I made this (what I thought to be) fairly straightforward code to calculate the third side of a triangle:

```
toRadians :: Int -> Double
toRadians d = let deg = mod d 360
in deg/180 * pi
lawOfCosines :: Int -> Int -> Int -> Double
lawOfCosines a b gamma = sqrt $ a*a + b*b - 2*a*b*(cos (toRadians gamma))
```

However, when I tried to load it into GHCi, I got the following errors:

```
[1 of 1] Compiling Main ( law_of_cosines.hs, interpreted )
law_of_cosines.hs:3:18:
Couldn't match expected type `Double' with actual type `Int'
In the first argument of `(/)', namely `deg'
In the first argument of `(*)', namely `deg / 180'
In the expression: deg / 180 * pi
law_of_cosines.hs:6:26:
No instance for (Floating Int)
arising from a use of `sqrt'
Possible fix: add an instance declaration for (Floating Int)
In the expression: sqrt
In the expression:
sqrt $ a * a + b * b - 2 * a * b * (cos (toRadians gamma))
In an equation for `lawOfCosines':
lawOfCosines a b gamma
= sqrt $ a * a + b * b - 2 * a * b * (cos (toRadians gamma))
law_of_cosines.hs:6:57:
Couldn't match expected type `Int' with actual type `Double'
In the return type of a call of `toRadians'
In the first argument of `cos', namely `(toRadians gamma)'
In the second argument of `(*)', namely `(cos (toRadians gamma))'
```

It turns out the fix was to remove my type signatures, upon which it worked fine.

```
toRadians d = let deg = mod d 360
in deg/180 * pi
lawOfCosines a b gamma = sqrt $ a*a + b*b - 2*a*b*(cos (toRadians gamma))
```

And when I query the type of `toRadians`

and `lawOfCosines`

:

```
*Main> :t toRadians
toRadians :: (Floating a, Integral a) => a -> a
*Main> :t lawOfCosines
lawOfCosines :: (Floating a, Integral a) => a -> a -> a -> a
*Main>
```

Can someone explain to me what's going on here? Why the "intuitive" type signatures I had written were in fact incorrect?