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My structure introduces the precise, current definition of the scale early, following [[MOS:LEADSENTENCE]]: "If its subject is definable, then the first sentence should give a concise definition." (Per [[Wikipedia:Wikipedia_is_not_a_dictionary#Good_definitions]] it is actually two sentences with two definitions, as the kelvin and Kelvin scale are highly related topics). In contrast, if someone needs to identify the current definition of the Kelvin scale in your structure, they would have to look at the beginning and end of the first paragraph and also search through the end of the third paragraph. This disjointed definition is not suitable for grasping the concept of the kelvin. It is not accessible, not early, and not clear. [[User:Mathnerd314159|Mathnerd314159]] ([[User talk:Mathnerd314159|talk]]) 18:36, 2 May 2024 (UTC)
My structure introduces the precise, current definition of the scale early, following [[MOS:LEADSENTENCE]]: "If its subject is definable, then the first sentence should give a concise definition." (Per [[Wikipedia:Wikipedia_is_not_a_dictionary#Good_definitions]] it is actually two sentences with two definitions, as the kelvin and Kelvin scale are highly related topics). In contrast, if someone needs to identify the current definition of the Kelvin scale in your structure, they would have to look at the beginning and end of the first paragraph and also search through the end of the third paragraph. This disjointed definition is not suitable for grasping the concept of the kelvin. It is not accessible, not early, and not clear. [[User:Mathnerd314159|Mathnerd314159]] ([[User talk:Mathnerd314159|talk]]) 18:36, 2 May 2024 (UTC)

:To address the concern about the 2019 definition not appearing immediately, [https://en.wikipedia.org/w/index.php?title=Kelvin&diff=1221917971&oldid=1221829054 I have just edited] the infobox to add a line "2019 definition" that gives out the Boltzmann constant in terms of J/K.
:I had done many of the edits to try to simplify the lead. I am afraid if we overload new readers by immediately in the first paragraph getting into very technical Boltzmann constant (which itself requires a large amount of explaining and background knowledge), then we risk loosing them completely.
:The second paragraph of the historical definition a better way to start because the melting point of ice is something that new readers can still relate too. And even though the kelvin is no longer precisely defined by the melting point, that is still a good-enough and concise definition for practical purposes as the "2019 definition" section now explains:
:"For practical purposes, the redefinition was unnoticed; enough digits were used for the Boltzmann constant to ensure that 273.16&nbsp;K has enough [[Significant figures|significant digits]] to contain the uncertainty of water's triple point<ref name="codata2017">{{cite journal |last1=Newell |first1=D B |last2=Cabiati |first2=F |last3=Fischer |first3=J |last4=Fujii |first4=K |last5=Karshenboim |first5=S G |last6=Margolis |first6=H S |last7=de Mirandés |first7=E |last8=Mohr |first8=P J |last9=Nez |first9=F |last10=Pachucki |first10=K |last11=Quinn |first11=T J |last12=Taylor |first12=B N |last13=Wang |first13=M |last14=Wood |first14=B M |last15=Zhang |first15=Z |date=29 January 2018 |title=The CODATA 2017 values of ''h'', ''e'', ''k'', and ''N''<sub>A</sub> for the revision of the SI |journal=Metrologia |volume=55 |issue=1 |pages=L13–L16 |bibcode=2018Metro..55L..13N |doi=10.1088/1681-7575/aa950a |bibcode-access=free |doi-access=free |collaboration=Committee on Data for Science and Technology (CODATA) Task Group on Fundamental Constants}}</ref> and water will still freeze at 0&nbsp;°C<ref>{{cite web |title=Updating the definition of the kelvin |url=http://www.bipm.org/wg/CCT/TG-SI/Allowed/Documents/Updating_the_definition_of_the_kelvin2.pdf |url-status=dead |archive-url=https://web.archive.org/web/20081123043044/http://www.bipm.org/wg/CCT/TG-SI/Allowed/Documents/Updating_the_definition_of_the_kelvin2.pdf |archive-date=23 November 2008 |access-date=2010-02-23 |publisher=[[BIPM]]}}</ref> to a high degree of precision." [[User:Em3rgent0rdr|Em3rgent0rdr]] ([[User talk:Em3rgent0rdr|talk]]) 20:04, 2 May 2024 (UTC)

Revision as of 20:04, 2 May 2024

Plural usage

As a mechanical engineer with a B.S. and M.S. from MIT with a specialization in Thermodynamics, I must emphatically assert that the usage of the Kelvin scale when spoken or written is always singular (e.g. "77 kelvin"). This is confirmed by Wiktionary "...[kelvin] (usually as postpositioned adjective) A unit for a specific temperature on the Kelvin scale.

   Ice melts above 273.15 kelvin.
   Water boils above 373.15 kelvin."  — Preceding unsigned comment added by 2601:6:3280:483:4593:DD0:2C31:EA0D (talk) 19:27, 2 May 2015 (UTC)[reply] 

I have a proposal and am interested in what others think. I note that the BIMP and the NIST seem to have both ducked the issue of plural usage of kelvin when reporting temperatures. This Kelvin article currently ducks the issue too and the conspicuous absence sticks out like sore thumb. This article tells that kelvin in its plural form is kelvins, but it currently entirely avoids the topic of plural usage. From what I can see, plural usage is currently a free-for-all. It seems that intervals, e.g., “the difference between our two readings was 50 kelvins” is most commonly expressed using the plural form. This makes sense to me and and seems consistent with the rules of English usage. However, it seems that both forms are used in the expression of specific temperature values. One can as easily find "a temperature of 300 kelvin" as one can find "a temperature of 300 kelvins." I just now googled on sun "5800 kelvin" and got 963 hits. I got 458 hits on sun "5800 kelvins". I'm sure Wikipedia contributors have opinions as to what is the “proper” way to express temperatures but personal opinions are a dime a dozen. I wonder if any prominent scientific journals have specific editorial guidelines on this issue. So…

I've got a suggestion and a question. Perhaps this article should address the issue of plural usage by noting that both forms are currently used and there is no officially endorsed form. As regards my question, does anyone know of a suggested editorial practice by a reputable scientific publishing organization regarding the expression of kelvin temperatures? Greg L (my talk) 05:22, 4 April 2007 (UTC)[reply]

We don't talk about "centigrades" or "Fahrenheits" when giving temperatures, so why should we say "Kelvins?" Seems to me that the unit in all of these cases is the degree; the terms centigrade, Fahrenheit, Kelvin, etc. simply give the point of reference from which the measurement of degrees starts. True, since the size of a centigrade degree is different from that of a Fahrenheit degree, there is some justification for recognizing that uniqueness in an abbreviated form by saying "Kelvins," but it comes down to a personal preference, I suppose, for the "degrees Kelvin" form. As to capital letters, I think it's good to remember that Kelvin, Ohm, Volta, etc., were people--yes, it's nice to honor them, but it's also helpful to recall that they were human, and we are dealing with results of human endeavors--i.e., they might have made some wrong assumptions, and we should always be careful of following blindly. Personally, I am dead set against counting instances and going with the majority on ANY question whatsoever. Remember, half the folks out there are by definition below average.  :) As a historian, I have NEVER tried to settle a dispute by counting the number of sources on either side of the question. The question is how good the sources are, not how many idjots took the easy way out and copied a bad source without checking it. Terry J. Carter (talk) 18:25, 4 July 2008 (UTC)[reply]

If you look at the documents mentioned in the following footnote on the meter page: Meter#cite_note-7, they write 273.16 kelvins.
The Metric Conversion Act of 1975 gives the Secretary of Commerce of the US the responsibility of interpreting or modifying the SI for use in the US. The Secretary of Commerce delegated this authority to the Director of the National Institute of Standards and Technology (NIST) (Turner, 2008). In 2008, the NIST published the US version (Taylor and Thompson, 2008a) of the English text of the eighth edition of the Bureau International des Poids et Mesures (BIPM) publication Le Système International d’ Unités (SI) (BIPM, 2006). In the NIST publication, the spellings "meter," "liter," and "deka" are used rather than "metre", "litre", and "deca" as in the original BIPM English text (Taylor and Thompson, 2008a, p. iii). The Director of the NIST officially recognised this publication, together with Taylor and Thompson (2008b), as the "legal interpretation" of the SI for the United States (Turner, 2008).
If there is any official guidelines I would expect the NIST and BIPM would be aware of it? I would guess you say 3.4 kelvins, and 0.9 kelvin.
Apis (talk) 05:38, 30 January 2009 (UTC)[reply]
We don't say Celsiuses or Fahrenheits because we say degrees Celsius or degrees Fahrenheit. The plurality of degrees is what leads people to want to use a plural. I don't think it's a problem. As long as the abbreviated form doesn't get corrupt, e.g. as we sometime see in "kms/h" instead of "km/h", for example. Jdpipe (talk) 04:22, 27 July 2009 (UTC)[reply]
BIPM quote:
"over a wide temperature range from a few kelvins to above 550 K." 
from "SI-App2-kelvin.pdf"
189.129.53.203 (talk) 13:51, 12 September 2022 (UTC) baden k.[reply]

History of Kelvin scale

There seems to be an issue with the history of the Kelvin scale, which I reverted. The 1848 paper does deal with the need for an absolute thermometric scale, so I'm not sure what the point of the edit was. There were also some typoes present, and items removed without explanation. So, let's discuss what is thought to be needed before reinstating this change. Tarl N. (discuss) 03:16, 13 June 2019 (UTC)[reply]

Let me be specific about what I don't like:
  • Change of "engineer and physicist" to "physicist". He's remembered today primarily as a physicist, but recognition in his own time was for his engineering skills. So I think that description is appropriate.
  • Parenthetical statement in lead about why he was awarded the title. We generally prefer to avoid parenthetical statements in the lede.
  • Celcius. It's tricky wording to begin with (we used to have the terms degree Celsius and degree Kelvin, now it's the kelvin alone), the mispelling doesn't help. I think we should leave it as is. The point is that one unit of Celsius (called a degree) is equivalent to a difference of one Kelvin, the question is the phraseology.
  • In his 1848 paper, he made clear the need for an absolute scale. Maybe we need to reword it to avoid implying that he had it entirely worked out in 1848, but we don't need to complicate it with later 1851 paper which still didn't have all the details worked out. The point to get across is when the work started.
Tarl N. (discuss) 03:23, 13 June 2019 (UTC)[reply]

I simply thought I would share what I have learned:

  • Kelvin thought of himself as a physicist, and the engineering got added in because the engineer initially running the project (Preece, if memory serves me) screwed up the Atlantic cable project; Kelvin was brought in to fix it, which he did. He was a physicist who for a time did engineering, but he was not an engineer. I don't know where you got that idea, but it is wrong.
  • The writing is not perfect; I felt that correct information is more important that great wording (to which I am sensitive).
  • Please feel free to revise. At least distinguish between recognizing the need for an absolute scale (I did explain what such a scale means) and actually finding one. — Preceding unsigned comment added by WMSwiki (talkcontribs) 04:48, 13 June 2019 (UTC)[reply]
My two cents. The first thing to remember is that the article is about the unit of measurement, not about Kelvin himself, so details about his schooling and preferred rather than professional titles are really not germane here. (Technically, if one trains to be an engineer but doesn't make a living at it, they are not an engineer, but if one works as an engineer, they are one regardless of training. To some it just comes naturally.)
Great wording can be all the difference between something that is coherent and understandable, and something either incomprehensible or something that may mean multiple things depending upon how you look at it. With this particular topic, it's very difficult to avoid those dual meanings and make it fully understandable to the general masses. Great care should be taken to make sure of both.
Mostly, we need sources to verify what you learned. The info must come from somewhere, so it is always advisable to cite those sources for any info you add. I hope that helps. Zaereth (talk) 20:32, 13 June 2019 (UTC)[reply]

triple point of water

The redefinition of SI results in the triple point of water now becoming an empirically determined value. I think the current lead is perhaps misleading in that it could be read to indicate that the triple point of water is still exactly 0.01 Celsius, when this is no longer the case. Thus I changed the lead. Please let me know if you feel that this is incorrect. 2601:184:407F:8921:646B:30F2:10C3:559E (talk) 03:10, 7 July 2019 (UTC)[reply]

Potential new sections, Implications of 2019 revision and motivation for using an absolute scale

Do you think we should create a section on the mathematical implications of assigning an exact value the the Boltzmann constant?

Do you think we should create a section on the the motivation for creating an absolute temperature scale at all, rather than sticking with scales that have some other starting point? This has the potential to get into puff piece territory, but I could also imagine this being one of the main questions people have when looking this subject up. Ava Eva Thornton (talk) 07:29, 18 February 2022 (UTC)[reply]

I don't know much about the first part of your question, as I don't speak math very fluently. Possibly could be of value if you can translate it to English for all us non-mathematicians out here.
The second part of your question is something that interests me very much, as I'm always wanting to know why. It may be a little much or off topic for this article, but I think it would be perfect for the absolute scale article. I know Kelvin was a pioneer in both deep cold and deep vacuum measurements, along with Edison and several others. (They each began using the Torr scale very early in their research, so the concept was not new.) Both are quantities you can assign a known minimum to, and in both you start to get wonky readings at extreme lows without having a fixed zero-reference to compare against. It's not necessarily that an absolute scale is better than a relative one, because it all depends on what you're measuring for. (See discussion at Talk:Absolute scale) We live in a pressurized atmosphere at temperatures above freezing, so for day-to-day measurements a relative scale is better. For example, with things like tire pressure or blood pressure, the absolute pressure is not very critical. It's far more important to know the difference between them and atmospheric pressure, because that is a far better indication of burst pressure. With lighting, aeronautics, or barometry, an absolute scale is far more accurate for the necessary info. When it comes to deep cold or deep vacuum measurements, it starts to become really apparent that you need an absolute scale so you have a fixed reference point that doesn't change.
Also, I think the section on orders of magnitude could be toned down a little. It would probably read better as a list, so it doesn't clutter up the table of contents as much. Zaereth (talk) 04:08, 2 March 2022 (UTC)[reply]

1 Kelvin

I don't see why there should be a (rather lengthy) section on 1 Kelvin in this article. More appropriately it should be in a separate article, much like absolute zero.
—DIV (137.111.13.4 (talk) 03:47, 9 May 2022 (UTC))[reply]

Bloat

The user Ava Eva Thornton (talk · contribs) added a huge volume of content in this article, not all of it useful. Compare what the article used to look like vs. what it looks like now. While, some the content is mostly tangential, usually quantitative information. I have already deleted a section that was purely WP:OR that added no useful information about the 2019 definition. The "Multiples" section is mostly WP:IINFO, and I recommend either converting it into a table like Metre#SI prefixed forms of metre, or deleting it outright; "1 kelvin" should probably be deleted for the same reason. –LaundryPizza03 (d) 19:55, 13 July 2022 (UTC)[reply]

The Multiples section should simply go away. The 1 Kelvin section has interesting information, but isn't specific to the Kelvin scale, so should probably be moved to another article. Tarl N. (discuss) 20:26, 13 July 2022 (UTC)[reply]
The 1 Kelvin section probably belongs in the Absolute zero#Very low temperatures section, which it at least partially overlaps. Tarl N. (discuss) 20:33, 13 July 2022 (UTC)[reply]

Conversion Table Placement

The Conversion Table is placed in (adjacent to) the "Practical uses" section, but has nothing to do with the section's content. A better placement would be desirable.

189.250.250.12 (talk) 13:16, 12 September 2022 (UTC) baden k.[reply]

Make the range of Kelvin immediately clear

In the intro, can it be made immediately obvious that a characteristic of Kelvin is that its lowest possible value is 0, because it is tied to kinetic energy? i.e. Kelvin's values range from 0 on upwards; there is never a negative Kelvin value (if this is true). Such basic things about the nature and usage and consequences of concepts are nice to make immediately clear, for anyone who doesn't really need to know more than that, but does need to know and understand such implications for usage. And then anyone who wants to go further for the sake of knowledge or the nuances of those reasons can delve into the further details.

I'll write what I might suggest for such an addition later, if I remember. GabeGibler (talk) 23:25, 17 February 2023 (UTC)[reply]

I agree. The lede is a little backwards in its presentation, which doesn't help really clarify immediately what this thing is. The most important information for building context is actually in the last sentence of the first paragraph, when it should really be the first. That it's an SI unit or who it's named after is really secondary to that. For all intents and purposes, Kelvin is just another name for Celsius (absolute), that is, it's based on the Celsius scale, but starts at absolute zero rather than the freezing point of water. If you want to try to improve it, you are most welcome to give it a shot. Zaereth (talk) 01:08, 18 February 2023 (UTC)[reply]
I took a stab. I think the 0 K - 273.15 K - 273.16 K sentence should explain the range pretty well. Although maybe it's hard to understand? Mathnerd314159 (talk) 05:06, 24 April 2023 (UTC)[reply]

Lead structure

@NebY I don't think your lead structure is "much-improved". My two-paragraph structure has a simple, logical structure: one paragraph for the current definition and one paragraph for the historical definitions. This makes the key points clear. In contrast, your structure is fragmented - the historical context abruptly ends and then switches to discussing the 2019 redefinition in a new paragraph. Putting the 2019 redefinition using the Boltzmann at the start of a new paragraph is confusing to readers as they wonder why this is a new topic and how it is related to kelvins. In contrast, my second paragraph seamlessly integrates all of the historical definitions without disrupting the flow of the text. Two paragraphs is also more concise than 3 - following your logic, every sentence would be in its own paragraph because these "brief paragraphs" would somehow make it less intimidating. But of course this is flawed as breaking up paragraphs with random breaks makes it less readable and more intimidating.

My structure introduces the precise, current definition of the scale early, following MOS:LEADSENTENCE: "If its subject is definable, then the first sentence should give a concise definition." (Per Wikipedia:Wikipedia_is_not_a_dictionary#Good_definitions it is actually two sentences with two definitions, as the kelvin and Kelvin scale are highly related topics). In contrast, if someone needs to identify the current definition of the Kelvin scale in your structure, they would have to look at the beginning and end of the first paragraph and also search through the end of the third paragraph. This disjointed definition is not suitable for grasping the concept of the kelvin. It is not accessible, not early, and not clear. Mathnerd314159 (talk) 18:36, 2 May 2024 (UTC)[reply]

To address the concern about the 2019 definition not appearing immediately, I have just edited the infobox to add a line "2019 definition" that gives out the Boltzmann constant in terms of J/K.
I had done many of the edits to try to simplify the lead. I am afraid if we overload new readers by immediately in the first paragraph getting into very technical Boltzmann constant (which itself requires a large amount of explaining and background knowledge), then we risk loosing them completely.
The second paragraph of the historical definition a better way to start because the melting point of ice is something that new readers can still relate too. And even though the kelvin is no longer precisely defined by the melting point, that is still a good-enough and concise definition for practical purposes as the "2019 definition" section now explains:
"For practical purposes, the redefinition was unnoticed; enough digits were used for the Boltzmann constant to ensure that 273.16 K has enough significant digits to contain the uncertainty of water's triple point[1] and water will still freeze at 0 °C[2] to a high degree of precision." Em3rgent0rdr (talk) 20:04, 2 May 2024 (UTC)[reply]
  1. ^ Newell, D B; Cabiati, F; Fischer, J; Fujii, K; Karshenboim, S G; Margolis, H S; de Mirandés, E; Mohr, P J; Nez, F; Pachucki, K; Quinn, T J; Taylor, B N; Wang, M; Wood, B M; Zhang, Z; et al. (Committee on Data for Science and Technology (CODATA) Task Group on Fundamental Constants) (29 January 2018). "The CODATA 2017 values of h, e, k, and NA for the revision of the SI". Metrologia. 55 (1): L13–L16. Bibcode:2018Metro..55L..13N. doi:10.1088/1681-7575/aa950a.
  2. ^ "Updating the definition of the kelvin" (PDF). BIPM. Archived from the original (PDF) on 23 November 2008. Retrieved 2010-02-23.
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