Trying to compute the following lines I'm getting a realy complex result.

```
from sympy import *
s = symbols("s")
t = symbols("t")
h = 1/(s**3 + s**2/5 + s)
inverse_laplace_transform(h,s,t)
```

The result is the following:

```
(-(I*exp(-t/10)*sin(3*sqrt(11)*t/10) - exp(-t/10)*cos(3*sqrt(11)*t/10))*gamma(-3*sqrt(11)*I/5)*gamma(-1/10 - 3*sqrt(11)*I/10)/(gamma(9/10 - 3*sqrt(11)*I/10)*gamma(1 - 3*sqrt(11)*I/5)) + (I*exp(-t/10)*sin(3*sqrt(11)*t/10) + exp(-t/10)*cos(3*sqrt(11)*t/10))*gamma(3*sqrt(11)*I/5)*gamma(-1/10 + 3*sqrt(11)*I/10)/(gamma(9/10 + 3*sqrt(11)*I/10)*gamma(1 + 3*sqrt(11)*I/5)) + gamma(1/10 - 3*sqrt(11)*I/10)*gamma(1/10 + 3*sqrt(11)*I/10)/(gamma(11/10 - 3*sqrt(11)*I/10)*gamma(11/10 + 3*sqrt(11)*I/10)))*Heaviside(t)
```

However the answer should be simpler, Wolframalpha proves it.

Is there any way to simplify this result?