0
$\begingroup$

When considering the polynomials $x^{n^2} \pm (x-1)^{n^2}$ ( $n$ integer > 1 ) i noticed some things that appeared weird to me.

Discriminant($x^{n^2} + (x-1)^{n^2}) = (n^2)^{n^2}$. Discriminant($x^{n^2} - (x-1)^{n^2}) = (n^2)^{n^2 -2}$.

But that was not all , it appears many of the roots of $x^{n^2} \pm (x-1)^{n^2} = 0$ apart from the trivial $\frac{1}{2}$ can be expressed in rootform ( for all $n$ ).

I just did the following but it seems i missed something :

$x^{n^2} \pm (x-1)^{n^2} = 0$

divide by $x^{n^2}$

$1 \pm (1-1/x)^{n^2} = 0$

$(1-1/x) = (\mp 1)^{1/n^2}$

abs formule

But that did not explain the rootforms or discriminant. And it surprised me those zero's could be expressed without the $(\mp 1)^{1/n^2}$ term.

I must say im not an expert in Discriminants or Galois theory. How to explain and prove this ?

  • 3
    You can write $x^{n^2}$ as `$x^{n^2}$` and $\pm$ as `$\pm$`. For more about typing math at this site see e.g. [here](http://meta.math.stackexchange.com/questions/5020/tex-latex-mathjax-basic-tutorial-and-quick-reference), [here](http://meta.stackexchange.com/questions/68388/there-should-be-universal-latex-mathjax-guide-for-sites-supporting-it/70559#70559) or [here](http://meta.math.stackexchange.com/questions/1773/do-we-have-an-equation-editing-howto).2012-09-16

1 Answers 1