```
data M3 a = M3 !(V3 a) !(V3 a) !(V3 a) deriving (Show, Eq)
identity :: Real a ⇒ M3 a
identity = M3
(V3 1 0 0)
(V3 0 1 0)
(V3 0 0 1)
(*$) :: (Num a) ⇒ M3 a → V3 a → V3 a
(*$) (M3 (V3 m0 m1 m2) (V3 m3 m4 m5) (V3 m6 m7 m8)) (V3 x y z) = V3
(x * m0 + y * m1 + z * m2)
(x * m3 + y * m4 + z * m5)
(x * m6 + y * m7 + z * m8)
fromAxisAngle :: (Real a, Floating b) ⇒ V3 a → a → M3 b
fromAxisAngle axis angle = M3
(V3 (c * x*x + b) (c * x*y - z*a) (c * z*x + y*a))
(V3 (c * x*y + z*a) (c * y*y + b) (c * y*z - x*a))
(V3 (c * z*x - y*a) (c * z*y + z*a) (c * z*z + b))
where
a = sin $ (realToFrac angle) * pi / 180
b = cos $ (realToFrac angle) * pi / 180
c = 1 - b
(V3 x y z) = normal axis
test1 = m *$ (V3 0 0 10) -- This is (V3 0 (-10) 0) correct :)
where
m = fromAxisAngle (V3 1 0 0) 90
test2 = m *$ (V3 0 10 0) -- This is wrong (0,0,0) should be (0,0,10)
where
m = fromAxisAngle (V3 1 0 0) 90
```

The second rotation (`test2`

) is not working out as i would expect. Can you see any errors in my code?