If i have n elements, say

```
a, b, c
```

Then i can use 6 comparison with (n-1) comparators to sort the elements:

```
if (a > b && b > c) {
a, b, c
}
else if (a < b && b < c) {
c, b, a
}
else if (b > a && a > c) {
b, a, c
}
else if (a > c && c > b) {
a, c, b
}
else if (b > c && c > a) {
b, c, a
}
else if (c > a && a > b) {
c, a, b
}
```

Now I have two questions:

Do this 6 comparisations cover all possibile combinations of the 3 elements?

If yes, is it true that to compare n elements, n! comparisations with (n-1) comparators are needed?