Logarithm
The logarithm π log_bx
for a base π b
and a number π x
is defined to be the inverse
function of taking π b
to the power π x
, i.e., π b^x
. Therefore, for any π x
and π b
,
or equivalently,
For any base, the logarithm function has a singularity at π x=0
. In the above plot, the blue curve
is the logarithm to base 2 (π log_2x=lgx
), the black curve is the logarithm to base π e
(the natural
logarithm π log_ex=lnx
),
and the red curve is the logarithm to base 10 (the common
logarithm, i.e., π log_(10)x=logx
).
Note that while logarithm base 10 is denoted π logx
in this work, on calculators, and in elementary algebra
and calculus textbooks, mathematicians and advanced mathematics texts uniformly use
the notation π logx
to mean π lnx
,
and therefore use π log_(10)x
to mean the common logarithm. Extreme care is
therefore needed when consulting the literature.
The situation is complicated even more by the fact that number theorists (e.g., IviΔ 2003) commonly use the notation π log_kx
to denote the nested
natural logarithm π ln...ln_()_(k)x
.
In the Wolfram Language, the logarithm to the base π b
is implemented as [b,
x], while [x]
gives the natural logarithm, i.e., [,
x], where
is the Wolfram Language symbol for
e.
Whereas powers of trigonometric functions are denoted using notations like π sin^kx
, π log^kx
is less commonly used in favor of the notation π (logx)^k
.
Logarithms are used in many areas of science and engineering in which quantities vary over a large range. For example, the decibel scale for the loudness of sound, the Richter scale of earthquake magnitudes, and the astronomical scale of stellar brightnesses are all logarithmic scales.
The derivative and indefinite integral of π log_bz
are given by
The logarithm can also be defined for complex arguments, as shown above. If the logarithm is taken as the forward function, the function taking the base to a given power is then called the antilogarithm.
For π x=logN
, π |_x_|
is called the characteristic,
and π x-|_x_|
is called the mantissa.
Division and multiplication identities for the logarithm can be derived from the identity
Specifically, for π x,y,n>0
,
| π log_b(xy) | π = | π log_bx+log_by |
(6)
|
| π log_b(x/y) | π = | π log_bx-log_by |
(7)
|
| π log_bx^n | π = | π nlog_bx. |
(8)
|
There are a number of properties which can be used to change from one logarithm base to another, including
An interesting property of logarithms follows from looking for a number π y
such that
| π x+y=1/(x-y) |
(19)
|
| π x^2-y^2=1 |
(20)
|
| π y=sqrt(x^2-1), |
(21)
|
so
Another related identity that holds for arbitrary π 0<c<a
is given by
Numbers of the form π log_ab
are irrational if
π a
and π b
are integers, one of which has
a prime factor which the other lacks. A. Baker
made a major step forward in transcendental
number theory by proving the transcendence of sums of numbers of
the form π alphalnbeta
for π alpha
and π beta
algebraic numbers.
See also
Antilogarithm, Base, Common Logarithm, Cologarithm, e, Exponential Function, Harmonic Logarithm, Lg, Ln, Logarithmic Series, Logarithmic Number, Napierian Logarithm, Natural Logarithm, Nested Logarithm, Power Explore this topic in the MathWorld classroomRelated Wolfram sites
http://functions.wolfram.com/ElementaryFunctions/Log/Explore with Wolfram|Alpha
More things to try:
References
Abramowitz, M. and Stegun, I. A. (Eds.). "Logarithmic Function." Β§4.1 in Handbook of Mathematical Functions with Formulas, Graphs, and Mathematical Tables, 9th printing. New York: Dover, pp. 67-69, 1972.Beyer, W. H. "Logarithms." CRC Standard Mathematical Tables, 28th ed. Boca Raton, FL: CRC Press, pp. 159-160 and 221, 1987.Conway, J. H. and Guy, R. K. "Logarithms." The Book of Numbers. New York: Springer-Verlag, pp. 248-252, 1996.IviΔ, A. "On a Problem of ErdΕs Involving the Largest Prime Factor of π n
." 5 Nov 2003. http://arxiv.org/abs/math.NT/0311056.Pappas, T. "Earthquakes and Logarithms." The Joy of Mathematics. San Carlos, CA: Wide World Publ./Tetra, pp. 20-21, 1989.Spanier, J. and Oldham, K. B. "The Logarithmic Function π ln(x)
." Ch. 25 in An Atlas of Functions. Washington, DC: Hemisphere, pp. 225-232, 1987.
Referenced on Wolfram|Alpha
LogarithmCite this as:
Weisstein, Eric W. "Logarithm." From MathWorld--A Wolfram Resource. https://mathworld.wolfram.com/Logarithm.html