convolution%20product

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21—30 of 253 matching pages

21: 26.4 Lattice Paths: Multinomial Coefficients and Set Partitions

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26.4.2

\genfrac{(}{)}{0.0pt}{}{n_{1}+n_{2}+\cdots+n_{k}}{n_{1},n_{2},\ldots,n_{k}}=% \frac{(n_{1}+n_{2}+\cdots+n_{k})!}{n_{1}!\,n_{2}!\,\cdots\,n_{k}!}=\prod_{j=1}% ^{k-1}\genfrac{(}{)}{0.0pt}{}{n_{j}+n_{j+1}+\cdots+n_{k}}{n_{j}}.

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Symbols:: $\genfrac{(}{)}{0.0pt}{}{\NVar{m}}{\NVar{n}}$ : binomial coefficient, $!$ : factorial (as in $n!$ ), $\genfrac{(}{)}{0.0pt}{}{\NVar{n_{1}}+\NVar{n_{2}}+\dots+\NVar{n_{k}}}{\NVar{n_% {1}},\NVar{n_{2}},\ldots,\NVar{n_{k}}}$ : multinomial coefficient, $j$ : nonnegative integer, $k$ : nonnegative integer and $n$ : nonnegative integer
A&S Ref:: 24.1.2
Referenced by:: §26.4(i)
Permalink:: http://dlmf.nist.gov/26.4.E2
Encodings:: pMML, png, TeX
See also:: Annotations for §26.4(i), §26.4 and Ch.26

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Table 26.4.1: Multinomials and partitions.

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$n$	$m$	$\lambda$	$M_{1}$	$M_{2}$	$M_{3}$
…
$5$	$2$	$2^{1},3^{1}$	$10$	$20$	$10$
$5$	$3$	$1^{2},3^{1}$	$20$	$20$	$10$
…

► …

M. Ikonomou, P. Köhler, and A. F. Jacob (1995) Computation of integrals over the half-line involving products of Bessel functions, with application to microwave transmission lines. Z. Angew. Math. Mech. 75 (12), pp. 917–926.

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External Links:: ISSN 0044-2267, MathReview (John P. Coleman), ZentralBlatt
Referenced by:: §10.74(vii).
Encodings:: BibTeX

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K. Inkeri (1959) The real roots of Bernoulli polynomials. Ann. Univ. Turku. Ser. A I 37, pp. 1–20.

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External Links:: MathReview (D. H. Lehmer), ZentralBlatt
Referenced by:: §24.12(i).
Encodings:: BibTeX

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A. Iserles, P. E. Koch, S. P. Nørsett, and J. M. Sanz-Serna (1991) On polynomials orthogonal with respect to certain Sobolev inner products. J. Approx. Theory 65 (2), pp. 151–175.

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External Links:: ISSN 0021-9045, Document, MathReview (R. A. Askey), ZentralBlatt
Referenced by:: §18.36(ii).
Encodings:: BibTeX

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24: 8 Incomplete Gamma and Related
Functions

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25: 28 Mathieu Functions and Hill’s Equation

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26: 3.4 Differentiation

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B_{-2}^{5}=\tfrac{1}{120}(6-10t-15t^{2}+20t^{3}-5t^{4}),

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B_{-3}^{6}=-\tfrac{1}{720}(12-8t-45t^{2}+20t^{3}+15t^{4}-6t^{5}),

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B_{-2}^{6}=\tfrac{1}{60}(9-9t-30t^{2}+20t^{3}+5t^{4}-3t^{5}),

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B_{2}^{6}=-\tfrac{1}{60}(9+9t-30t^{2}-20t^{3}+5t^{4}+3t^{5}),

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B_{3}^{6}=\tfrac{1}{720}(12+8t-45t^{2}-20t^{3}+15t^{4}+6t^{5}).

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27: 26.10 Integer Partitions: Other Restrictions

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Table 26.10.1: Partitions restricted by difference conditions, or equivalently with parts from

A_{j,k}

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	$p\left(\mathcal{D},n\right)$	$p\left(\mathcal{D}2,n\right)$	$p\left(\mathcal{D}2,\hbox{}\!\!\in\!T,n\right)$	$p\left(\mathcal{D}^{\prime}3,n\right)$
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$20$	$64$	$31$	$20$	$18$

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26.10.2

\sum_{n=0}^{\infty}p\left(\mathcal{D},n\right)q^{n}=\prod_{j=1}^{\infty}(1+q^{% j})=\prod_{j=1}^{\infty}\frac{1}{1-q^{2j-1}}=1+\sum_{m=1}^{\infty}\frac{q^{m(m% +1)/2}}{(1-q)(1-q^{2})\cdots(1-q^{m})}=1+\sum_{m=1}^{\infty}q^{m}(1+q)(1+q^{2}% )\cdots\*(1+q^{m-1}),

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Symbols:: $p\left(\NVar{\mathrm{condition}},\NVar{n}\right)$ : restricted number of partitions of $n$ , $j$ : nonnegative integer, $m$ : nonnegative integer, $n$ : nonnegative integer and $q$ : parameter
A&S Ref:: 24.2.2
Permalink:: http://dlmf.nist.gov/26.10.E2
Encodings:: pMML, png, TeX
See also:: Annotations for §26.10(ii), §26.10 and Ch.26

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26.10.3

(1-x)\sum_{m,n=0}^{\infty}p_{m}\left(\leq k,\mathcal{D},n\right)x^{m}q^{n}=% \sum_{m=0}^{k}\genfrac{[}{]}{0.0pt}{}{k}{m}_{q}q^{m(m+1)/2}x^{m}=\prod_{j=1}^{% k}(1+x\,q^{j}),

|x|<1

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Symbols:: $\genfrac{[}{]}{0.0pt}{}{\NVar{n}}{\NVar{m}}_{\NVar{q}}$ : $q$ -binomial coefficient (or Gaussian polynomial), $p_{\NVar{k}}\left(\leq\NVar{m},\NVar{n}\right)$ : number of partitions of $n$ into at most $k$ parts, each less than or equal to $m$ , $x$ : real variable, $j$ : nonnegative integer, $k$ : nonnegative integer, $m$ : nonnegative integer, $n$ : nonnegative integer and $q$ : parameter
Referenced by:: §26.10(ii)
Permalink:: http://dlmf.nist.gov/26.10.E3
Encodings:: pMML, png, TeX
See also:: Annotations for §26.10(ii), §26.10 and Ch.26

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26.10.5

\sum_{n=0}^{\infty}p\left(\in\!S,n\right)q^{n}=\prod_{j\in S}\frac{1}{1-q^{j}}.

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Symbols:: $\in$ : element of, $p\left(\NVar{\mathrm{condition}},\NVar{n}\right)$ : restricted number of partitions of $n$ , $j$ : nonnegative integer, $n$ : nonnegative integer, $S$ : set and $q$ : parameter
Permalink:: http://dlmf.nist.gov/26.10.E5
Encodings:: pMML, png, TeX
See also:: Annotations for §26.10(ii), §26.10 and Ch.26

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28: 8.26 Tables

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•

Khamis (1965) tabulates $P\left(a,x\right)$ for $a=0.05(.05)10(.1)20(.25)70$ , $0.0001\leq x\leq 250$ to 10D.

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•

Abramowitz and Stegun (1964, pp. 245–248) tabulates $E_{n}\left(x\right)$ for $n=2,3,4,10,20$ , $x=0(.01)2$ to 7D; also $(x+n)e^{x}E_{n}\left(x\right)$ for $n=2,3,4,10,20$ , $x^{-1}=0(.01)0.1(.05)0.5$ to 6S.

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Pagurova (1961) tabulates $E_{n}\left(x\right)$ for $n=0(1)20$ , $x=0(.01)2(.1)10$ to 4-9S; $e^{x}E_{n}\left(x\right)$ for $n=2(1)10$ , $x=10(.1)20$ to 7D; $e^{x}E_{p}\left(x\right)$ for $p=0(.1)1$ , $x=0.01(.01)7(.05)12(.1)20$ to 7S or 7D.

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Zhang and Jin (1996, Table 19.1) tabulates $E_{n}\left(x\right)$ for $n=1,2,3,5,10,15,20$ , $x=0(.1)1,1.5,2,3,5,10,20,30,50,100$ to 7D or 8S.

29: 23 Weierstrass Elliptic and Modular
Functions

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30: 13.12 Products

§13.12 Products

… ►For integral representations, integrals, and series containing products of

M\left(a,b,z\right)

and

U\left(a,b,z\right)

see Erdélyi et al. (1953a, §6.15.3).

convolution%20product

21—30 of 253 matching pages

21: 26.4 Lattice Paths: Multinomial Coefficients and Set Partitions

22: 10.22 Integrals

Products

Products

Convolutions

Other Double Products

Triple Products

23: Bibliography I

24: 8 Incomplete Gamma and Related
Functions

25: 28 Mathieu Functions and Hill’s Equation

26: 3.4 Differentiation

27: 26.10 Integer Partitions: Other Restrictions

28: 8.26 Tables

29: 23 Weierstrass Elliptic and Modular
Functions

30: 13.12 Products

§13.12 Products

convolution%20product

21—30 of 253 matching pages

21: 26.4 Lattice Paths: Multinomial Coefficients and Set Partitions

22: 10.22 Integrals

Products

Products

Convolutions

Other Double Products

Triple Products

23: Bibliography I

24: 8 Incomplete Gamma and Related Functions

25: 28 Mathieu Functions and Hill’s Equation

26: 3.4 Differentiation

27: 26.10 Integer Partitions: Other Restrictions

28: 8.26 Tables

29: 23 Weierstrass Elliptic and Modular Functions

30: 13.12 Products

§13.12 Products

24: 8 Incomplete Gamma and Related
Functions

29: 23 Weierstrass Elliptic and Modular
Functions