An representation after evaluation might be
(procedure (x) <env> x) where
env is the current environment. Evaluating
((lambda (x) x) y) will evaluate the operator, which evaluates to
(procedure (x) <env> x) and the evaluator will identify that as a procedure so it will evaluate the argument before applying
x in the closures environment with the variable bindings.
How does functions with names make more sense?
With a named eg.
(define identity (lambda (x) x) The same mechanism is used to create the procedure, but the special form define creates a binding to the result so that
identity is bound to
(procedure (x) <env> x) in the environment. When you do
(identity q) it will evaluate
identity first as a part of the default case where you have an application so that the interpreter gets
(procedure (x) <env> x) and when it analyses that it knows to evaluate the argument before application.
And this is just interpreted code. In a compiled one the differences would be a lot smaller and it's a possibility that it would have turned into the exact same compiled code since the name is just for programmers to abstract complexity into easily solvable parts.