Anger%E2%80%93Weber%20functions

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21: 8.17 Incomplete Beta Functions

§8.17 Incomplete Beta Functions

… ►

§8.17(ii) Hypergeometric Representations

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§8.17(iii) Integral Representation

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§8.17(iv) Recurrence Relations

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§8.17(vi) Sums

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22: 25.11 Hurwitz Zeta Function

§25.11 Hurwitz Zeta Function

►

§25.11(i) Definition

… ►The Riemann zeta function is a special case: … ►

§25.11(ii) Graphics

… ►

§25.11(vi) Derivatives

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23: 25.1 Special Notation

… ►(For other notation see Notation for the Special Functions.) ► ►►►

$k, m, n$	nonnegative integers.
…
primes	on function symbols: derivatives with respect to argument.

►The main function treated in this chapter is the Riemann zeta function

\zeta\left(s\right)

. … ►The main related functions are the Hurwitz zeta function

\zeta\left(s,a\right)

, the dilogarithm

\operatorname{Li}_{2}\left(z\right)

, the polylogarithm

\operatorname{Li}_{s}\left(z\right)

(also known as Jonquière’s function

\phi\left(z,s\right)

), Lerch’s transcendent

\Phi\left(z,s,a\right)

, and the Dirichlet

L

-functions

L\left(s,\chi\right)

24: 17.1 Special Notation

§17.1 Special Notation

►(For other notation see Notation for the Special Functions.) … ►The main functions treated in this chapter are the basic hypergeometric (or

q

-hypergeometric) function

{{}_{r}\phi_{s}}\left(a_{1},a_{2},\dots,a_{r};b_{1},b_{2},\dots,b_{s};q,z\right)

, the bilateral basic hypergeometric (or bilateral

q

-hypergeometric) function

{{}_{r}\psi_{s}}\left(a_{1},a_{2},\dots,a_{r};b_{1},b_{2},\dots,b_{s};q,z\right)

, and the

q

-analogs of the Appell functions

\Phi^{(1)}\left(a;b,b^{\prime};c;q;x,y\right)

\Phi^{(2)}\left(a;b,b^{\prime};c,c^{\prime};q;x,y\right)

\Phi^{(3)}\left(a,a^{\prime};b,b^{\prime};c;q;x,y\right)

, and

\Phi^{(4)}\left(a,b;c,c^{\prime};q;x,y\right)

. ►Another function notation used is the “idem” function: …

25: 4.37 Inverse Hyperbolic Functions

§4.37 Inverse Hyperbolic Functions

►

§4.37(i) General Definitions

… ►Each of the six functions is a multivalued function of

z

. … ►

Other Inverse Functions

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§4.37(vi) Interrelations

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26: 4.23 Inverse Trigonometric Functions

§4.23 Inverse Trigonometric Functions

►

§4.23(i) General Definitions

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Other Inverse Functions

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§4.23(viii) Gudermannian Function

… ►The inverse Gudermannian function is given by …

27: 23.2 Definitions and Periodic Properties

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§23.2(i) Lattices

… ► … ►

§23.2(ii) Weierstrass Elliptic Functions

… ► ►

§23.2(iii) Periodicity

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28: 16.2 Definition and Analytic Properties

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§16.2(i) Generalized Hypergeometric Series

… ► … ►Unless indicated otherwise it is assumed that in the DLMF generalized hypergeometric functions assume their principal values. … ►

Polynomials

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§16.2(v) Behavior with Respect to Parameters

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29: 30.1 Special Notation

… ►(For other notation see Notation for the Special Functions.) … ►The main functions treated in this chapter are the eigenvalues

\lambda^{m}_{n}\left(\gamma^{2}\right)

and the spheroidal wave functions

\mathsf{Ps}^{m}_{n}\left(x,\gamma^{2}\right)

\mathsf{Qs}^{m}_{n}\left(x,\gamma^{2}\right)

\mathit{Ps}^{m}_{n}\left(z,\gamma^{2}\right)

\mathit{Qs}^{m}_{n}\left(z,\gamma^{2}\right)

, and

S^{m(j)}_{n}\left(z,\gamma\right)

j=1,2,3,4

. …Meixner and Schäfke (1954) use

\mathrm{ps}

\mathrm{qs}

\mathrm{Ps}

\mathrm{Qs}

for

\mathsf{Ps}

\mathsf{Qs}

\mathit{Ps}

\mathit{Qs}

, respectively. ►

Other Notations

…

30: 1.10 Functions of a Complex Variable

… ► … ►

Analytic Functions

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§1.10(vi) Multivalued Functions

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§1.10(vii) Inverse Functions

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§1.10(xi) Generating Functions

…