good evening everyone,

i am currently studying scheme and came across the following question:

prove or disprove the following statement: the procedure my-or:

```
(define my-or
(lambda (test1 test2)
(if test1
#t
test2)))
```

works the same as the built-in procedure "or" with two arguments. tipp:

(or) = #f

```
(or <a1> ... <an>) = (if <a1>
#t
(or <a2> ... <an>))
```

if you disprove the statement, find a programm where the difference between the two procedures can be noticed.

so, i believe there is no difference between the two procedures, since they both work the same way for two arguments (portrayed by this tree-diagram that is based on the racket-documentation of the procedure if and or):

```
if/or
.. ..
#f #t
.. ..
test2 outcome: #t
.. ..
#f #t
.. ..
outcome: #f outcome: #t
```

and also, because if i rewrite my-or in the way it is mentioned in the second tipp i still get the same output, for example:

```
> (my-or (= 10 10) (> 2 5))
--> #t
> (my-or (> 23 42) (< 5 2))
--> #t
```

rewritten:

```
> (if (= 10 10) #t (or (> 2 5)))
--> #t
> (if (> 23 42) #t (or (< 5 2)))
--> #f
```

the only thing that bothers me is the feeling that we are supposed to disprove the statement due to the mentioning of: "if you disprove the statement, find a programm where the difference between the two procedures can be noticed."

this is why i am not wondering if somebody has an idea to disprove the statement or if somebody can otherwise confirm my idea how to prove the statement to be right..

thanks already! yours, eva