So I asked this question previously in the control theory section and got no responses. Ill try it here. Basically I need to find the ranges of k and \$\beta\$ such that the steady state error will be less than 10% for unit step input.

I'm currently at the point where I know that the steady state error is given by:

$$ 9 < \beta k$$

Now I'm using the closed loop characteristic equation:

$$2s^4 +2s^3+ (2 + \beta)s^2 + (\beta - 10 + 2k)s + 1 +\beta k = 0$$


$$
        \begin{matrix}
        s^4 & 2 & (2+\beta) & (1+\beta k) \\
        s^3 & 2 & \beta-10+2k \\
        s^2 &12-4 k  & 1+\beta k \\
        s^1 & \frac{(12-4 k)(\beta-10+2k)-(2)(1+\beta k)}{12-4k} \\
        s^0 & 1+\beta k        
        \end{matrix}
$$

So at this point I'm not sure how to find the ranges for k and \$\beta\$ and apply it to the steady state error? Can I say that: 

$$ 12 - 4k > 0$$
$$ - 4k > -12$$
$$ 4k < 12$$
$$ k < 3 $$

I'm just stuck as this point. Any thoughts? Thanks.