## The cause of the problem

The type of the `sqrt`

function is

```
sqrt :: (Floating a) => a -> a
```

You can check this by typing `:t sqrt`

in ghci.

`Int`

is not an instance of `Floating`

, which is why you're seeing the second error.

The cause of the first error is the same; checking `:t floor`

reveals that the type is:

```
floor :: (RealFrac a, Integral b) => a -> b
```

The function is expecting an instance of `RealFrac`

, and you're supplying an `Int`

.

Typing `:info RealFrac`

or `:info Floating`

reveals that neither has an instance for `Int`

, which is why the body of the error says

No instance for ... Int

## The solution

The solution to this problem, is to make sure that the types are correct; they must be members of the proper type classes.

A simple way to do this is to use the `fromIntegral`

function, which `:t`

reveals is of type:

```
fromIntegral :: (Integral a, Num b) => a -> b
```

Using `fromIntegral`

is necessary because the incoming type is `Int`

, but the functions `floor`

and `sqrt`

operate on types `RealFrac`

and `Floating`

, respectively.

It's allowed because, as you can see from the type signature, `fromIntegral`

returns an instance of `Num`

, which includes both the `RealFrac`

and `Floating`

types. You can convince yourself of this by typing `:info Num`

and `:info Float`

into ghci, and viewing the output.

Making his change to your program would have the final result below, which should work as you want:

```
factors :: Int -> [Int]
factors n = [x | x <- [2..s], n `mod` x == 0]
where s = floor (sqrt $ fromIntegral n)
```

## Further reading

Two good resources for understanding exactly what's going on are the Haskell tutorial's sections on Type Classes and Numbers.