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The exponential function is a function
Function (mathematics)

The mathematical concept of a function expresses dependence between two quantities, one of which is known and the other which is produced. A function associates a single output to each input element drawn from a fixed Set , such as the real numbers , although different inputs may have the same output....
 in mathematics
Mathematics

Mathematics is the study of quantity, structure, space, change, and related topics of pattern and form. Mathematicians seek out patterns whether found in numbers, space, natural science, computers, imaginary abstractions, or elsewhere....
. The application of this function to a value x is written as exp(x). Equivalently, this can be written in the form ex, where e
E (mathematical constant)

The mathematical constant e is the unique real number such that the function ex has the same value as the derivative, for all values of x....
 is the mathematical constant that is the base of the natural logarithm
Natural logarithm

The natural logarithm, formerly known as the hyperbolic logarithm, is the logarithm to the base e , where e is an irrational number constant approximately equal to 2.718281828....
 (approximately 2.718281828) and that is also known as Euler's number.

As a function of the real
Real number

In mathematics, the real numbers may be described informally in several different ways. The real numbers include both rational numbers, such as 42 and −23/129, and irrational numbers, such as pi and the square root of two; or, a real number can be given by an infinite decimal representation, such as 2.4871773339...., where the digits co...
 variable x, the graph
Graph of a function

In mathematics, the graph of a function f is the collection of all ordered pairs . In particular, if x is a real number, graph means the graphical representation of this collection, in the form of a curve on a Cartesian coordinate system, together with Cartesian axes, etc....
 of y = ex is always positive (above the x axis) and increasing (viewed left-to-right).






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The exponential function is a function
Function (mathematics)

The mathematical concept of a function expresses dependence between two quantities, one of which is known and the other which is produced. A function associates a single output to each input element drawn from a fixed Set , such as the real numbers , although different inputs may have the same output....
 in mathematics
Mathematics

Mathematics is the study of quantity, structure, space, change, and related topics of pattern and form. Mathematicians seek out patterns whether found in numbers, space, natural science, computers, imaginary abstractions, or elsewhere....
. The application of this function to a value x is written as exp(x). Equivalently, this can be written in the form ex, where e
E (mathematical constant)

The mathematical constant e is the unique real number such that the function ex has the same value as the derivative, for all values of x....
 is the mathematical constant that is the base of the natural logarithm
Natural logarithm

The natural logarithm, formerly known as the hyperbolic logarithm, is the logarithm to the base e , where e is an irrational number constant approximately equal to 2.718281828....
 (approximately 2.718281828) and that is also known as Euler's number.

As a function of the real
Real number

In mathematics, the real numbers may be described informally in several different ways. The real numbers include both rational numbers, such as 42 and −23/129, and irrational numbers, such as pi and the square root of two; or, a real number can be given by an infinite decimal representation, such as 2.4871773339...., where the digits co...
 variable x, the graph
Graph of a function

In mathematics, the graph of a function f is the collection of all ordered pairs . In particular, if x is a real number, graph means the graphical representation of this collection, in the form of a curve on a Cartesian coordinate system, together with Cartesian axes, etc....
 of y = ex is always positive (above the x axis) and increasing (viewed left-to-right). It never touches the x axis, although it gets arbitrarily close to it (thus, the x axis is a horizontal asymptote
Asymptote

An asymptote of a real-valued function is a curve which describes the behavior of as either or tends to infinity.In other words, as one moves along the graph of in some direction, the distance between it and the asymptote eventually becomes smaller than any distance that one may specify, and as the x or y values approach infinity, the...
 to the graph). Its inverse function
Inverse function

In mathematics, if ƒ is a function from A to B then an inverse function for ƒ is a function in the opposite direction, from B to A, with the property that a round trip from A to B to A returns each element of the initial set to itself....
, the natural logarithm
Natural logarithm

The natural logarithm, formerly known as the hyperbolic logarithm, is the logarithm to the base e , where e is an irrational number constant approximately equal to 2.718281828....
, ln(x), is defined for all positive x. In older sources it is often referred as an anti-logarithm which is the inverse function of a logarithm.

Sometimes, especially in the science
Science

In its broadest sense, science refers to any systematic knowledge or practice. In its more usual restricted sense, science refers to a system of acquiring knowledge based on scientific method, as well as to the organized body of knowledge gained through such research....
s, the term exponential function is more generally used for functions of the form cbx, where b, called the base, is any positive real number, not necessarily e. See exponential growth
Exponential growth

Exponential growth occurs when the growth rate of a mathematical function is proportionality to the function's current value. In the case of a discrete domain of definition with equal intervals it is also called geometric growth or geometric decay ....
 for this usage.

In general, the variable
Variable

A variable is a symbol that stands for a value that may vary; the term usually occurs in opposition to constant, which is a symbol for a non-varying value, i.e....
 x can be any real or complex number
Complex number

In mathematics, the complex numbers are an extension of the real numbers obtained by adjoining an imaginary unit, denoted i, which satisfies:...
, or even an entirely different kind of mathematical object; see the formal definition below.

Overview and motivation

The exponential function is written as an exponentiation of the mathematical constant e
E (mathematical constant)

The mathematical constant e is the unique real number such that the function ex has the same value as the derivative, for all values of x....
 because it is equal to e when applied to 1 and obeys the basic exponentiation
Exponentiation

Exponentiation is a mathematics operation , written 'an', involving two numbers, the base a and the exponent n....
 identity, that is:

It is the unique continuous function satisfying these identities for real number
Real number

In mathematics, the real numbers may be described informally in several different ways. The real numbers include both rational numbers, such as 42 and −23/129, and irrational numbers, such as pi and the square root of two; or, a real number can be given by an infinite decimal representation, such as 2.4871773339...., where the digits co...
 exponents. Because of this it can be used to define exponentiation to a non rational exponent.

The exponential function has an analytic continuation
Analytic continuation

In complex analysis, a branch of mathematics, analytic continuation is a technique to extend the domain of definition of a given analytic function....
 which is an entire function
Entire function

In complex analysis, an entire function, also called an integral function, is a complex-valued Function that is holomorphic function everywhere on the whole complex plane....
, that is it has no singularity
Mathematical singularity

In mathematics, a singularity is in general a point at which a given mathematical object is not defined, or a point of an exceptional Set where it fails to be well-behaved in some particular way, such as derivative....
 over the whole complex plane
Complex plane

In mathematics, the complex plane is a geometric representation of the complex numbersestablished by the real axis and the orthogonal imaginary axis....
. The occurrence of the exponential function in Euler's formula
Euler's formula

Euler's formula, named after Leonhard Euler, is a mathematics formula in complex analysis that shows a deep relationship between the trigonometric functions and the complex exponential function....
 gives it a central place when working with complex number
Complex number

In mathematics, the complex numbers are an extension of the real numbers obtained by adjoining an imaginary unit, denoted i, which satisfies:...
s. The definition has been usefully extended to some non-numeric exponents, for instance as the matrix exponential
Matrix exponential

In mathematics, the matrix exponential is a matrix function on square matrix analogous to the ordinary exponential function. Abstractly, the matrix exponential gives the connection between a matrix Lie algebra and the corresponding Lie group....
 or the exponential map
Exponential map

In differential geometry, the exponential map is a generalization of the ordinary exponential function of mathematical analysis to all differentiable manifolds with an affine connection....
.

There are a number of other characterizations of the exponential function
Characterizations of the exponential function

In mathematics, the exponential function can be characterization in many ways. The following characterizations are most common. This article discusses why each characterization makes sense, and why the characterizations are independent of and equivalent to each other....
. The one which mainly leads to its pervasive use in mathematics is as the function for which the rate of change is equal to its value, and which is 1 at 0. In the general case where the rate of change is directly proportional
Proportionality (mathematics)

In mathematics, two quantity are called proportional if they vary in such a way that one of the quantities is a constant multiple of the other, or equivalently if they have a constant ratio....
 (rather than equal) to the value the resulting function can be expressed using the exponential function as follows:

gives

If b = ek then this has the form cbx. Exponentiation
Exponentiation

Exponentiation is a mathematics operation , written 'an', involving two numbers, the base a and the exponent n....
 with a general base b as in bx (called the exponential function with base b) is defined using the exponential function and its inverse the natural logarithm
Natural logarithm

The natural logarithm, formerly known as the hyperbolic logarithm, is the logarithm to the base e , where e is an irrational number constant approximately equal to 2.718281828....
 as follows:



Its use in science is described in exponential growth
Exponential growth

Exponential growth occurs when the growth rate of a mathematical function is proportionality to the function's current value. In the case of a discrete domain of definition with equal intervals it is also called geometric growth or geometric decay ....
 and exponential decay
Exponential decay

A quantity is said to be subject to exponential decay if it decreases at a rate proportional to its value. Symbolically, this can be expressed as the following differential equation, where N is the quantity and ? is a negative and non-negative numbers called the decay constant....
.

Formal definition


The exponential function ex can be defined, in a variety of equivalent ways, as an infinite series. In particular it may be defined by a power series
Power series

In mathematics, a power series is an infinite series of the formwhere an represents the coefficient of the nth term, c is a constant, and x varies around c ....
:

.


Note that this definition has the form of a Taylor series
Taylor series

In mathematics, the Taylor series is a representation of a function as an Series of terms calculated from the values of its derivatives at a single point....
. Using an alternate definition for the exponential function should lead to the same result when expanded as a Taylor series
Taylor series

In mathematics, the Taylor series is a representation of a function as an Series of terms calculated from the values of its derivatives at a single point....
.

Less commonly, ex is defined as the solution y to the equation


It is also the following limit:


Derivatives and differential equations

The importance of exponential functions in mathematics and the sciences stems mainly from properties of their derivative
Derivative

In calculus, a branch of mathematics, the derivative is a measure of how a function changes as its input changes. Loosely speaking, a derivative can be thought of as how much a quantity is changing at a given point....
s. In particular,



That is, ex is its own derivative
Derivative

In calculus, a branch of mathematics, the derivative is a measure of how a function changes as its input changes. Loosely speaking, a derivative can be thought of as how much a quantity is changing at a given point....
 and hence is a simple example of a pfaffian function
Pfaffian function

In mathematics, the pfaffian functions are a certain class of functions introduced by Khovanskii in the 1970s. They are named after German mathematician Johann Pfaff....
. Functions of the form Kex for constant K are the only functions with that property. (This follows from the Picard-Lindelöf theorem, with y(t) = et, y(0)=K and f(t,y(t)) = y(t).) Other ways of saying the same thing include:
  • The slope of the graph at any point is the height of the function at that point.
  • The rate of increase of the function at x is equal to the value of the function at x.
  • The function solves the differential equation
    Differential equation

    A differential equation is a mathematics equation for an unknown function of one or several variable that relates the values of the function itself and its derivatives of various orders....
     y ′ = y.
  • exp is a fixed point
    Fixed point

    "Fixed point" has many meanings in science, most of them mathematical.*Fixed point *Fixed point combinator*Fixed-point arithmetic, a manner of doing arithmetic on computers...
     of derivative as a functional
    Functional (mathematics)

    In mathematics, a functional is traditionally a map from a vector space to the Field underlying the vector space, which is usually the real numbers....
    .


In fact, many differential equations give rise to exponential functions, including the Schrödinger equation
Schrödinger equation

In physics, especially quantum mechanics, the Schr?dinger equation is an equation that describes how the quantum state of a physical system changes in time....
 and Laplace's equation
Laplace's equation

In mathematics, Laplace's equation is a partial differential equation named after Pierre-Simon Laplace who first studied its properties. The solutions of Laplace's equation are important in many fields of science, notably the fields of electromagnetism, astronomy, and fluid dynamics, because they describe the behavior of electric, gravitation...
 as well as the equations for simple harmonic motion
Simple harmonic motion

Simple harmonic motion is the motion of a Harmonic oscillator#Simple harmonic oscillator, a motion that is neither driven nor Damping. The motion is Periodic function - as it repeats itself at standard intervals in a specific manner - and sine wave, with constant amplitude; the acceleration of a body executing SHM is directly proportional t...
.

For exponential functions with other bases:



A proof being,

Thus, any exponential function is a constant multiple of its own derivative.

If a variable's growth or decay rate is proportional
Proportionality (mathematics)

In mathematics, two quantity are called proportional if they vary in such a way that one of the quantities is a constant multiple of the other, or equivalently if they have a constant ratio....
 to its size — as is the case in unlimited population growth (see Malthusian catastrophe
Malthusian catastrophe

A Malthusian catastrophe was originally foreseen to be a forced return to subsistence-level conditions once population growth had outpaced agriculture production, costs, and pricing....
), continuously compounded interest
Interest

Interest is a fee paid on borrowed assets. It is the price paid for the use of borrowed money , or, money earned by deposited funds .Assets that are sometimes lent with interest include money, shares, consumer goods through hire purchase, major assets such as aircraft finance, and even entire factories in finance lease arrangements....
, or radioactive decay
Radioactive decay

Radioactive decay is the process in which an unstable atomic nucleus loses energy by emitting ionizing particles and radiation. This decay, or loss of energy, results in an atom of one type, called the parent nuclide transforming to an atom of a different type, called the daughter nuclide....
 — then the variable can be written as a constant times an exponential function of time.

Furthermore for any differentiable function f(x), we find, by the chain rule
Chain rule

In calculus, the chain rule is a formula for the derivative of the functional composition of two function .In intuitive terms, if a variable, y, depends on a second variable, u, which in turn depends on a third variable, x, then the rate of Mathematics#Change of y with respect to x can be computation as the rate of chan...
:



Continued fractions for ex


Via Euler's identity:

More advanced techniques are necessary to construct the following:

Setting m = x and n = 2 yields



On the complex plane


As in the real
Real number

In mathematics, the real numbers may be described informally in several different ways. The real numbers include both rational numbers, such as 42 and −23/129, and irrational numbers, such as pi and the square root of two; or, a real number can be given by an infinite decimal representation, such as 2.4871773339...., where the digits co...
 case, the exponential function can be defined on the complex plane
Complex number

In mathematics, the complex numbers are an extension of the real numbers obtained by adjoining an imaginary unit, denoted i, which satisfies:...
 in several equivalent forms. Some of these definitions mirror the formulas for the real-valued exponential function. Specifically, one can still use the power series definition, where the real value is replaced by a complex one:
Using this definition, it is easy to show why holds in the complex plane.

Another definition extends the real
Real number

In mathematics, the real numbers may be described informally in several different ways. The real numbers include both rational numbers, such as 42 and −23/129, and irrational numbers, such as pi and the square root of two; or, a real number can be given by an infinite decimal representation, such as 2.4871773339...., where the digits co...
 exponential function. First, we state the desired property . For we use the real
Real number

In mathematics, the real numbers may be described informally in several different ways. The real numbers include both rational numbers, such as 42 and −23/129, and irrational numbers, such as pi and the square root of two; or, a real number can be given by an infinite decimal representation, such as 2.4871773339...., where the digits co...
 exponential function. We then proceed by defining only: . Thus we use the real
Real number

In mathematics, the real numbers may be described informally in several different ways. The real numbers include both rational numbers, such as 42 and −23/129, and irrational numbers, such as pi and the square root of two; or, a real number can be given by an infinite decimal representation, such as 2.4871773339...., where the digits co...
 definition rather than ignore it.

When considered as a function defined on the complex plane
Complex number

In mathematics, the complex numbers are an extension of the real numbers obtained by adjoining an imaginary unit, denoted i, which satisfies:...
, the exponential function retains the important properties
for all z and w.

It is a holomorphic function
Holomorphic function

Holomorphic functions are the central object of study of complex analysis; they are function defined on an open set of the complex number C with values in C that are complex-differentiable at every point....
 which is periodic with imaginary
Imaginary number

In mathematics, an imaginary number is a complex number whose square value is a real number not greater than zero. The imaginary unit, denoted by i or j, is an example of an imaginary number....
 period and can be written as
where a and b are real values. This formula connects the exponential function with the trigonometric function
Trigonometric function

In mathematics, the trigonometric functions are function s of an angle. They are important in the trigonometry of Triangle and modeling Periodic function, among many other applications....
s and to the hyperbolic function
Hyperbolic function

In mathematics, the hyperbolic functions are analogs of the ordinary trigonometric function, or circular, functions. The basic hyperbolic functions are the hyperbolic sine "sinh", and the hyperbolic cosine "cosh", from which are derived the hyperbolic tangent "tanh", etc., in analogy to the derived trigonometric functi...
s. Thus we see that all elementary function
Elementary function (differential algebra)

In mathematics, an elementary function is a function built from a finite number of exponential functions, logarithms, constants, one variable, and nth roots through function composition and combinations using the four arithmetic ....
s except for the polynomial
Polynomial

In mathematics, a polynomial is an expression constructed from variables and constants, using the operations of addition, subtraction, multiplication, and constant non-negative whole number exponents....
s spring from the exponential function in one way or another.

See also Euler's formula
Euler's formula

Euler's formula, named after Leonhard Euler, is a mathematics formula in complex analysis that shows a deep relationship between the trigonometric functions and the complex exponential function....
.

Extending the natural logarithm to complex arguments yields a multi-valued function, ln(z). We can then define a more general exponentiation:
for all complex numbers z and w. This is also a multi-valued function. The above stated exponential laws remain true if interpreted properly as statements about multi-valued functions. Because it is multi-valued the rule about multiplying exponents for positive real numbers doesn't work in general:



See failure of power and logarithm identities
Exponentiation

Exponentiation is a mathematics operation , written 'an', involving two numbers, the base a and the exponent n....
 for more about problems with combining powers.

The exponential function maps any line
Line (mathematics)

In geometry, a line is a Curvature curve. When geometry is used to model the real world, lines are used to represent straight objects with negligible width and height....
 in the complex plane to a logarithmic spiral
Logarithmic spiral

A logarithmic spiral, equiangular spiral or growth spiral is a special kind of spiral curve which often appears in nature. The logarithmic spiral was first described by Ren? Descartes and later extensively investigated by Jakob Bernoulli, who called it Spira mirabilis, "the marvelous spiral"....
 in the complex plane with the center at the origin
Origin (mathematics)

In mathematics, the origin of a Euclidean space is a special Point , usually denoted by the letter O, used as a fixed point of reference for the geometry of the surrounding space....
. Two special cases might be noted: when the original line is parallel to the real axis, the resulting spiral never closes in on itself; when the original line is parallel to the imaginary axis, the resulting spiral is a circle of some radius.

Image:ExponentialRe.png| z = Re(ex+iy) Image:ExponentialIm.png| z = Im(ex+iy) Image:ExponentialAbs.png| z = |ex+iy| Image:ExponentialAll.png

Computation of exp(z) for a complex z


This is fairly straightforward given the formula



Note that the argument y to the trigonometric functions is real.

Computation of ab where both a and b are complex


Complex exponentiation ab can be defined by converting a to polar coordinates and using the identity (eln(a))b = ab:



However, when b is not an integer, this function is multivalued
Multivalued function

In mathematics, a multivalued function is a total relation; i.e. every input is associated with one or more outputs. Strictly speaking, a "well-defined" function associates one, and only one, output to any particular input....
, because ? is not unique (see failure of power and logarithm identities
Exponentiation

Exponentiation is a mathematics operation , written 'an', involving two numbers, the base a and the exponent n....
).

Matrices and Banach algebras

The definition of the exponential function given above can be used verbatim for every Banach algebra
Banach algebra

In mathematics, especially functional analysis, a Banach algebra, named after Stefan Banach, is an associative algebra A over the real number or complex number numbers which at the same time is also a Banach space....
, and in particular for square matrices
Matrix (mathematics)

In mathematics, a matrix is a rectangular array of numbers, as shown at the right. In addition to a number of elementary, entrywise operations such as matrix addition a key notion is matrix multiplication....
 (in which case the function is called the matrix exponential
Matrix exponential

In mathematics, the matrix exponential is a matrix function on square matrix analogous to the ordinary exponential function. Abstractly, the matrix exponential gives the connection between a matrix Lie algebra and the corresponding Lie group....
). In this case we have
is invertible with inverse
the derivative of at the point is that linear map which sends to .


In the context of non-commutative Banach algebras, such as algebras of matrices or operators on Banach
Banach space

In mathematics, Banach spaces are one of the central objects of study in functional analysis. They are topological vector spaces that have many interesting properties associated with them....
 or Hilbert
Hilbert space

The mathematics concept of a Hilbert space, named after David Hilbert, generalizes the notion of Euclidean space. It extends the methods of vector algebra from the two-dimensional plane and three-dimensional space to infinite-dimensional spaces....
 spaces, the exponential function is often considered as a function of a real argument:
where A is a fixed element of the algebra and t is any real number. This function has the important properties


On Lie algebras

The exponential map
Exponential map

In differential geometry, the exponential map is a generalization of the ordinary exponential function of mathematical analysis to all differentiable manifolds with an affine connection....
 sending a Lie algebra
Lie algebra

In mathematics, a Lie algebra is an algebraic structure whose main use is in studying geometric objects such as Lie groups and differentiable manifolds....
 to the Lie group
Lie group

In mathematics, a Lie group is a group which is also a differentiable manifold, with the property that the group operations are compatible with the Differential structure....
 that gave rise to it shares the above properties, which explains the terminology. In fact, since R is the Lie algebra of the Lie group of all positive real numbers with multiplication, the ordinary exponential function for real arguments is a special case of the Lie algebra situation. Similarly, since the Lie algebra M (n, R) of all square real matrices belongs to the Lie group of all invertible square matrices, the exponential function for square matrices is a special case of the Lie algebra exponential map. In general, when the argument of the exponential function is noncommutative, the formula is given explicitly by the Baker-Campbell-Hausdorff formula
Baker-Campbell-Hausdorff formula

In mathematics, the Baker-Campbell-Hausdorff formula is the solution tofor non-Commutativity X and Y. It links Lie Groups to Lie Algebras, by expressing the logarithm of the product of two Lie group elements as a Lie algebra element in...
.

Double exponential function

The term double exponential function can have two meanings:
  • a function with two exponential terms, with different exponents
  • a function f(x) = aax; this grows even faster than an exponential function; for example, if a = 10: f(-1) = 1.26, f(0) = 10, f(1) = 1010, f(2) = 10100 = googol
    Googol

    A googol is the large number 10100, that is, the numerical digit 1 followed by one hundred 0 .The term was coined in 1938 by Milton Sirotta , nephew of American mathematician Edward Kasner....
    , ..., f(100) = googolplex
    Googolplex

    A googolplex is the number 10googol, which can also be written as the number 1 followed by a googol of 0 ....
    .


Factorials grow faster than exponential functions, but slower than double-exponential functions. Fermat number
Fermat number

In mathematics, a Fermat number, named after Pierre de Fermat who first studied them, is a natural number of the formwhere n is a nonnegative integer....
s, generated by and double Mersenne number
Double Mersenne number

In mathematics, a double Mersenne number is a Mersenne prime of the formwhere p is a Mersenne prime exponent....
s generated by are examples of double exponential functions.

Similar properties of e and the function ez

The function ez is not in C(z) (ie. not the quotient of two polynomials with complex coefficients).

For n distinct complex numbers , is linearly independent over C(z).

The function ez is transcendental over C(z).

See also

  • e (mathematical constant)
    E (mathematical constant)

    The mathematical constant e is the unique real number such that the function ex has the same value as the derivative, for all values of x....
  • Characterizations of the exponential function
    Characterizations of the exponential function

    In mathematics, the exponential function can be characterization in many ways. The following characterizations are most common. This article discusses why each characterization makes sense, and why the characterizations are independent of and equivalent to each other....
  • Tetration
    Tetration

    In mathematics, tetration is an iterated function exponential function, the first hyper operator after exponentiation. The portmanteau tetration was coined by English mathematician Reuben Louis Goodstein from tetra- and iteration....
  • Exponential growth
    Exponential growth

    Exponential growth occurs when the growth rate of a mathematical function is proportionality to the function's current value. In the case of a discrete domain of definition with equal intervals it is also called geometric growth or geometric decay ....
  • Exponentiation
    Exponentiation

    Exponentiation is a mathematics operation , written 'an', involving two numbers, the base a and the exponent n....
  • Exponential field
    Exponential field

    In mathematics, an exponential field is a Field that has an extra operation on its elements, extending the usual idea of exponentiation....
  • List of integrals of exponential functions
    List of integrals of exponential functions

    The following is a list of integrals of exponential functions. For a complete list of Integral functions, please see the list of integrals.Note that x can be substituted for u, or any other variable, so long as the differential matches....
  • List of exponential topics
    List of exponential topics

    This is a list of exponential topics, by Wikipedia page. See also list of logarithm topics.*Accelerating change*Artin-Hasse exponential Talk:Artin-Hasse exponential...


External links

  • at