The power operator (`**`

) has a higher priority than the division one (`/`

). So you need to set parentheses:

```
f = lambda x: x ** (1./3)
```

Still, floating point operations are not exact, so you have to compare with some small uncertainty:

```
def is_cardano_triplet(a, b, c):
f = lambda x: x ** (1. / 2)
g = lambda x: x ** (1. / 3)
return abs(g(a + b*f(c)) + g(a - b*f(c)) - 1) < 1e-10
```

Now you get the problem, that negative numbers are only allowed for roots of odd numbers, but floating points aren't exact, so you have to handle negative numbers by hand:

```
def is_cardano_triplet(a, b, c):
f = lambda x: x ** (1. / 2)
g = lambda x: (-1 if x<0 else 1) * abs(x) ** (1. / 3)
return abs(g(a + b*f(c)) + g(a - b*f(c)) - 1) < 1e-10
```

Now

```
print is_cardano_triplet(2,1,5)
```

results in `True`

.

`math.sqrt`

or`math.pow`

function, you don't need to implement your own.`x ** 1. / 2`

is`(x ** 1.) / 2`

, not`x ** (1. / 2)`

.)2more comments