# Return the second element for every element in a list

Let's say we have this list '( (4 (1 2)) (5 (5 5)) (7 (3 1)) (1 (2 3)))

I am trying to write smth in Scheme in order to get the second element for every element in the list.. So the result will look like '( (1 2) (5 5) (3 1) (2 3))

I have this code so far..

(define (second  list1)
(if (null? (cdr list1))
(cdr (car list1))
((cdr (car list1))(second (cdr list1)))))
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whats wrong with the code? – X-Pippes Oct 25 '13 at 21:20
I get this..application: not a procedure; expected a procedure that can be applied to arguments given: '((3 1)) arguments...: '((2 3)) – dionysosz Oct 25 '13 at 21:22
Format the code in a reasonable way (i.e no lines cantaining only parens) and the problem will be easier to spot. – Terje D. Oct 25 '13 at 21:28
There's an answer that tell you how to do this, but the actual error your're getting is addressed in this question. – Joshua Taylor Oct 28 '13 at 20:36
possible duplicate of “application: not a procedure” in binary arithmetic procedures. That question won't tell how to map cadr over a list, but the specific programming question here is not how to do that, but rather "Why is there an application: not a procedure …" error. – Joshua Taylor Oct 28 '13 at 20:38

Here's a straightforward solution:

(define (seconds lst)

In general, when you want to transform every element of a list, map is the way to go.

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Wow!! Thanks a lot chris!! I have so much to learn about Scheme – dionysosz Oct 25 '13 at 21:26
@dionysosz If this answer worked for you, please consider accepting it. – Joshua Taylor Oct 28 '13 at 20:33

All you need to do is map the built-in function second onto the list lst:

(map second lst)
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Your error is that you lack an operator, perhaps cons. If you look at the consequent:

((cdr (car list1))(second (cdr list1)))

So Scheme expects (cdr (car list)) to be a procedure since it's in operator position in the form, but since it isn't you get an error. In addition (cdr (car x)) == cdar wont take the second element in every element but the tail of each element. cadar is what you're lookig for.

(define (second  list1)00+
(if (null? (cdr list1))
(cons (cadar list1) (second (cdr list1)))))

It will fail for the empty list. To fix this you let the consequemt take care of every element and the base case only to stop:

(define (second  list1)
(if (null? list1)
'()
(cons (cadar list1) (second (cdr list1)))))

The result for a list will be the same. There is a procedure called map. It supports several list arguments, but the implementation for one is:

(define (map fun lst)
(if (null? lst)
'()
(cons (fun (car lst)) (map fun (cdr lst)))))

Looks familiar? Both make a list based on each element, but map is generic. Thus we should try to make (fun (car lst)) do the same as (cadar lst).

(define (second lst)