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I'm trying to get my head around the proof that an orthogonal polynomial ($P_n$ say) has at least n distinct roots. My understanding of the proof http://en.wikipedia.org/wiki/Orthogonal_polynomials#Existence_of_real_roots so far is that (by contradiction):

  • Assume we have $m \le n$ roots. We'll show $m=n$
  • Let $\displaystyle S(x) = \prod_{j=1}^m (x-x_j)$
  • Gives us that $S(x)$ is an nth degree polynomial
  • $S(x)$ changes sign at each of the $x_j$

My problem is this statement:

$S(x)P_n(x)$ is therefore strictly positive, or strictly negative, everywhere except at the $x_j$.

The $x_j$? What $x_j$? The lecture notes I have also say "except at $x_i$" so I'm pretty confused.

If someone can help me out here I'd greatly appreciate it. Thank you!

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    The form of $S(x)=\displaystyle\prod_{i=1}^m(x-x_i)$ makes me wonder if it can be linked to the discriminant \Delta=\displaystyle\prod_{i, which if can be shown to be strictly positive, implies all roots are real and distinct.2011-05-13

0 Answers 0