Logarithm - перевод на испанский
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Logarithm - перевод на испанский

INVERSE OF THE EXPONENTIAL FUNCTION, WHICH MAPS PRODUCTS TO SUMS
Logarithmic algorithm; Antilogarithm; Logathrims; Logarithms; Logarithmic function; Antilog; Logarithim; Colog; Cologarithm; Log (mathematics); Logarithm function; Napier logarithm; Logarithm Table in Trigonometry; Logarithm of a number; Log(x); Logarhythm; Anti-logarithm; Anti-Logarithm; Logarithmic functions; Log function; Logaritm; Change of base rule; Logarithmand; Logarithmically; Logarithm base; Base of a logarithm; Log-transform; Logrithm; Log (function); Double logarithm; Logarithmus; Generic logarithm; Decadic antilogarithm; Natural antilogarithm; Binary antilogarithm; Decimal antilogarithm; Common antilogarithm; General antilogarithm; 3-logarithm; Draft:Direct Differentiation and Integration of Logarithms
  • alt=A bar chart and a superimposed second chart. The two differ slightly, but both decrease in a similar fashion.
  • alt=An oval shape with the trajectories of two particles.
  • alt=A density plot. In the middle there is a black point, at the negative axis the hue jumps sharply and evolves smoothly otherwise.
  • alt=An illustration of the polar form: a point is described by an arrow or equivalently by its length and angle to the x-axis.
  • alt=A graph of the value of one mark over time. The line showing its value is increasing very quickly, even with logarithmic scale.
  • e}}
  • alt=A graph of the logarithm function and a line touching it in one point.
  • alt=The graphs of two functions.
  • TI-83 Plus]] graphing calculator
  • 1=log<sub>''b''</sub>&thinsp;1 = 0}}.
  • alt=A hyperbola with part of the area underneath shaded in grey.
  • alt=The hyperbola depicted twice. The area underneath is split into different parts.
  • alt=A photograph of a nautilus' shell.
  • μ}}, which is zero for all three of the PDFs shown, is the mean of the logarithm of the random variable, not the mean of the variable itself.
  • alt=Parts of a triangle are removed in an iterated way.
  • alt=An animation showing increasingly good approximations of the logarithm graph.

Logarithm         
Logaritmo
logarithm         
logaritmo
logarithm table         
THE LOGARITHM WITH BASE 10, FORMERLY WIDELY USED FOR CALCULATIONS
Logarithm table; Briggsian logarithm; Briggs' logarithm; Decadic logarithm; Briggesian logarithms; Base-10 logarithm; Common log; Log10; Log 10; Briggsian logarithms; Logarithm of the base 10; Decimal exponent; Common logarithms; Decadic logarithms; Lg (x); Decimal logarithm; Decimal logarithms; Base 10 logarithm; Mantissa (logarithm); Logarithmus generalis; Briggs logarithm; Logarithmus decimalis; Logarithmus decadis; Base-ten logarithm; Characteristic (exponent notation); Base ten logarithm; Lg10; Characteristic (logarithm); Characteristic (common logarithm)
Tabla de logaritmo

Определение

Logarithm
The exponent of the power to which it is necessary to raise a fixed number to produce a given number. The fixed number is the base of the system. There are two systems; one, called the ordinary system, has 10 for its base, the other, called the Naperian system, has 2.71828 for its base. The latter are also termed hyperbolic logarithms, and are only used in special calculations.

Википедия

Logarithm

In mathematics, the logarithm is the inverse function to exponentiation. That means the logarithm of a number x to the base b is the exponent to which b must be raised, to produce x. For example, since 1000 = 103, the logarithm base 10 of 1000 is 3, or log10 (1000) = 3. The logarithm of x to base b is denoted as logb (x), or without parentheses, logbx, or even without the explicit base, log x, when no confusion is possible, or when the base does not matter such as in big O notation.

The logarithm base 10 is called the decimal or common logarithm and is commonly used in science and engineering. The natural logarithm has the number e ≈ 2.718 as its base; its use is widespread in mathematics and physics, because of its very simple derivative. The binary logarithm uses base 2 and is frequently used in computer science.

Logarithms were introduced by John Napier in 1614 as a means of simplifying calculations. They were rapidly adopted by navigators, scientists, engineers, surveyors and others to perform high-accuracy computations more easily. Using logarithm tables, tedious multi-digit multiplication steps can be replaced by table look-ups and simpler addition. This is possible because the logarithm of a product is the sum of the logarithms of the factors:

log b ( x y ) = log b x + log b y , {\displaystyle \log _{b}(xy)=\log _{b}x+\log _{b}y,}

provided that b, x and y are all positive and b ≠ 1. The slide rule, also based on logarithms, allows quick calculations without tables, but at lower precision. The present-day notion of logarithms comes from Leonhard Euler, who connected them to the exponential function in the 18th century, and who also introduced the letter e as the base of natural logarithms.

Logarithmic scales reduce wide-ranging quantities to smaller scopes. For example, the decibel (dB) is a unit used to express ratio as logarithms, mostly for signal power and amplitude (of which sound pressure is a common example). In chemistry, pH is a logarithmic measure for the acidity of an aqueous solution. Logarithms are commonplace in scientific formulae, and in measurements of the complexity of algorithms and of geometric objects called fractals. They help to describe frequency ratios of musical intervals, appear in formulas counting prime numbers or approximating factorials, inform some models in psychophysics, and can aid in forensic accounting.

The concept of logarithm as the inverse of exponentiation extends to other mathematical structures as well. However, in general settings, the logarithm tends to be a multi-valued function. For example, the complex logarithm is the multi-valued inverse of the complex exponential function. Similarly, the discrete logarithm is the multi-valued inverse of the exponential function in finite groups; it has uses in public-key cryptography.