The solution to this problem follows a well-known pattern. I'll give you some hints, it'll be more fun if you find the answer by your own means:

```
(define (SumNeighbors lst)
(if <???> ; if there's only one element left
<???> ; we're done, return the empty list
(cons ; otherwise call `cons`
(+ <???> <???>) ; add first and second elements
(SumNeighbors <???>)))) ; and advance recursion
```

Notice the following:

- Your solution is lacking the base case - what happens when the list we're traversing only has one element left? it's time to finish the recursion! and because we're building a list as the output, what should be the value returned?
- We normally use
`cons`

to build an output list, not `append`

. That's the natural way to build a list
- The part of this procedure that falls outside the solution template is the fact that we stop when there's a single elment left in the list, not when the list is empty (as is the usual case)

You'll see that many procedures that iterate over an input list and return a list as output follow the same solution template, it's very important that you learn how and why this works, it's the foundation for writing solutions to other similar problems.