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Please help me with this problem on demonstrations.

By using Rolle's Theorem, show that $$f(x)=x^{10}+ax-b\quad,\quad {\rm where}\;\; a,b\in \mathbb{R}$$ has at most two real roots.

Thanks in advance.

Grettings

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    If there are at least three real roots, then you can apply Rolle's theorem twice and get two real roots of $f'(x) = 0$. Why is this a problem? It's important here that $9$ is odd.2011-08-12
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    Thanks. But How I can find $x_1$, $x_2$ such that $f(x_1)=f(x_2)$ and such that $ - \sqrt[9]{9} \in \left\langle {{x_1},{x_2}} \right\rangle $?2011-08-12
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    I'm not sure where you got $\sqrt[9]{9}$. Could you explain? We could head to chat, I suppose.2011-08-12
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    sorry, I wanted to say : $$-\sqrt[9]{a} \in \left\langle {{x_1},{x_2}} \right\rangle$$ which is a root of $f'(x)$2011-08-12
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    That's a root, yes. I would avoid saying anything involving $x_1, x_2$ at this point. Can there be another root?2011-08-12
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    Now I understood, thanks. I could solve it with your suggestion, assuming at least 3 roots of $f(x)$ and apply Rolle Theorem could then obtain a contradiction to conclude that $f'(x)$ has more than one root when in fact it has only one. Thanks, served me well.2011-08-12

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