Exponential function

The exponential function is one of the most important functions in mathematics Mathematics

Mathematics is the discipline that deals with concepts such as quantity [i], structure [i], space [i] a ...

. It is written as exp or e'x, where e equals approximately 2.71828183 and is the base of the natural logarithm E

The letter E is the fifth letter in the Latin alphabet [i]. ...

. As a function of the real variable x, the graph Graph of a function

In mathematics, the graph of a function [i] f is the collection of all ordered pair [i]s). ...

of y=e'x is always positive and increasing . It never touches the x axis, although it gets arbitrarily close to it . Its inverse function, the natural logarithm Natural logarithm

The natural logarithm, formerly known as the hyperbolic logarithm, is the logarithm [i] to the base e [i] ...

, ln, is defined for all positive x. Sometimes, especially in the science Science

Science in the broadest sense refers to any system of knowledge attained by verifiable means....

s, the term exponential function is reserved for functions of the form ka'x, where a, called the base, is any positive real number.

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Encyclopedia

The exponential function is one of the most important functions in mathematics Mathematics

Mathematics is the discipline that deals with concepts such as quantity [i], structure [i], space [i] a ...

. It is written as exp or e^x, where e equals approximately 2.71828183 and is the base of the natural logarithm E

The letter E is the fifth letter in the Latin alphabet [i]. ...

.

As a function of the real variable x, the graph Graph of a function

In mathematics, the graph of a function [i] f is the collection of all ordered pair [i]s). ...

of y=e^x is always positive and increasing . It never touches the x axis, although it gets arbitrarily close to it . Its inverse function, the natural logarithm Natural logarithm

The natural logarithm, formerly known as the hyperbolic logarithm, is the logarithm [i] to the base e [i]...

, ln, is defined for all positive x.

Sometimes, especially in the science Science

Science in the broadest sense refers to any system of knowledge attained by verifiable means....

s, the term exponential function is reserved for functions of the form ka^x, where a, called the base, is any positive real number. This article will focus initially on the exponential function with base e, Euler's number E (mathematical constant)

The mathematical constant [i] e is the base of the natural logarithm [i]. ...

.

In general, the variable x can be any real or complex Complex number

In mathematics [i], a complex number is a number [i] of the form
...

number, or even an entirely different kind of mathematical object; see the formal definition below.

Properties

Most simply, exponential functions multiply at a constant rate. For example the population of a bacteria which doubles every three hours can be expressed as an exponential, as can the value of a car which decreases by 10% per year.

Using the natural logarithm, one can define more general exponential functions. The function

defined for all a > 0, and all real numbers x, is called the exponential function with base a.

Note that the equation above holds for a = e, since

Exponential functions "translate between addition and multiplication" as is expressed in the following exponential laws:

These are valid for all positive real numbers a and b and all real numbers x and y. Expressions involving fractions and roots can often be simplified using exponential notation because:

and, for any a > 0, real number b, and integer n > 1:

Derivatives and differential equations

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

In mathematics [i], the derivative is defined as the instantaneous rate of change of a function [i] ...

s. In particular,

That is, e^x is its own derivative Derivative

In mathematics [i], the derivative is defined as the instantaneous rate of change of a function [i] ...

. It is the only function with that property . 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

In mathematics [i], a differential equation is an equation [i] in which the derivative [i]s of a function [i]...

.
exp is a fixed point of derivative as a functional

In fact, many differential equations give rise to exponential functions, including the Schr�dinger equation and the Laplace's equation as well as the equations for simple harmonic motion Simple harmonic motion

Simple harmonic motion is the motion of a simple harmonic oscillator [i] ...

.

For exponential functions with other bases:

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

If a variable's growth or decay rate is proportional to its size — as is the case in unlimited population growth , continuously compounded interest Interest

Interest is the 'rent' paid to borrow money [i]. ...

, or radioactive decay Radioactive decay

Radioactive decay is the set of various processes by which unstable atomic nuclei [i] ...

— then the variable can be written as a constant times an exponential function of time.

Furthermore for any differentiable function f, we find, by the chain rule:

Formal definition

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

or as the limit of a sequence:

In these definitions, stands for the factorial Factorial

In mathematics [i], the factorial of a natural number [i] n is the product [i] of all positive [i] ...

of n, and x can be any real number, complex number Complex number

In mathematics [i], a complex number is a number [i] of the form
...

, element of a Banach algebra , or member of the field of p-adic numbers.

For further explanation of these definitions and a proof of their equivalence, see the article Definitions of the exponential function.

Numerical value

To obtain the numerical value of the exponential function, the infinite series can be rewritten as :

This expression will converge quickly if we can ensure that x is less than one.

To ensure this, we can use the following identity.

Where is the integer part of
Where is the fractional part of
Hence, is always less than 1 and and add up to .

The value of the constant e^z can be calculated beforehand by multiplying e with itself z times.

On the complex plane

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

In mathematics [i], a complex number is a number [i] of the form
...

, the exponential function retains the important properties

for all z and w.

It is a holomorphic function which is periodic with imaginary 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 [i], the trigonometric functions are function [i]s of an angle [i]; they are im ...

s and to the hyperbolic function Hyperbolic function

In mathematics [i], the hyperbolic functions are analogs of the ordinary trigonometric [i]...

s. Thus we see that all elementary functions except for the polynomial Polynomial

In mathematics [i], a polynomial is an expression [i] in which a finite number of constants ...

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 [i], is a mathematical [i] formula in complex analysis [i]...

.

Extending the natural logarithm to complex arguments yields a multi-valued function Multivalued function

In mathematics [i], a multivalued function is a total relation [i]; i.e. ...

, ln. 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.

The exponential function maps any line in the complex plane to a logarithmic spiral Logarithmic spiral

A logarithmic spiral, equiangular spiral or growth spiral is a special kind of spiral [i] curve [i] ...

in the complex plane with the center at the origin. Two special cases might be noted: when the original line is parallel to the real axis, the resulting sprial never closes in on itself; when the original line is parallel to the imaginary axis, the resulting spiral is a circle of some radius.

Matrices and Banach algebras

The definition of the exponential function given above can be used verbatim for every Banach algebra, and in particular for square matrices . 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 or Hilbert 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" sending a Lie algebra Lie algebra

In mathematics [i], a Lie algebra is an algebraic structure whose main use is in studying geometric obje ...

to the Lie group 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 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 Exponential map

There are two different notions of an exponential map in differential geometry [i], both of which genera ...

.

Double exponential function

The term double exponential function can have two meanings:

a function with two exponential terms, with different exponents
a function ; this grows even faster than an exponential function; for example, if a = 10: f = 1.26, f = 10, f = 10¹⁰, f = 10¹⁰⁰ = googol, f = 10¹⁰⁰⁰, ..., f = googolplex.

Compare the super-exponential function Tetration

Tetration is iterated exponentiation, the first hyper operator [i] after exponentiation. ...

, which grows even faster.