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Archive 1Archive 4Archive 5Archive 6

Standard name for natural log in Wikipedia?

This article uses ln(x) for the natural logarithm of x. But is this standard for the rest of Wikipedia, or can each article choose whichever of ln(x) or log(x) it prefers? For example Sophomore's dream uses log(x). Can an argument be made for changing it to ln(x), or should it be left alone? Vaughan Pratt (talk) 20:34, 9 December 2020 (UTC)

The common uses are summarized in § Particular bases. It appears that "ln" is the notation recommended by ISO. However, ISO is not a recognized standard in mathematics, and although many mathematiciens use "ln", "log" seems more commonly used in mathematics, especially in advanced mathematics, where no confusion is possible with other bases. On the other hand, no convention for logarithms is specified in MOS:MATH. So the choice between "ln" and "log" is left to editors under the condition of a coherent use in each article. In the case of Sophomore's dream, the presence of integrals in the formula makes clear that the logarithms are the natural ones. So, MOS:VAR recommends to not change the notation without a clear consensus. D.Lazard (talk) 21:15, 9 December 2020 (UTC)
In the case of Sophomore's dream, it is inside an exp(), so obviously natural log. For anything close to calculus and integrals, log() commonly means natural log. There are a number of cases where log is understood to be log10, such ad dB, pH, optical density. If one is close to one of those cases, but needs natural log, then ln is probably a good choice. There are a fair number of cases where it doesn't matter, one usual case being in big-O notation, where constant factors are ignored. Not as common, but a ratio of logs is also base independent. Gah4 (talk) 23:04, 9 December 2020 (UTC)

Citation style

Up through the version of 3:53, 25 March 2010, this article used {{cite}} templates. That version had 9 {{cite}} templates and 0 (zero) {{citation}} templates. The next revision, the version of 15:24, 25 March 2010, had 9 {{cite}} templates and 2 {{citation}} templates. By now, the article uses nearly all {{citation}} templates, but as far as I can see, there has never been a discussion on this talk page authorizing this change. If that discussion never took place, we should revert to the original {{cite}} markup, unless there is a consensus now to the contrary. —Anomalocaris (talk) 05:15, 17 September 2021 (UTC)

That is an interesting observation. However, what is the difference between {{cite}} and {{citation}}? Somerandomuser (talk) 05:23, 17 September 2021 (UTC)
The "cite" templates use Citation Style 1 while the "citation" templates use Citation Style 2. The biggest. Difference. Is that. Citation Style. 1. Puts. Periods. Between. Everything. Instead, Citation Style 2, separates parts, of the citation, with commas, and doesn't, end with a period —David Eppstein (talk) 05:48, 17 September 2021 (UTC)
Also, the earliest citations in a recognizable format in the article used comma-separated citations; see e.g. this 2006 version, with the first footnote to an actual publication, or even earlier versions with only the in-text citation to Peirce. So it is really not accurate to claim that Citation Style 1 has priority merely because at some arbitrary point halfway between its creation and now it happened to predominate. —David Eppstein (talk) 05:59, 17 September 2021 (UTC)

Antiderivative of logarithm

The section of Logarithm#Derivative_and_antiderivative just showed the integral of the natural logarithm. But, is it supposed to be integral of the logarithm with the base ? 04:34, 3 November 2021‎ (UTC)

It says right there that "Related formulas, such as antiderivatives of logarithms to other bases can be derived from this equation using the change of bases.", with a link a ref for those who want it for other bases. And your signature is super obnoxious. Dicklyon (talk) 04:45, 3 November 2021 (UTC)

Cent scale

Okay, I'm a "noob" at editing Wikipedia pages (this is my second attempt in 15 years). So here goes:

In the "Particular bases" section of the Logarithm page, it says:

". . . in music theory, where a pitch ratio of two (the octave) is ubiquitous and the cent is the binary logarithm (scaled by 1200) of the ratio between two adjacent equally-tempered pitches in European classical music; . . ."

If you look at the Wikipedia definition of "Cent (music)" [1], and the Wikipedia definition of "Binary logarithm", it appears that there has been a transcription error between these two definitions [Cent (music) & Binary logarithm] and the Logarithm article, which may need to be harmonized.

Based on my music theory classes in college, a cent is 1/100th of the pitch ratio between two adjacent equal-tempered pitches (a interval of a semitone or half-tone) in European music, and 1200 cents make an octave - not a half-tone.

So should the above quoted text in the Logarithm article read: ". . . and the cent is the binary logarithm (scaled by 100) of the ratio between two adjacent equally-tempered-pitches in European classical music; . . ."?

Or would another way of re-writing this be better?

Or am I completely mistaken?

TimeriderTech (talk) 01:10, 4 November 2021 (UTC)

I think it's more screwed up than you indicate. It should perhaps say ". . . in music theory, where a pitch ratio of two (the octave) is ubiquitous and the cent is the binary logarithm (scaled by 1200) of the ratio between two pitches; . . .". Any two pitches, not two notes nominally 100 cents apart. On the other hand, this is still a bad way to define "the cent" where it means "the interval measured in cents". Please try to rewrite it to make more cents. Dicklyon (talk) 01:17, 4 November 2021 (UTC)
It's just overly specific. The number of cents between any two pitches is 1200x the binary logarithm of their ratio. There is no reason to specify that the two pitches in question be adjacent. —David Eppstein (talk) 01:21, 4 November 2021 (UTC)
What you say is correct. But it's hard to incorporate it into a sentence that says "the cent is". Dicklyon (talk) 03:24, 4 November 2021 (UTC)
What's wrong with my proposed simpler replacement for the incorrect quoted text above: "the number of cents between any two pitches is the binary logarithm (scaled by 1200) of their ratio" ? —David Eppstein (talk) 07:13, 4 November 2021 (UTC)
Nothing wrong with that. I interpreted your "It's just overly specific" as a suggestion to make the smaller change like I first said, with "the cent is". An alternative using would be "The cent is 1/100 of the difference of logarithms between two pitches a semitone apart" or something like that, where now the log base doesn't even matter. It's exactly the same problem discussed at length on Talk:Decibel, between trying to say "the decibel is" or trying to say how many decibels a ratio corresponds to. The standards agencies take the former approach, but I'm not saying I like it. Dicklyon (talk) 14:36, 4 November 2021 (UTC)

Thank you both for chiming in on this! My attempt to create a new "Cent scale" sub-topic on the talk page for "Logarithm" didn't appear to go as planned, and I'm guessing that somebody silently helped me out. (Thanks! I promise I'll get better at editing.) It also makes me feel better that at least two other editors agree that there's a problem here. Thanks to you both! I'm going to ruminate on a better re-write of the erroneous sentence, incorporating the above input. Hopefully we can all find an alternative phrasing that corrects this mathematical error in a manner most pleasing and clear to read. 64.201.116.75 (talk) 16:33, 4 November 2021 (UTC)

References

Sources for "Feynman's algorithm"

This entire sections seems to be based on a single, vague, two paragraph description in Physics Today (here), with the details being fleshed out through original research. Physics Today may a reliable source, but the article in question is obviously meant for a popular audience, and so is extremely lacking in detail, and does not cite any sources itself from which further detail might be found. If someone can find an academic paper, textbook or reference book that describes this algorithm then I'd be convinced that it belongs in Wikipedia, but as it stands I find its inclusion highly dubious at best. The section title might be taken to imply that the method is known as "Feynman's algorithm" in the literature, but can find no evidence that anyone aside from the editor who added this section called it that. If have no doubt that the method is, in fact valid, but this does not alone merit its inclusion since much of the detail seems to be the result of original research. --RDBury (talk) 03:11, 15 October 2020 (UTC)

It seems that this is the first attempt (or one of the first attempts) for computing logarithms on a computer, and that it is its only interest, as it seems to be not specially efficient. So I suggest to reduce this paragraph to a single line, and to move it to the history section. D.Lazard (talk) 03:53, 15 October 2020 (UTC)
@D.Lazard: The algorithm, according to the PT article, was from when Feynman was still at Los Alamos, at which time "computer" meant a person working the computations by hand. The fact that the algorithm itself seems to be optimized for a binary (electronic) computer would seem to contradict this though. The algorithm does seem seem efficient since it eliminates multiplication and division from the computation, but whether more efficient methods are used by modern processors I can't say. There's a trade-off between look-up table size and number of computations, so it's hard to day what 'efficiency' actually means here. For the history section I think we have a similar issue: is there a reference which shows the historical significance of the algorithm? --RDBury (talk) 04:16, 19 October 2020 (UTC)
At Los Alamos, Feynman had some IBM machines that weren't quite computers. As well as I know, the fanciest of them could read two numbers off a punched card, multiply them, and then punch the product onto the card. (Especially useful for payroll calculations.) So finding algorithms to do complicated calculations using primitive equipment, might have come up with some interesting algorithms. Gah4 (talk) 16:37, 4 November 2021 (UTC)

It seems that Feynman rediscovered the "radix method", e.g. as described in "RADIX METHOD OF CALCULATING NATURAL LOGARITHMS IN BINARY NOTATION", which I can't actually find a copy of. But similar things are done with decimal radix as here. I think Danny Hillis's referenced brief description of the method is adequate, and the adaptation of it in the article is even more clear and correct. Dicklyon (talk) 03:11, 17 November 2021 (UTC)