Revision as of 19:01, 6 May 2005 editOleg Alexandrov (talk | contribs)Administrators47,242 edits reply← Previous edit | Latest revision as of 03:13, 1 December 2024 edit undoTrovatore (talk | contribs)Autopatrolled, Extended confirmed users, Pending changes reviewers38,031 edits →Greater than or equal to: r to Mr Swordfish | ||
Line 1: | Line 1: | ||
{{Skip to talk}} | |||
I created this page in response to I saw and the confusion that arose. Figured it was something worth noting. --] 18:58, 6 May 2005 (UTC) | |||
{{Talk header|search=yes}} | |||
{{warning|This is the ] for discussing changes to the ] article itself. ''Please place discussions on the underlying mathematical issues on the ]''. For questions about the maths involved, try posting to the ] instead.}} | |||
{{FAQ}} | |||
{{Article history | |||
|action1=AFD | |||
|action1date=May 5, 2006 | |||
|action1link=Misplaced Pages:Articles for deletion/Proof that 0.999... equals 1 | |||
|action1result=kept | |||
|action1oldid=51422447 | |||
|action2=FAC | |||
|action2date=October 10, 2006 | |||
|action2link=Misplaced Pages:Featured article candidates/0.999... | |||
|action2result=promoted | |||
|action2oldid=80638011 | |||
|action3=FAR | |||
|action3date=15:06, 31 August 2010 | |||
|action3link=Misplaced Pages:Featured article review/0.999.../archive1 | |||
|action3result=kept | |||
|action3oldid=382076790 | |||
|maindate=October 25, 2006 | |||
|currentstatus=FFA | |||
|action4 = FAR | |||
|action4date = 2024-09-24 | |||
|action4link = Misplaced Pages:Featured article review/0.999.../archive2 | |||
|action4result = demoted | |||
|action4oldid = 1243492081 | |||
}} | |||
{{WikiProject banner shell|class=B|collapsed=yes|1= | |||
{{WikiProject Spoken Misplaced Pages}} | |||
{{WikiProject Mathematics|portal=yes}} | |||
{{WikiProject Numbers|importance=Mid}} | |||
}} | |||
{{tmbox|image=none|text='''] Archives:''' ], ], ], ], ], ], ], ], ], ], ], ], ]|textstyle=text-align: center;}} | |||
{{User:MiszaBot/config | |||
|archiveheader = {{aan}} | |||
|maxarchivesize = 200K | |||
|counter = 20 | |||
|algo = old(31d) | |||
|archive = Talk:0.999.../Archive %(counter)d | |||
}} | |||
== Yet another anon == | |||
: I think you are right. I submitted it first for deletion because the title looked a bit misleading. This is not a series of nines, the series is if you wish of | |||
''Moved to ] subpage'' | |||
⚫ | :<math> |
||
Cheers, ] 19:01, 6 May 2005 (UTC) | |||
== Intuitive explanation == | |||
There seems to be an error in the intuitive explanation: | |||
For any number x that is less than 1, the sequence 0.9, 0.99, 0.999, and so on will eventually reach a number larger than x. | |||
If we set x = 0.̅9 then the sequence will never reach a number ''larger'' than x. ] (]) 12:16, 4 October 2024 (UTC) | |||
:If x = 0.̅9 then x is not less than 1, so the conditional statement is true. What is the error? ] (]) 12:50, 4 October 2024 (UTC) | |||
::If you presuppose that 0.̅9 is less than one, the argument that should prove you wrong may apprear to be sort of circular. Would it be better to say "to the left of 1 on the number line" instead of "less than 1"? I know it's the same, but then the person believing 0.̅9 to be less than one would have to place it on the number line! ] (]) 14:47, 4 October 2024 (UTC) | |||
:What does the notation 0.̅9 mean? ] (]) 15:43, 4 October 2024 (UTC) | |||
::It means zero followed by the decimal point, followed by an infinite sequence of 9s. ] (]) 00:24, 5 October 2024 (UTC) | |||
:::Thanks! Seems a bit odd that this is curious combination of characters (which I don't know how to type) is not listed in the article on 0.999... ] (]) 01:47, 5 October 2024 (UTC) | |||
== B and C == | |||
@]. There are other unsourced facts in the given sections. For example: | |||
* There is no source mentions about "Every element of 0.999... is less than 1, so it is an element of the real number 1. Conversely, all elements of 1 are rational numbers that can be written as..." in Dedekind cuts. | |||
* There is no source mentions about "Continuing this process yields an infinite sequence of ], labeled by an infinite sequence of digits {{math|1=''b''<sub>1</sub>, ''b''<sub>2</sub>, ''b''<sub>3</sub>, ...}}, and one writes..." in Nested intervals and least upper bounds. This is just one of them. | |||
] (]) 11:00, 30 October 2024 (UTC) | |||
: The section on Dedekind cuts is sourced to Richman throughout. The paragraph on nested intervals has three different sources attached to it. ] (]) 11:35, 30 October 2024 (UTC) | |||
::Are you saying that citations in the latter paragraph supports the previous paragraphs? If that's the case, I prefer to attach the same citations into those previous ones. ] (]) 12:52, 30 October 2024 (UTC) | |||
:::Not sure what you mean. Both paragraphs have citations. ] (]) 13:09, 30 October 2024 (UTC) | |||
== Intuitive counterproof == | |||
The logic in the so-called intuitive proofs (rather: naïve arguments) relies on extending known properties and algorithms for finite decimals to infinite decimals, without formal definitions or formal proof. Along the same lines: | |||
* 0.9 < 1 | |||
* 0.99 < 1 | |||
* 0.999 < 1 | |||
* ... | |||
* hence 0.999... < 1. | |||
I think this fallacious intuitive argument is at the core of students' misgivings about 0.999... = 1, and I think this should be in the article - but that's just me ... I know I'd need a source. I have not perused the literature, but isn't there a good source saying something like this anywhere? ] (]) 08:50, 29 November 2024 (UTC) | |||
== Greater than or equal to == | |||
I inserted "or equal to" in the lead, thus: | |||
:In ], '''0.999...''' (also written as '''0.{{overline|9}}''', '''0.{{overset|.|9}}''', or '''0.(9)''') denotes the smallest number greater than '''''or equal to''''' every ] in the sequence {{nowrap|(0.9, 0.99, 0.999, ...)}}. It can be proved that this number is{{spaces}}]; that is, | |||
⚫ | :: <math>0.999... = 1.</math> | ||
(I did ''not'' emphasize the words as shown here.) | |||
But it was reverted by ]. Let me argue why I think it was an improvement, while both versions are correct. | |||
First, "my" version it s correct because it is true: 1 is greater than or equal to every number in the sequence, and any number less than 1 is not. Secondly, if a reader has the misconception that 0.999... is slightly less than 1, they may oppose the idea that the value must be strictly greater than alle numbers in the sequence - and they would be right in opposing that, if not in ''this'' case, then in other cases. E.g., 0.9000... is ''not'' greater than every number in the corresponding sequence, 0.9, 0.90, 0.900, ...; it is in fact equal to all of them. ] (]) 12:07, 29 November 2024 (UTC) | |||
:I think it's confusing because 1 doesn't belong to the sequence, so "or equal" are unnecessary extra words. A reader might wonder why those extra words are there at all, and the lead doesnt seem like the place to flesh this out. ] (]) 13:40, 29 November 2024 (UTC) | |||
::Certainly, both fomulations are correct. This sentence is here for recalling the definition of the notation in this specific case, and must be kept as simple as possible. Therefore, I agree with Tito. The only case for which this definition of ellipsis notation is incorrect is when the ellipsis replaces an infinite sequence of zeros, that is when the notation is useful only for emphasizing that finite decimals are a special case of infinite decimals. Otherwise, notation 0.100... is very rarely used. For people for which this notation of finite decimals has been taught, one could add a footnote such as 'For taking into account the case of an infinity of trailing zeros, one replaces often "greater" with "greater or equal"; the two definitions of the notation are equivalent in all other cases'. I am not sure that this is really needed. ] (]) 14:46, 29 November 2024 (UTC) | |||
:::Could you point to where the values of decimals are defined in this way - in wikipedia, or a good source? I can eassily find definitions in terms of limits, but not so easily with inequality signs (strict or not). | |||
:::I think the version with strict inequality signs is weaker in terms of stating the case clearly for a skeptic. ] (]) 17:45, 30 November 2024 (UTC) | |||
:::Agree that both versions are correct. My inclination from years of mathematical training is to use the simplest, most succinct statement rather than a more complicated one that adds nothing. So, I'm with Tito and D. here. ] (]) 18:24, 30 November 2024 (UTC) | |||
::::I think many mathematicians feel that "greater than or equal to" is the primitive notion and "strictly greater than" is the derived notion, notwithstanding that the former has more words. Therefore it's not at all clear that the "greater than" version is "simpler". --] (]) 03:13, 1 December 2024 (UTC) | |||
:::The general case is "greater than or equal to", and I would support phrasing it that way. I think we don't need to explain why we say "or equal to"; just put it there without belaboring it. --] (]) 03:06, 1 December 2024 (UTC) |
Latest revision as of 03:13, 1 December 2024
Skip to table of contents |
This is the talk page for discussing improvements to the 0.999... article. This is not a forum for general discussion of the article's subject. |
|
Find sources: Google (books · news · scholar · free images · WP refs) · FENS · JSTOR · TWL |
Archives: Index, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20Auto-archiving period: 31 days |
This is the talk page for discussing changes to the 0.999... article itself. Please place discussions on the underlying mathematical issues on the arguments page. For questions about the maths involved, try posting to the reference desk instead. |
view · edit Frequently asked questions
|
0.999... is a former featured article. Please see the links under Article milestones below for its original nomination page (for older articles, check the nomination archive) and why it was removed. | ||||||||||||||||||||||
This article appeared on Misplaced Pages's Main Page as Today's featured article on October 25, 2006. | ||||||||||||||||||||||
|
This article is rated B-class on Misplaced Pages's content assessment scale. It is of interest to multiple WikiProjects. | |||||||||||||||||||||||||||||||
|
Arguments Archives: Index, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12 |
Yet another anon
Moved to Arguments subpage
Intuitive explanation
There seems to be an error in the intuitive explanation:
For any number x that is less than 1, the sequence 0.9, 0.99, 0.999, and so on will eventually reach a number larger than x.
If we set x = 0.̅9 then the sequence will never reach a number larger than x. 2A01:799:39E:1300:F896:4392:8DAA:D475 (talk) 12:16, 4 October 2024 (UTC)
- If x = 0.̅9 then x is not less than 1, so the conditional statement is true. What is the error? MartinPoulter (talk) 12:50, 4 October 2024 (UTC)
- If you presuppose that 0.̅9 is less than one, the argument that should prove you wrong may apprear to be sort of circular. Would it be better to say "to the left of 1 on the number line" instead of "less than 1"? I know it's the same, but then the person believing 0.̅9 to be less than one would have to place it on the number line! Nø (talk) 14:47, 4 October 2024 (UTC)
- What does the notation 0.̅9 mean? Johnjbarton (talk) 15:43, 4 October 2024 (UTC)
- It means zero followed by the decimal point, followed by an infinite sequence of 9s. Mr. Swordfish (talk) 00:24, 5 October 2024 (UTC)
- Thanks! Seems a bit odd that this is curious combination of characters (which I don't know how to type) is not listed in the article on 0.999... Johnjbarton (talk) 01:47, 5 October 2024 (UTC)
- It means zero followed by the decimal point, followed by an infinite sequence of 9s. Mr. Swordfish (talk) 00:24, 5 October 2024 (UTC)
B and C
@Tito Omburo. There are other unsourced facts in the given sections. For example:
- There is no source mentions about "Every element of 0.999... is less than 1, so it is an element of the real number 1. Conversely, all elements of 1 are rational numbers that can be written as..." in Dedekind cuts.
- There is no source mentions about "Continuing this process yields an infinite sequence of nested intervals, labeled by an infinite sequence of digits b1, b2, b3, ..., and one writes..." in Nested intervals and least upper bounds. This is just one of them.
Dedhert.Jr (talk) 11:00, 30 October 2024 (UTC)
- The section on Dedekind cuts is sourced to Richman throughout. The paragraph on nested intervals has three different sources attached to it. Tito Omburo (talk) 11:35, 30 October 2024 (UTC)
- Are you saying that citations in the latter paragraph supports the previous paragraphs? If that's the case, I prefer to attach the same citations into those previous ones. Dedhert.Jr (talk) 12:52, 30 October 2024 (UTC)
- Not sure what you mean. Both paragraphs have citations. Tito Omburo (talk) 13:09, 30 October 2024 (UTC)
- Are you saying that citations in the latter paragraph supports the previous paragraphs? If that's the case, I prefer to attach the same citations into those previous ones. Dedhert.Jr (talk) 12:52, 30 October 2024 (UTC)
Intuitive counterproof
The logic in the so-called intuitive proofs (rather: naïve arguments) relies on extending known properties and algorithms for finite decimals to infinite decimals, without formal definitions or formal proof. Along the same lines:
- 0.9 < 1
- 0.99 < 1
- 0.999 < 1
- ...
- hence 0.999... < 1.
I think this fallacious intuitive argument is at the core of students' misgivings about 0.999... = 1, and I think this should be in the article - but that's just me ... I know I'd need a source. I have not perused the literature, but isn't there a good source saying something like this anywhere? Nø (talk) 08:50, 29 November 2024 (UTC)
Greater than or equal to
I inserted "or equal to" in the lead, thus:
- In mathematics, 0.999... (also written as 0.9, 0..9, or 0.(9)) denotes the smallest number greater than or equal to every number in the sequence (0.9, 0.99, 0.999, ...). It can be proved that this number is 1; that is,
(I did not emphasize the words as shown here.) But it was reverted by user:Tito Omburo. Let me argue why I think it was an improvement, while both versions are correct. First, "my" version it s correct because it is true: 1 is greater than or equal to every number in the sequence, and any number less than 1 is not. Secondly, if a reader has the misconception that 0.999... is slightly less than 1, they may oppose the idea that the value must be strictly greater than alle numbers in the sequence - and they would be right in opposing that, if not in this case, then in other cases. E.g., 0.9000... is not greater than every number in the corresponding sequence, 0.9, 0.90, 0.900, ...; it is in fact equal to all of them. Nø (talk) 12:07, 29 November 2024 (UTC)
- I think it's confusing because 1 doesn't belong to the sequence, so "or equal" are unnecessary extra words. A reader might wonder why those extra words are there at all, and the lead doesnt seem like the place to flesh this out. Tito Omburo (talk) 13:40, 29 November 2024 (UTC)
- Certainly, both fomulations are correct. This sentence is here for recalling the definition of the notation in this specific case, and must be kept as simple as possible. Therefore, I agree with Tito. The only case for which this definition of ellipsis notation is incorrect is when the ellipsis replaces an infinite sequence of zeros, that is when the notation is useful only for emphasizing that finite decimals are a special case of infinite decimals. Otherwise, notation 0.100... is very rarely used. For people for which this notation of finite decimals has been taught, one could add a footnote such as 'For taking into account the case of an infinity of trailing zeros, one replaces often "greater" with "greater or equal"; the two definitions of the notation are equivalent in all other cases'. I am not sure that this is really needed. D.Lazard (talk) 14:46, 29 November 2024 (UTC)
- Could you point to where the values of decimals are defined in this way - in wikipedia, or a good source? I can eassily find definitions in terms of limits, but not so easily with inequality signs (strict or not).
- I think the version with strict inequality signs is weaker in terms of stating the case clearly for a skeptic. Nø (talk) 17:45, 30 November 2024 (UTC)
- Agree that both versions are correct. My inclination from years of mathematical training is to use the simplest, most succinct statement rather than a more complicated one that adds nothing. So, I'm with Tito and D. here. Mr. Swordfish (talk) 18:24, 30 November 2024 (UTC)
- I think many mathematicians feel that "greater than or equal to" is the primitive notion and "strictly greater than" is the derived notion, notwithstanding that the former has more words. Therefore it's not at all clear that the "greater than" version is "simpler". --Trovatore (talk) 03:13, 1 December 2024 (UTC)
- The general case is "greater than or equal to", and I would support phrasing it that way. I think we don't need to explain why we say "or equal to"; just put it there without belaboring it. --Trovatore (talk) 03:06, 1 December 2024 (UTC)
- Certainly, both fomulations are correct. This sentence is here for recalling the definition of the notation in this specific case, and must be kept as simple as possible. Therefore, I agree with Tito. The only case for which this definition of ellipsis notation is incorrect is when the ellipsis replaces an infinite sequence of zeros, that is when the notation is useful only for emphasizing that finite decimals are a special case of infinite decimals. Otherwise, notation 0.100... is very rarely used. For people for which this notation of finite decimals has been taught, one could add a footnote such as 'For taking into account the case of an infinity of trailing zeros, one replaces often "greater" with "greater or equal"; the two definitions of the notation are equivalent in all other cases'. I am not sure that this is really needed. D.Lazard (talk) 14:46, 29 November 2024 (UTC)
- Misplaced Pages former featured articles
- Featured articles that have appeared on the main page
- Featured articles that have appeared on the main page once
- B-Class mathematics articles
- Unknown-priority mathematics articles
- Featured articles on Mathematics Portal
- B-Class Numbers articles
- Mid-importance Numbers articles
- WikiProject Numbers articles