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- ...al|last=Shor|first=P.W.|title=Algorithms for quantum computation: discrete logarithms and factoring|url=https://doi.org/10.1109/sfcs.1994.365700|journal=Proceedi ...933 bytes (117 words) - 18:45, 20 February 2025
- ...ithm tells what exponent (or power) is needed to make a certain number, so logarithms are one of the inverse operations of [[Operation (mathematics)#Exponentiati ...e base is 10, '''binary logarithms''', where the base is 2, and '''natural logarithms''', where the base is [[e (mathematical constant)|<math>e</math>]] <ma ...15 KB (2,284 words) - 22:06, 23 December 2024
- ...is one of the [[inverse operation]]s of [[#Roots|roots]] and [[#Logarithms|logarithms]]. The number that is being multiplied is the ''base'' and the number of ti ...verse operation]]s of [[#Exponentiation|exponentiation]] and [[#Logarithms|logarithms]]. The first term is named the ''index'', and the second term is named the ...11 KB (1,651 words) - 22:28, 12 January 2025
- * [[Operation (mathematics)#Logarithms|Logarithm]]: <math>\log</math> ...2 KB (221 words) - 01:45, 6 November 2023
- * <math>\log x</math> [[Operation (mathematics)#Logarithms|Logarithm]]: base & power ...2 KB (260 words) - 01:36, 6 November 2023
- The derivative of logarithms is the [[reciprocal]]:<ref name=":0" /> For derivatives of logarithms not in base ''e'', such as <math>\tfrac{d}{dx}(\log_{10}(x))</math>, this c ...8 KB (1,287 words) - 18:47, 22 November 2024
- 2 KB (350 words) - 02:19, 10 February 2024
- ...egative [[logarithm]] of a number. Both pH and pK<sub>a</sub> are negative logarithms used to measure strength of acids and bases, but pH is a property of a [[so ...2 KB (361 words) - 10:02, 29 January 2025
- 4 KB (568 words) - 00:04, 24 November 2024
- ...way. This [[inequality]] uses the harmonic numbers instead of [[Logarithm|logarithms]] and works for any CA that is bigger than 60. ...4 KB (591 words) - 23:51, 8 July 2022
- where ''ln'' is the [[Logarithm#Natural logarithms|natural logarithm]]. ...6 KB (871 words) - 00:16, 19 January 2025
- The slide rule is based on the work on [[logarithms]] by [[John Napier]] and was invented by [[William Oughtred]]. Before elect ...ules allow other calculations, such as [[square root]]s, [[exponential]]s, logarithms, and [[trigonometric function]]s. ...34 KB (5,395 words) - 04:08, 1 February 2025
- [[Category:Logarithms]] ...7 KB (1,111 words) - 11:54, 8 April 2023
- * ''e'' is Euler's number (the base of [[natural logarithms]]) ...13 KB (1,850 words) - 19:08, 23 December 2024
- ...≈2.718281828459045 || A transcendental number that is the base of natural logarithms. ...42 KB (4,781 words) - 21:46, 23 November 2024
- ...eroni constant]] is used in [[Limit (mathematics)|limits]] and [[Logarithm|logarithms]]. It is thought to be [[Transcendental number|transcendental]] but not [[P ...30 KB (3,192 words) - 04:50, 17 March 2025
- 48 KB (7,270 words) - 19:21, 4 December 2024