Talk:Metallic mean

This article was nominated for deletion on 16 October 2014 (UTC). The result of the discussion was keep.

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Lead too long?

Latest comment: 5 years ago1 comment1 person in discussion

I know that the lead is only two paragraphs, but they're somewhat long, and the article only has one content section, so maybe some of the content in the lead should be moved to the article's body. Care to differ or discuss with me? The N^th User 02:36, 28 August 2018 (UTC)Reply

Powers of the Metallic Means and the Pascal Triangle

Latest comment: 5 years ago1 comment1 person in discussion

In equations describing the powers of the metallic means each term in the chain has a numerical coefficient and is also raised to a power of 10. It turns out that the particular coefficients are identical to terms in a (2,1)-sided generalized Pascal Triangle. In the classical Pascal Triangle terms along so-called shallow diagonals sum to give Fibonacci numbers. The same types of terms along shallow diagonals in the (2,1)-sided Pascal Triangle sum on one side to give Lucas numbers rather than Fibonacci, and Fibonacci numbers on the other (though upshifted one move). The shallow diagonal terms leading to Lucas numbers here in the (2,1) system are identical to the numerical coefficients in the terms of the equations describing the powers of the metallic means. Furthermore, in the classical Pascal Triangle the usually discussed side-parallel diagonals are associated with dimensional values. The outer 1's are 0-D, the natural numbers are 1-D, the triangulars 2-D, the tetrahedrals 3-D and so on. Equivalent dimensional labels apply to the side-parallel diagonals in the (2,1)-sided generalized Pascal Triangle as well. Interestingly, the dimensional labels belonging to the side-parallel diagonals that each numerical coefficient terms are found in are identical to the powers that each term is raised to in the equations describing the powers of the Metallic Means. 2601:89:C600:E521:6500:3D92:ABF6:9690 (talk) 21:50, 9 April 2019 (UTC)Reply

How do you have a metallic mean between 2 numbers!?

Latest comment: 2 years ago1 comment1 person in discussion

the article states that the golden ratio is the metallic mean of 1 and 2, but both the continued fraction and the formula only have one input, n. where does this other number come from?

You've misquoted. The article says that the golden ratio is the metallic mean BETWEEN 1 and 2, not OF 1 and 2. So there is no problem. 2601:89:C701:9190:9089:70B3:33A7:F85D (talk) 17:26, 17 August 2021 (UTC)Reply

names for each ratio

Latest comment: 2 years ago3 comments3 people in discussion

While naming the first three ratios "golden", "silver" and "bronze" is well-established or at least suggests itself, "copper" and "nickel" seem to be coined in Spinadel's "The Family of Metallic Means", and other uses of these names reference back to that paper. After that, however, I couldn't find any other name for further ratios - other than those recently added here and in my opinion they range from "kind of make sense" to "that's not even a metal".
So does anyone have a source for a naming convention or with some more names to add?
If not, should we come up with reasonable names for the ratios written out on the page (for N = 6 through 9) or just leave those spaces blank? 2001:A62:409:AB01:41FC:D226:8A49:4ED5 (talk) 20:56, 4 January 2022 (UTC)Reply

Metals for ratios 6 to 9 were added by one-edit IPs without citation. None of the online sources use these names, though I'm unable to check Petrovich. I've boldly removed them. Certes (talk) 12:54, 11 March 2022 (UTC)Reply

my deep apologies, it seems i was part of the miss-information, when i saw the edit that named the 9's metallic mean as waluigi i went from my memory and looked up the names from here(https://rosettacode.org/wiki/Metallic_ratios) to try and fix the mess, which for some reason i though where here before the waluigi vandal

that is where the 6-9(Aluminum, Iron, Tin and Lead) and 0(Platinum) names came from(i've removed platinum)... but this mistake has lead me to look a bit deeper and... it turns out that copper and nickel are the names of two different ratios than the ones expressed here, as a careful look at(https://www.mi.sanu.ac.rs/vismath/spinadel/index.html) reveals

the copper mean is given by the equation "(x^2)-x-2=0" which equals 2, and the nickel mean is (1+root(13))/2 as given by the equation "(x^2)-x-3=0"(https://oeis.org/A209927) and so i have removed copper and nickel as well

i've also changed this template to link copper with 2 and put the "etc" on its own bullet, out of the fact that i can't confidently remove it

a pity that i have erred so, but at least in the end i helped mend something that i didn't even know was wrong StarButterflyIsCute (talk) 12:21, 12 March 2022 (UTC)Reply

Removal of maintenance tags

Latest comment: 1 month ago1 comment1 person in discussion

An IP user is starting an edit war for removing maintenance tag without addressing the issue. More specifically:

• They changed These properties ^[which?] are valid only for integers m into "These properties are valid only for integers m", without specifying whether "these" refers to the properties of the preceding section or to the "following properties".
• They changed The above property ^[which?] for the powers of the silver ratio is a consequence of a property of the powers of silver means ^{[clarification needed]} For the silver mean S of m,^{[clarification needed]} the property can be generalized as into "For the metallic mean S of m, the property can be generalized as ". Again, the reader cannot know which property is referred to. The confusion between "silver means" and "metallic mean" is fixed here, but remains at several place below in the section.

So, the IP user did not addressed any of the issues motivating the maintenance tags, and I'll revert it again. D.Lazard (talk) 17:52, 8 April 2024 (UTC)Reply

A way to prove the identity e^arsinh(1/2 x)

Latest comment: 1 month ago1 comment1 person in discussion

Easy to show by solving for the inverse of (x + sqrt(x^2 + 4))/2 which yields x - 1/x. Rewriting: e^(ln x) - e^(-ln(x)), but e^t - e^(-t) is 2sinh(t) by a definition of sinh (easily found through e^(ix) and its variations), so: 2sinh(ln(x)) = y. Solving for x, we get 2 sinh(ln x) = y -> sinh(ln x) = 1/2 y -> ln x = arsinh(1/2 y) -> x = e^arsinh(1/2 y) . Andrew T Porter (talk) 15:17, 12 April 2024 (UTC)Reply

n=1

Latest comment: 4 days ago1 comment1 person in discussion

One could name 1 'Roentgenium ratio'.https://mathstodon.xyz/@rjf_berger/109830172130605119 2A04:DF80:44:4501:904B:2A91:2882:6E13 (talk) 08:01, 12 May 2024 (UTC)Reply