Spaces are used to separate list tokens. `A.B`

is a single token. `(A.B)`

is a list with a single element. `(A . B)`

is a cons cell with `A`

as car and `B`

as cdr.

A cons cell is a pair of "things" (objects). In your case, these things are symbols, and they are named `A`

, `B`

, etc.. The printed representation of such a cell is `(A . B)`

, for example. This is called "dot notation". The first element is called "car", the second "cdr".

The function `cons`

creates such a cell. `(cons 'a 'b)`

thus produces the cell `(A . B)`

. *Note that names are always upcased internally*.

This is most likely what your teacher wanted, so `((A . B) . C)`

is the correct output, and your code the right answer. This is a cell where the car points to another cell, and the cdr contains `C`

. That other cell is a cell where the car contains `A`

and the cdr `B`

.

By the way, a *list* is a linear chain of such cons cells, such that the car always holds a value and the cdr points to the rest of the list. The last cdr points nowhere (which is called NIL in Lisp). In dot notation, a list is e.g. `(A . (B . (C . NIL)))`

. Since lists are important, they can be written shorter like this: `(A B C)`

. If the last CDR has a value instead of NIL, it is shown in dot notation, e.g. `(A . (B . (C . D))))`

can be written as `(A B C . D)`

.