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I try to solve the equation $f(x) = 7x - 11 - 2x^2 = 0$ for $x$, but run into troubles. I've gone through it over and over again as well as similar problems, but can't find what I'm doing wrong.

$f(x) = 7x - 11 - 2x^2 = 0$ $\iff x^2 - \frac{7}{2}x + \frac{11}{2} = 0 $ $\iff \left(x + \frac{7}{4}\right)^2 = \left(\frac{7}{4}\right)^2 - \frac{11}{2}$ $\iff x + \frac{7}{4} = \pm \sqrt{\left(\frac{7}{4}\right)^2 - \frac{11}{2}}$ $\iff x = -\frac{7}{4} \pm \sqrt{\frac{49}{16} - \frac{88}{16}}$ $\iff x = -\frac{7}{4} \pm \sqrt{\frac{-39}{16}}$

I should be able to continue but I'm stuck (seeing as it's a negative number). What am I doing wrong?

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    With $x=\frac14(\color{red}{+}7\pm\sqrt{-39})$, in fact.2012-08-17

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You did everything fine but your quadratic equation has no real solutions, which you could have found out way more easily had you first calculated the equation's discriminant:

$\Delta:=b^2-4ac=7^2-4(-2)(-11)=49-88=-39<0$

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    Not the way I wrote, which is much shorter than his. Of course, as he's using the quadratic roots formula, which is only $x_{1,2}=\frac{-b\pm\sqrt \Delta}{2a}$ then the disciminant appears there. My point is you don't need to do *all* that to use the discriminant. :)2012-08-17