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{{short description|Wikipedia list article}}
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In [[mathematics]], some functions or groups of functions are important enough to deserve their own names. This is a listing of articles which explain some of these functions in more detail. There is a large theory of [[special functions]] which developed out of [[statistics]] and [[mathematical physics]]. A modern, abstract point of view contrasts large [[function space]]s, which are infinite-dimensional and within which most functions are 'anonymous', with special functions picked out by properties such as [[symmetry]], or relationship to [[harmonic analysis]] and [[group representation]]s.
In [[mathematics]], some functions or groups of functions are important enough to deserve their own names. This is a listing of articles which explain some of these functions in more detail. There is a large theory of [[special functions]] which developed out of [[statistics]] and [[mathematical physics]]. A modern, abstract point of view contrasts large [[function space]]s, which are infinite-dimensional and within which most functions are 'anonymous', with special functions picked out by properties such as [[symmetry]], or relationship to [[harmonic analysis]] and [[group representation]]s.


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===Algebraic functions===
===Algebraic functions===
[[Algebraic function]]s are functions that can be expressed as the solution of a polynomial equation with integer coefficients. ;-;
[[Algebraic function]]s are functions that can be expressed as the solution of a polynomial equation with integer coefficients.
* [[Polynomial]]s: Can be generated solely by addition, multiplication, and raising to the power of a positive integer. >:V
* [[Polynomial]]s: Can be generated solely by addition, multiplication, and raising to the power of a positive integer.
** [[Constant function]]: polynomial of degree zero, graph is a horizontal straight line
** [[Constant function]]: polynomial of degree zero, graph is a horizontal straight line
** [[Linear function]]: First degree polynomial, graph is a straight line.
** [[Linear function]]: First degree polynomial, graph is a straight line.
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** [[Cubic function]]: Third degree polynomial.
** [[Cubic function]]: Third degree polynomial.
** [[Quartic function]]: Fourth degree polynomial.
** [[Quartic function]]: Fourth degree polynomial.
** [[Quintic equation|Quintic function]]: Fifth degree polynomial.
** [[Quintic function]]: Fifth degree polynomial.
** [[Sextic equation|Sextic function]]: Sixth degree polynomial.
* [[Rational function]]s: A ratio of two polynomials.
* [[Rational function]]s: A ratio of two polynomials.
* [[nth root|''n''th root]]
* [[nth root|''n''th root]]
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[[Transcendental function]]s are functions that are not algebraic.
[[Transcendental function]]s are functions that are not algebraic.
* [[Exponential function]]: raises a fixed number to a variable power.
* [[Exponential function]]: raises a fixed number to a variable power.
* [[Hyperbolic function]]s: formally similar to the trigonometric functions.
* [[Hyperbolic function]]s: formally similar to the [[trigonometric functions]].
** [[Inverse hyperbolic functions]]: [[Inverse function|inverses]] of the [[hyperbolic functions]], analogous to the [[Inverse trigonometric functions|inverse circular functions]].

* [[Logarithm]]s: the inverses of exponential functions; useful to solve equations involving exponentials.
* [[Logarithm]]s: the inverses of exponential functions; useful to solve equations involving exponentials.
** [[Natural logarithm]]
** [[Natural logarithm]]
** [[Common logarithm]]
** [[Common logarithm]]
** [[Binary logarithm]]
** [[Binary logarithm]]
* [[Exponentiation|Power functions]]: raise a variable number to a fixed power; also known as [[Allometric function]]s; note: if the power is a rational number it is not strictly a transcendental function.
* [[Exponentiation#Power functions|Power functions]]: raise a variable number to a fixed power; also known as [[Allometric function]]s; note: if the power is a rational number it is not strictly a transcendental function.
* [[Periodic function]]s
* [[Periodic function]]s
** [[Trigonometric function]]s: [[sine]], [[cosine]], [[tangent (trigonometry)|tangent]], [[cotangent]], [[secant (trigonometry)|secant]], [[cosecant]], [[exsecant]], [[excosecant]], [[versine]], [[coversine]], [[vercosine]], [[covercosine]], [[haversine]], [[hacoversine]], [[havercosine]], [[hacovercosine]], etc.; used in [[geometry]] and to describe periodic phenomena. See also [[Gudermannian function]].
** [[Trigonometric function]]s: [[sine]], [[cosine]], [[tangent (trigonometry)|tangent]], [[cotangent]], [[secant (trigonometry)|secant]], [[cosecant]], [[exsecant]], [[excosecant]], [[versine]], [[coversine]], [[vercosine]], [[covercosine]], [[haversine]], [[hacoversine]], [[havercosine]], [[hacovercosine]], [[Inverse trigonometric functions]] etc.; used in [[geometry]] and to describe periodic phenomena. See also [[Gudermannian function]].


==[[Special functions]]==
==Special functions==
===Basic special functions===
{{main|Special functions}}
===Piecewise special functions===
{{columns-list|colwidth=20em|
{{columns-list|colwidth=20em|
* [[Indicator function]]: maps ''x'' to either 1 or 0, depending on whether or not ''x'' belongs to some subset.
* [[Indicator function]]: maps ''x'' to either 1 or 0, depending on whether or not ''x'' belongs to some subset.
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* [[Square wave]]
* [[Square wave]]
* [[Triangle wave]]
* [[Triangle wave]]
* [[Rectangular function]]
* [[Floor function]]: Largest integer less than or equal to a given number.
* [[Floor function]]: Largest integer less than or equal to a given number.
* [[Ceiling function]]: Smallest integer larger than or equal to a given number.
* [[Ceiling function]]: Smallest integer larger than or equal to a given number.
* [[Sign function]]: Returns only the sign of a number, as +1 or −1.
* [[Sign function]]: Returns only the sign of a number, as +1, −1 or 0.
* [[Absolute value]]: distance to the origin (zero point)
* [[Absolute value]]: distance to the origin (zero point)
}}
}}

===[[Arithmetic_function|Number theoretic functions]]===
===Arithmetic functions===
{{main|Arithmetic function}}
* [[divisor function|Sigma function]]: [[Summation|Sums]] of [[Exponentiation|power]]s of [[divisor]]s of a given [[natural number]].
* [[divisor function|Sigma function]]: [[Summation|Sums]] of [[Exponentiation|power]]s of [[divisor]]s of a given [[natural number]].
* [[Euler's totient function]]: Number of numbers [[coprime]] to (and not bigger than) a given one.
* [[Euler's totient function]]: Number of numbers [[coprime]] to (and not bigger than) a given one.
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* [[Partition function (number theory)|Partition function]]: Order-independent count of ways to write a given positive integer as a sum of positive integers.
* [[Partition function (number theory)|Partition function]]: Order-independent count of ways to write a given positive integer as a sum of positive integers.
* [[Möbius function|Möbius μ function]]: Sum of the nth primitive roots of unity, it depends on the prime factorization of n.
* [[Möbius function|Möbius μ function]]: Sum of the nth primitive roots of unity, it depends on the prime factorization of n.
* [[Prime omega function]]s
* [[Chebyshev function]]s
* [[Liouville function]], λ(''n'') = (–1)<sup>Ω(''n'')</sup>
* [[Von Mangoldt function]], Λ(''n'') = log&nbsp;''p'' if ''n'' is a positive power of the prime ''p''
* [[Carmichael function]]


===Antiderivatives of elementary functions===
===Antiderivatives of elementary functions===
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* [[Exponential integral]]
* [[Exponential integral]]
* [[Trigonometric integral]]: Including Sine Integral and Cosine Integral
* [[Trigonometric integral]]: Including Sine Integral and Cosine Integral
* [[Inverse tangent integral]]
* [[Error function]]: An integral important for [[normal distribution|normal random variables]].
* [[Error function]]: An integral important for [[normal distribution|normal random variables]].
** [[Fresnel integral]]: related to the error function; used in [[optics]].
** [[Fresnel integral]]: related to the error function; used in [[optics]].
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* [[Multivariate gamma function]]: A generalization of the Gamma function useful in [[multivariate statistics]].
* [[Multivariate gamma function]]: A generalization of the Gamma function useful in [[multivariate statistics]].
* [[Student's t-distribution]]
* [[Student's t-distribution]]
* [[Gamma function#Pi function|Pi function]] (z)= z(z)= (z)!
* [[Gamma function#Pi function|Pi function]] <math>\Pi(z) = z \Gamma(z) = (z)!</math>


===Elliptic and related functions===
===Elliptic and related functions===
{{columns-list|colwidth=20em|
{{columns-list|colwidth=20em|
* [[Elliptic integral]]s: Arising from the path length of [[ellipse]]s; important in many applications. Related functions are the [[quarter period]] and the [[nome (mathematics)|nome]]. Alternate notations include:
* [[Elliptic integral]]s: Arising from the path length of [[ellipse]]s; important in many applications. Alternate notations include:
** [[Carlson symmetric form]]
** [[Carlson symmetric form]]
** [[Legendre form]]
** [[Legendre form]]
* [[Nome (mathematics)|Nome]]
* [[Elliptic function]]s: The inverses of elliptic integrals; used to model double-periodic phenomena. Particular types are [[Weierstrass's elliptic functions]] and [[Jacobi's elliptic functions]] and the [[sine lemniscate]] and [[cosine lemniscate]] functions.
* [[Theta function]]
* [[Quarter period]]
* [[Elliptic function]]s: The inverses of elliptic integrals; used to model double-periodic phenomena.
**[[Jacobi's elliptic functions]]
**[[Weierstrass's elliptic functions]]
**[[Lemniscate elliptic functions]]
* [[Theta functions]]
* [[Neville theta functions]]
* [[Modular lambda function]]
* Closely related are the [[modular form]]s, which include
* Closely related are the [[modular form]]s, which include
** [[J-invariant]]
** [[J-invariant]]
** [[Dedekind eta function]]
** [[Dedekind eta function]]
}}
}}

===Bessel and related functions===
===Bessel and related functions===
{{columns-list|colwidth=20em|
{{columns-list|colwidth=20em|
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* [[Laguerre polynomials]]
* [[Laguerre polynomials]]
* [[Chebyshev polynomials]]
* [[Chebyshev polynomials]]
* [[Synchrotron function]]
}}
}}

===Riemann zeta and related functions===
===Riemann zeta and related functions===
{{columns-list|colwidth=20em|
{{columns-list|colwidth=20em|
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** [[Clausen function]]
** [[Clausen function]]
** [[Complete Fermi–Dirac integral]], an alternate form of the polylogarithm.
** [[Complete Fermi–Dirac integral]], an alternate form of the polylogarithm.
** [[Dilogarithm]]
** [[Incomplete Fermi–Dirac integral]]
** [[Incomplete Fermi–Dirac integral]]
** [[Kummer's function]]
** [[Kummer's function]]
** [[Spence's function]]
* [[Riesz function]]
* [[Riesz function]]
}}
}}

===Hypergeometric and related functions===
===Hypergeometric and related functions===
* [[Hypergeometric function]]s: Versatile family of [[power series]].
* [[Hypergeometric function]]s: Versatile family of [[power series]].
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* [[Associated Legendre functions]]
* [[Associated Legendre functions]]
* [[Meijer G-function]]
* [[Meijer G-function]]
* [[Fox H-function]]


===Iterated exponential and related functions===
===Iterated exponential and related functions===
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* [[Pentation]]
* [[Pentation]]
* [[Super-logarithm]]s
* [[Super-logarithm]]s
* [[Super-root]]s
* [[Tetration]]
* [[Tetration]]

* [[Lambert W function]]: Inverse of ''f''(''w'') = ''w'' exp(''w'').
===Other standard special functions===
===Other standard special functions===


* Dirichlet lambda function, ''λ''(''s'') = (1&nbsp;–&nbsp;2<sup>−''s''</sup>)ζ(''s'') where ''ζ'' is the [[Riemann zeta function]]
* [[Lambert W function]]: Inverse of ''f''(''w'') = ''w'' exp(''w'').
* [[Liouville function]], λ(''n'') = (–1)<sup>Ω(''n'')</sup>
* [[Von Mangoldt function]], Λ(''n'') = log&nbsp;''p'' if ''n'' is a positive power of the prime ''p''
* [[Modular lambda function]], λ(τ), a highly symmetric holomorphic function on the complex upper half-plane
* [[Lamé function]]
* [[Lamé function]]
* [[Mathieu function]]
* [[Mathieu function]]
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* [[Painlevé transcendents]]
* [[Painlevé transcendents]]
* [[Parabolic cylinder function]]
* [[Parabolic cylinder function]]
* [[Synchrotron function]]
* [[Arithmetic–geometric mean]]
* [[Arithmetic–geometric mean]]

===Miscellaneous functions===
===Miscellaneous functions===


* [[Ackermann function]]: in the [[theory of computation]], a [[computable function]] that is not [[primitive recursive function|primitive recursive]].
* [[Ackermann function]]: in the [[theory of computation]], a [[computable function]] that is not [[primitive recursive function|primitive recursive]].
* [[Böttcher's equation|Böttcher's function]]
* [[Dirac delta function]]: everywhere zero except for ''x'' = 0; total integral is 1. Not a function but a [[distribution (mathematics)|distribution]], but sometimes informally referred to as a function, particularly by physicists and engineers.
* [[Dirac delta function]]: everywhere zero except for ''x'' = 0; total integral is 1. Not a function but a [[distribution (mathematics)|distribution]], but sometimes informally referred to as a function, particularly by physicists and engineers.
* [[Dirichlet function]]: is an [[indicator function]] that matches 1 to rational numbers and 0 to irrationals. It is [[nowhere continuous]].
* [[Dirichlet function]]: is an [[indicator function]] that matches 1 to [[Rational number|rational numbers]] and 0 to [[Irrational number|irrationals]]. It is [[nowhere continuous]].
* [[Thomae's function]]: is a function that is continuous at all irrational numbers and discontinuous at all rational numbers. It is also a modification of Dirichlet function and sometimes called Riemann function.
* [[Thomae's function]]: is a function that is continuous at all irrational numbers and discontinuous at all rational numbers. It is also a modification of Dirichlet function and sometimes called Riemann function.
* [[Kronecker delta function]]: is a function of two variables, usually integers, which is 1 if they are equal, and 0 otherwise.
* [[Kronecker delta function]]: is a function of two variables, usually integers, which is 1 if they are equal, and 0 otherwise.
* [[Minkowski's question mark function]]: Derivatives vanish on the rationals.
* [[Minkowski's question mark function]]: Derivatives vanish on the rationals.
* [[Weierstrass function]]: is an example of [[continuous function]] that is nowhere [[Differentiable function|differentiable]]
* [[Weierstrass function]]: is an example of [[continuous function]] that is nowhere [[Differentiable function|differentiable]]

== See also ==
== See also ==
*[[List of mathematical abbreviations]]
* [[List of types of functions]]
* [[Test functions for optimization]]
* [[List of mathematical abbreviations]]
* [[List of special functions and eponyms]]


== External links ==
== External links ==
* [https://archive.is/20130105073730/http://www.special-functions.com/ Special functions] : A programmable special functions calculator.
* [https://archive.today/20130105073730/http://www.special-functions.com/ Special functions] : A programmable special functions calculator.
* [http://eqworld.ipmnet.ru/en/auxiliary/aux-specfunc.htm Special functions] at EqWorld: The World of Mathematical Equations.
* [http://eqworld.ipmnet.ru/en/auxiliary/aux-specfunc.htm Special functions] at EqWorld: The World of Mathematical Equations.


[[Category:Calculus]]
[[Category:Calculus|Functions]]
[[Category:Mathematics-related lists|Functions]]
[[Category:Mathematics-related lists|Functions]]
[[Category:Number theory]]
[[Category:Number theory|Functions]]
[[Category:Functions and mappings]]
[[Category:Functions and mappings| ]]


[[pl:Funkcje elementarne]]
[[pl:Funkcje elementarne]]

Latest revision as of 20:52, 29 October 2024

In mathematics, some functions or groups of functions are important enough to deserve their own names. This is a listing of articles which explain some of these functions in more detail. There is a large theory of special functions which developed out of statistics and mathematical physics. A modern, abstract point of view contrasts large function spaces, which are infinite-dimensional and within which most functions are 'anonymous', with special functions picked out by properties such as symmetry, or relationship to harmonic analysis and group representations.

See also List of types of functions

Elementary functions

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Elementary functions are functions built from basic operations (e.g. addition, exponentials, logarithms...)

Algebraic functions

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Algebraic functions are functions that can be expressed as the solution of a polynomial equation with integer coefficients.

Elementary transcendental functions

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Transcendental functions are functions that are not algebraic.

Special functions

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Piecewise special functions

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Arithmetic functions

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Antiderivatives of elementary functions

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Other standard special functions

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Miscellaneous functions

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See also

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