given

```
S=\x.\y.\z.x z (y z)
```

and

```
K=\x.\y.x
```

I cannot understand how two beta equivalent forms of the same expression (S K K) yield different results in untyped lambda calculus if I start from the (S K K) form or the equivalent expanded form:

```
(S K K) = ((S K) K) -> ((\y.(\z.((K z) (y z)))) K) -> (\z.((K z) (K z))) ->
(\z.((\y.z) (K z))) -> (\z.z) -> 4 reductions!
(S K K) = \x.\y.\z.x z (y z) \x.\y.x \x.\y.x -> 0 reductions!
```

It seems the compressed and the expanded form have different parenthesizations, indeed the first one is parenthsized as:

```
(S K K) = ((S K) K)
```

while the second as:

```
\x.\y.\z.x z (y z) \x.\y.x \x.\y.x =
(\x.(\y.(\z.(((x z) (y z)) (\x.(\y.(x (\x.(\y.x)))))))))
```

Does anyone have any insight into this??? Thank you