```
remove_every_nth :: Int -> [a] -> [a]
remove_every_nth n = foldr step [] . zip [1..]
where step (i,x) acc = if (i `mod` n) == 0 then acc else x:acc
```

Here's what the function does:

`zip [1..]`

is used to index all items in the list, so e.g. `zip [1..] "foo"`

becomes `[(1,'f'), (2,'o'), (3,'o')]`

.

The indexed list is then processed with a right fold which accumulates every element whose index is not divisible by `n`

.

Here's a slightly longer version that does essentially the same thing, but avoids the extra memory allocations from `zip [1..]`

and doesn't need to calculate modulus.

```
remove_every_nth :: Int -> [a] -> [a]
remove_every_nth = recur 1
where recur _ _ [] = []
recur i n (x:xs) = if i == n
then recur 1 n xs
else x:recur (i+1) n xs
```