Natural logarithm information

Natural logarithm
Natural logarithm
	Graph of part of the natural logarithm function. The function slowly grows to positive infinity as x increases, and slowly goes to negative infinity as x approaches 0 ("slowly" as compared to any power law of x).
General information
General definition
Motivation of invention	Analytic proofs
Fields of application	Pure and applied mathematics
Domain, codomain and image
Domain
Codomain
Image
Specific values
Value at +∞	+∞
Value at e	1
Specific features
Asymptote
Root	1
Inverse
Derivative
Antiderivative

The natural logarithm of a number is its logarithm to the base of the mathematical constant $e$ , which is an irrational and transcendental number approximately equal to $2.718 281828459$ .^[1] The natural logarithm of $x$ is generally written as $ln x$ , $log e x$ , or sometimes, if the base $e$ is implicit, simply $log x$ .^[2]^[3] Parentheses are sometimes added for clarity, giving $ln(x)$ , $log e (x)$ , or $log(x)$ . This is done particularly when the argument to the logarithm is not a single symbol, so as to prevent ambiguity.

The natural logarithm of $x$ is the power to which $e$ would have to be raised to equal $x$ . For example, $ln 7.5$ is $2.0149...$ , because $e 2.0149... = 7.5$ . The natural logarithm of $e$ itself, $ln e$ , is $1$ , because $e 1 = e$ , while the natural logarithm of $1$ is $0$ , since $e 0 = 1$ .

The natural logarithm can be defined for any positive real number $a$ as the area under the curve $y = 1/ x$ from $1$ to $a$ ^[4] (with the area being negative when $0 < a < 1$ ). The simplicity of this definition, which is matched in many other formulas involving the natural logarithm, leads to the term "natural". The definition of the natural logarithm can then be extended to give logarithm values for negative numbers and for all non-zero complex numbers, although this leads to a multi-valued function: see complex logarithm for more.

The natural logarithm function, if considered as a real-valued function of a positive real variable, is the inverse function of the exponential function, leading to the identities:

{\begin{aligned}e^{\ln x}&=x\qquad {\text{ if }}x\in \mathbb {R} _{+}\\\ln e^{x}&=x\qquad {\text{ if }}x\in \mathbb {R} \end{aligned}}

Like all logarithms, the natural logarithm maps multiplication of positive numbers into addition:^[5]

\ln(x\cdot y)=\ln x+\ln y~.

Logarithms can be defined for any positive base other than 1, not only $e$ . However, logarithms in other bases differ only by a constant multiplier from the natural logarithm, and can be defined in terms of the latter, $\log _{b}x=\ln x/\ln b=\ln x\cdot \log _{b}e$ .

Logarithms are useful for solving equations in which the unknown appears as the exponent of some other quantity. For example, logarithms are used to solve for the half-life, decay constant, or unknown time in exponential decay problems. They are important in many branches of mathematics and scientific disciplines, and are used to solve problems involving compound interest.

^ Sloane, N. J. A. (ed.). "Sequence A001113 (Decimal expansion of e)". The On-Line Encyclopedia of Integer Sequences. OEIS Foundation.
^ G.H. Hardy and E.M. Wright, An Introduction to the Theory of Numbers, 4th Ed., Oxford 1975, footnote to paragraph 1.7: "log x is, of course, the 'Naperian' logarithm of x, to base e. 'Common' logarithms have no mathematical interest".
^ Mortimer, Robert G. (2005). Mathematics for physical chemistry (3rd ed.). Academic Press. p. 9. ISBN 0-12-508347-5. Extract of page 9
^ Weisstein, Eric W. "Natural Logarithm". mathworld.wolfram.com. Retrieved 2020-08-29.
^ "Rules, Examples, & Formulas". Logarithm. Encyclopedia Britannica. Retrieved 2020-08-29.

[1] Sloane, N. J. A. (ed.). "Sequence A001113 (Decimal expansion of e)". The On-Line Encyclopedia of Integer Sequences. OEIS Foundation.

[2] G.H. Hardy and E.M. Wright, An Introduction to the Theory of Numbers, 4th Ed., Oxford 1975, footnote to paragraph 1.7: "log x is, of course, the 'Naperian' logarithm of x, to base e. 'Common' logarithms have no mathematical interest".

[3] Mortimer, Robert G. (2005). Mathematics for physical chemistry (3rd ed.). Academic Press. p. 9. ISBN 0-12-508347-5. Extract of page 9

[:1-4] Weisstein, Eric W. "Natural Logarithm". mathworld.wolfram.com. Retrieved 2020-08-29.

[:2-5] "Rules, Examples, & Formulas". Logarithm. Encyclopedia Britannica. Retrieved 2020-08-29.

Natural logarithm information

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Natural logarithm

Logarithm

Natural logarithm of 2

Exponential function

History of logarithms

Common logarithm

Logarithmic derivative

Complex logarithm

Napierian logarithm

Taylor series

Binary logarithm

Iterated logarithm

Logarithm of a matrix

Partial function

List of logarithmic identities

Exponentiation

Hyperbolic sector

Mathematical table

Index of logarithm articles

Optical depth

Leonhard Euler

mathematical constant $e$
Part of a series of articles on the

Properties
Natural logarithm Exponential function
Applications
compound interest Euler's identity Euler's formula half-lives exponential growth and decay
Defining $e$
proof that $e$ is irrational representations of $e$ Lindemann–Weierstrass theorem
People
John Napier Leonhard Euler
Related topics
Schanuel's conjecture
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