Difference between revisions of "Rodrigues formula"
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A representation of [[Orthogonal polynomials|orthogonal polynomials]] in terms of a weight function using differentiation. If a weight function $ h ( x) $ | A representation of [[Orthogonal polynomials|orthogonal polynomials]] in terms of a weight function using differentiation. If a weight function $ h ( x) $ | ||
− | satisfies a Pearson differential equation | + | satisfies a [[Pearson differential equation]] |
$$ | $$ |
Revision as of 11:09, 4 January 2021
A formula relating the differential of the normal $ \mathbf n $
to a surface to the differential of the radius vector $ \mathbf r $
of the surface in the principal direction:
$$ d \mathbf n = - k _ {1} d \mathbf r \ \ \textrm{ or } \ \ d \mathbf n = - k _ {2} d \mathbf r , $$
where $ k _ {1} $ and $ k _ {2} $ are the principal curvatures.
The formula was obtained by O. Rodrigues (1815).
A.B. Ivanov
A representation of orthogonal polynomials in terms of a weight function using differentiation. If a weight function $ h ( x) $ satisfies a Pearson differential equation
$$ \frac{h ^ \prime ( x) }{h ( x) } = \ \frac{p _ {0} + p _ {1} x }{q _ {0} + q _ {1} x + q _ {2} x ^ {2} } \equiv \ \frac{A ( x) }{B ( x) } ,\ \ x \in ( a , b ) , $$
and if, moreover, at the end points of the orthogonality interval the following conditions hold:
$$ \lim\limits _ {x \downarrow a } h ( x) B ( x) = \ \lim\limits _ {x \uparrow b } h ( x) B ( x) = 0 , $$
then the orthogonal polynomial $ P _ {n} ( x) $ can be represented by a Rodrigues formula:
$$ P _ {n} ( x) = \ c _ {n} \frac{[ h ( x) B ^ {n} ( x) ] ^ {(} n) }{h ( x) } , $$
where $ c _ {n} $ is a constant. Rodrigues' formula holds only for orthogonal polynomials and for polynomials obtained from the latter by linear transformations of the argument. Originally, this formula was established by O. Rodrigues [1] for the Legendre polynomials.
References
[1] | O. Rodrigues, "Mémoire sur l'attraction des spheroides" Correspondence sur l'Ecole Polytechnique , 3 (1816) pp. 361–385 |
P.K. Suetin
Comments
For part 1) see also [a1], [a2]. For part 2) see also [a3], [a4].
References
[a1] | G. Darboux, "Leçons sur la théorie générale des surfaces et ses applications géométriques du calcul infinitésimal" , 1–4 , Chelsea, reprint (1972) |
[a2] | M.P. Do Carmo, "Differential geometry of curves and surfaces" , Prentice-Hall (1976) pp. 145 |
[a3] | G. Szegö, "Orthogonal polynomials" , Amer. Math. Soc. (1975) |
[a4] | T.S. Chihara, "An introduction to orthogonal polynomials" , Gordon & Breach (1978) |
Rodrigues formula. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Rodrigues_formula&oldid=48582