Liouville theorem

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11: 18.38 Mathematical Applications

… ►The basic ideas of Gaussian quadrature, and their extensions to non-classical weight functions, and the computation of the corresponding quadrature abscissas and weights, have led to discrete variable representations, or DVRs, of Sturm–Liouville and other differential operators. … ►

18.38.3

\sum_{m=0}^{n}P^{(\alpha,0)}_{m}\left(x\right)=\frac{{\left(\alpha+2\right)_{n% }}}{n!}{{}_{3}F_{2}}\left({-n,n+\alpha+2,\frac{1}{2}(\alpha+1)\atop\alpha+1,% \frac{1}{2}(\alpha+3)};\tfrac{1}{2}(1-x)\right)\geq 0,

x\geq-1

\alpha\geq-2

n=0,1,\dots

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Symbols:: ${{}_{\NVar{p}}F_{\NVar{q}}}\left(\NVar{a_{1},\dots,a_{p}};\NVar{b_{1},\dots,b_% {q}};\NVar{z}\right)$ or ${{}_{\NVar{p}}F_{\NVar{q}}}\left({\NVar{a_{1},\dots,a_{p}}\atop\NVar{b_{1},% \dots,b_{q}}};\NVar{z}\right)$ : alternatively ${{}_{\NVar{p}}F_{\NVar{q}}}\left(\NVar{\mathbf{a}};\NVar{\mathbf{b}};\NVar{z}\right)$ or ${{}_{\NVar{p}}F_{\NVar{q}}}\left({\NVar{\mathbf{a}}\atop\NVar{\mathbf{b}}};% \NVar{z}\right)$
generalized hypergeometric function, $P^{(\NVar{\alpha},\NVar{\beta})}_{\NVar{n}}\left(\NVar{x}\right)$ : Jacobi polynomial, ${\left(\NVar{a}\right)_{\NVar{n}}}$ : Pochhammer’s symbol (or shifted factorial), $!$ : factorial (as in $n!$ ), $m$ : nonnegative integer, $n$ : nonnegative integer and $x$ : real variable
Proved:: Askey and Gasper (1976, Theorem 3, p.717)(proved)
Referenced by:: §18.14(iv), §18.18(viii), Erratum (V1.2.0) for Equation (18.38.3)
Permalink:: http://dlmf.nist.gov/18.38.E3
Encodings:: pMML, png, TeX
Modification (effective with 1.2.0):: This equation was updated to include the value of the sum in terms of the ${{}_{3}F_{2}}$ function. Also the constraint was previously $\alpha>-1$ .
See also:: Annotations for §18.38(ii), §18.38(ii), §18.38 and Ch.18

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12: Bibliography G

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K. Girstmair (1990a) A theorem on the numerators of the Bernoulli numbers. Amer. Math. Monthly 97 (2), pp. 136–138.

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External Links:: ISSN 0002-9890, FullText, MathReview (L. Skula), ZentralBlatt
Referenced by:: §24.10(iv), §24.16(iii).
Encodings:: BibTeX

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D. Gómez-Ullate, N. Kamran, and R. Milson (2009) An extended class of orthogonal polynomials defined by a Sturm-Liouville problem. J. Math. Anal. Appl. 359 (1), pp. 352–367.

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External Links:: ISSN 0022-247X, Document, Link, MathReview (Li Zhong Peng)
Referenced by:: §18.36(vi).
Encodings:: BibTeX

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R. A. Gustafson (1987) Multilateral summation theorems for ordinary and basic hypergeometric series in

{\rm U}(n)

. SIAM J. Math. Anal. 18 (6), pp. 1576–1596.

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External Links:: ISSN 0036-1410, Document, MathReview, ZentralBlatt
Referenced by:: §17.15.
Encodings:: BibTeX

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13: 1.15 Summability Methods

… ►For

\Re\alpha>0

and

x\geq 0

, the Riemann-Liouville fractional integral of order

\alpha

is defined by … ►

§1.15(viii) Tauberian Theorems

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14: Bibliography D

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S. C. Dhar (1940) Note on the addition theorem of parabolic cylinder functions. J. Indian Math. Soc. (N. S.) 4, pp. 29–30.

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External Links:: MathReview (M. C. Gray), ZentralBlatt
Referenced by:: §12.13(ii).
Encodings:: BibTeX

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H. Ding, K. I. Gross, and D. St. P. Richards (1996) Ramanujan’s master theorem for symmetric cones. Pacific J. Math. 175 (2), pp. 447–490.

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External Links:: ISSN 0030-8730, MathReview (Jacques Faraut), ZentralBlatt
Referenced by:: §35.7(ii), §35.8(iv), §35.8(v).
Encodings:: BibTeX

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J. Dougall (1907) On Vandermonde’s theorem, and some more general expansions. Proc. Edinburgh Math. Soc. 25, pp. 114–132.

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External Links:: ZentralBlatt
Referenced by:: §15.4(ii).
Encodings:: BibTeX

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T. M. Dunster, D. A. Lutz, and R. Schäfke (1993) Convergent Liouville-Green expansions for second-order linear differential equations, with an application to Bessel functions. Proc. Roy. Soc. London Ser. A 440, pp. 37–54.

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External Links:: ISSN 0962-8444, FullText, MathReview (W. Balser), ZentralBlatt
Referenced by:: §10.41(iii), §2.8(i).
Encodings:: BibTeX

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15: Bibliography

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W. A. Al-Salam (1990) Characterization theorems for orthogonal polynomials. In Orthogonal Polynomials (Columbus, OH, 1989), NATO Adv. Sci. Inst. Ser. C Math. Phys. Sci., Vol. 294, pp. 1–24.

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External Links:: Link, MathReview (Walter Van Assche), ZentralBlatt
Referenced by:: §18.3.
Encodings:: BibTeX

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H. Alzer and S. Qiu (2004) Monotonicity theorems and inequalities for the complete elliptic integrals. J. Comput. Appl. Math. 172 (2), pp. 289–312.

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External Links:: ISSN 0377-0427, Document, MathReview (Živorad Tomovski), ZentralBlatt
Referenced by:: §19.9(i).
Encodings:: BibTeX

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W. O. Amrein, A. M. Hinz, and D. B. Pearson (Eds.) (2005) Sturm-Liouville Theory. Birkhäuser Verlag, Basel.

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Notes:: Past and present, Including papers from the International Colloquium held at the University of Geneva, Geneva, September 15–19, 2003
External Links:: ISBN 978-3-7643-7066-4; 3-7643-7066-1, Document, Link, MathReview (Anton Zettl)
Referenced by:: §1.13(viii), §1.18(x).
Encodings:: BibTeX

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T. M. Apostol (1952) Theorems on generalized Dedekind sums. Pacific J. Math. 2 (1), pp. 1–9.

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External Links:: MathReview (N. G. de Bruijn), ZentralBlatt
Referenced by:: (25.11.41), (25.11.42), §25.11(xii).
Encodings:: BibTeX

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T. M. Apostol (2000) A Centennial History of the Prime Number Theorem. In Number Theory, Trends Math., pp. 1–14.

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External Links:: MathReview (Giovanni Coppola), ZentralBlatt
Referenced by:: (25.16.2), (25.16.4), §25.16(i), §25.16.
Encodings:: BibTeX

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