Talk:Naive set theory

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Older discussion (2002–) is at Talk:Naive set theory/Archive 1

"In symbols, A ⊆ B means that A is a subset of B, and B ⊇ A means that B is a superset of A."

This seems wrong to me, since the direction of the symbol and the elements are transposed in the second phrase. A⊆B is probably the same as B⊇A, but not the same as B⊆A or A⊇B.

Please Check!!! Thanks ~~user:lenehey

I think it is right now, but I think it is very confusing. Could we change to something like: "In symbols A ⊆ B means that A is a subset of B and B is a superset of A, whereas A ⊇ B means that A is a superset of B and B is a subset of A." (Still me.) Lenehey (talk) 19:01, 6 August 2008 (UTC)[reply]

Another Mistake?

In the 2nd paragraph of the section entitled 'Subsets' is the sentence:

Some authors use the symbols "⊂" and "⊃" for subsets, ...

The symbols "⊂" and "⊃" appear identical to me. Is this a mistake? —Preceding unsigned comment added by 115.166.28.14 (talk) 07:07, 19 April 2009 (UTC)[reply]

If those symbols appear identical to you, there's a mistake in your browser or your fontset. How *do* they appear? If they both look like a little box, or a question mark, or some nonspecific thing like that, it probably means you just don't have a font that can render them. --Trovatore (talk) 08:17, 19 April 2009 (UTC)[reply]

Yes, they looked like boxes. I was using Internet Explorer. I have viewed the page subsequently in Firefox and can see that they render differently (like different facing sideways letter 'U'). Sorry for the distraction! —Preceding unsigned comment added by 115.166.28.14 (talk) 05:53, 23 April 2009 (UTC)[reply]

I realized very recently, thanks to conversation with another editor, that there are two meanings of "naive set theory". The first is the meaning intended by Halmos in the title of his book: a consistent, informal analogue of axiomatic set theory. The second meaning refers to the "naive conception of set" as any collection of objects that satisfy a well-defined property; this is the sense people mean when they say "naive set theory is inconsistent". This article is certainly about the former meaning of the word. I'd like to be a little more clear about this in the "requirements" section, but for the moment I just added a note while I think about how that section could be phrased. One option would be for me to write an article Naive concept of set and then say here that this is not what is intended. — Carl (CBM · talk) 20:02, 19 April 2009 (UTC)[reply]

It's rather worse than that, and frankly I don't like the way content is assigned to article names at all. See the "Formalist POV" section in the stuff you archived, and my subsequent proposal (which I never got around to trying to implement -- I think you did a bit of it at some point, but matters are still not satisfactory).

The name "naive", for non-formalized set theory pursued at the research level, is bad because you don't expect active research to be "naive", even if we can then quibble about how some (by no means all) workers use the word in a non-pejorative sense.

Because of that, the division of content gives the impression that workers in set theory no longer accept that there is a clear intuitive notion of "set" to which the axioms must conform, and instead have adopted the axioms themselves as primary.

I have other objections to your formulation of "any collection of objects that satisfy a well-defined property", since according to the contemporary realist approach, the objects satisfying certain properties simply cannot be "collected" at all. That being the case, extensions of these properties do not enter into the "any collection of objects" part of the phrase, and so do not cause inconsistencies. What you really mean is more something like "given any well-defined property, the collection of objects that satisfy it", where the inconsistency can be traced to the existential import of the word the. --Trovatore (talk) 21:00, 19 April 2009 (UTC)[reply]

I want to temporarily ignore all philosophical issues to just look at the overall organization.

We did merge axiomatic set theory and set theory at some point. The basic stuff is in set (mathematics), which does seem to overlap a lot with the basic stuff here.

One option would be, then, to merge the elementary set theory from this article to set (mathematics) and then reduce this article to just discussing the various meanings of "naive set theory" and point the readers to the other articles for the actual material about sets. We could use Halmos' preface to explain what he means by "naive", and I have some other citations for the other sense. — Carl (CBM · talk) 22:19, 19 April 2009 (UTC)[reply]

I noticed in the archive someone pointed at fr:Théorie naïve des ensembles. The lede to that article does head in the direction I am proposing. But the google translation really butchers it. — Carl (CBM · talk) 02:32, 20 April 2009 (UTC)[reply]

I support the idea of making this article a discussion of the different meanings of Naive set theory, and leaving actual treatment of sets to set (mathematics). The duplicate content is unnecessary. Cliff (talk) 16:20, 4 May 2011 (UTC)[reply]

In section 1 paragraph 3 of the article, "As it turned out, assuming that one can perform any operation on sets without restriction leads to paradoxes such as Russell's paradox and Berry's paradox.", shouldn't the "perform any operation on sets" be "define sets by unrestricted abstraction"? voidnature 08:48, 19 June 2011 (UTC)[reply]

Am I the only person who thinks the motivation for this article existing is a little weak. I mean couldn't we have a naive version of every mathematical area. It just seems dumb to me. 128.187.97.19 (talk) 18:13, 19 March 2012 (UTC)[reply]

The motivation for this article is that there's something called naive set theory (e.g. ISBN 0387900926) and we're describing it.--Prosfilaes (talk) 22:49, 19 March 2012 (UTC)[reply]

In section "Unions, intersections, and relative complements", there is the sentence: "For any set A, the power set P(A) is a Boolean algebra under the operations of union and intersection."

Evidently this relates to the "Boolean algebra" structure, a relatively advanced topic. Readers of the current article are likely only to be familiar with boolean algebra (as in the Boolean algebra article), which is not the topic of this sentence, and will find this sentence confusing and in any case not useful. I suggest removal. Gwideman (talk) 00:24, 27 August 2012 (UTC)[reply]

== Revising Naive set theory == Thompson (Neil Thompson 'Resolving Insolubilia: Internal Inconsistency and the Reform of Naïve Set Comprehension' Philosophy Study 2012 (2) ( 6) 417-431)) has suggested a means of revising Naive set theory that limits set comprehension by excluding set comprehension of sets isomorphic to Russell's set. Thompson claims that all paradoxes (save for Burali-Forti's and Goldstein's set schema which are excluded directly as contradictory descriptions) can be resolved in this fashion. The result is claimed to offer an ontology nearly as rich as that of Naive set theory.

This section keeps getting added to the article. I feel it's undue weight on one article and that it's misrepresenting this attempt to work around Russell's paradox as something fundamentally different from Zermelo–Fraenkel set theory or Quine's New Foundations, which it's not.--Prosfilaes (talk) 01:26, 1 May 2013 (UTC)[reply]

I also note that Philosophy Study is a journal found at http://www.davidpublishing.com/journals_info.asp?jId=680 , that the other articles posted in it are not mathematical articles, and that the publisher is not one of high repute; cf. http://chronicle.com/forums/index.php?topic=81342.0 . It's not a journal MIT gets, which brings up the question of whether anybody else does, and if anyone has seen it in the field to critique it.--Prosfilaes (talk) 01:49, 1 May 2013 (UTC)[reply]

I just edited the article (see diff) and changed the date of the first usage of ∈ from 1888 to 1889 (found the later date here and in the book „Mengen – Relationen – Funktionen“ by Ingmar Lehmann and Wolfgang Schulz). The date 1888 was introduced with this edit 2003 by an IP. Is there any reference for the usage of ∈ before 1889? Greetings, Stephan Kulla (talk) 20:21, 21 April 2014 (UTC)[reply]

Although probably not a reliable source, Earliest Uses of Symbols of Set Theory and Logic agrees with you on the date. It also claims the earliest date for the symbol ∉ is 1939 by Bourbaki. --Mark viking (talk) 20:47, 21 April 2014 (UTC)[reply]

To "In the sense of this article, a naive theory is a non-formalized theory, that is, a theory that uses a natural language to describe sets." I say, every theory uses a natural language to describe something. The formalization is done in a natural language, so there is always a natural language used. When in a formalized theory "The words and, or, if ... then, not, for some, for every" are "subject to rigorous definition", they are rigorously defined in a natural language. Cantors definition was a try to rigorously define the word "set"! 93.197.6.222 (talk) 20:44, 3 May 2014 (UTC) Thomas Limberg (Schmogrow)[reply]

Why did you call it "naive set theory" before I changed it, when you wrote "In naive set theory, a set is described as a well-defined collection of objects.". This is not naive! It's good work. It states "well-defined" so your paradoxes don't take effect. I have the feeling, you don't see the forest because of all the trees. After I changed it, it is a formalization of the term set. It rigorously defines it. The Zermelo-Fraenkel definition with all its axioms is not nesseccary. This definition here is better cause it generalizes the "set"-term. 79.252.242.192 (talk) 02:41, 4 May 2014 (UTC) Thomas Limberg (Schmogrow)[reply]

FYI, I have reverted all your edits. You are trying to insert your own thoughts (and to name them after yourself) into Wikipedia articles. This is original research, which is not allowed here. YohanN7 (talk) 13:42, 4 May 2014 (UTC)[reply]

But Wikipedia is so easy to use. Why is it forbidden to make research on it? 79.252.242.192 (talk) 13:51, 4 May 2014 (UTC) Thomas Limberg (Schmogrow)[reply]

It depends on what you mean. If Wikipedia is your subject of research, nobody will stop you. If you research in some topic that has a Wikipedia article, then you cannot use that article to promote your own research. The material in these articles should be verifiable. This means that they should have reliable sources. Reliable sources are usually third-party journals or books that cite the original research, itself presumably published in a reliable source. (And no, Wikipedia articles don't themselves qualify as "reliable sources".) YohanN7 (talk) 14:04, 4 May 2014 (UTC)[reply]

And look, it's not like I've published a book with 300 pages here. My thoughts are very short. There are talk entrys which are much longer and you have probably read some of them. In my eyes it doesn't make a difference just because it's original research. Did the high degree academics forbid you to think on your own? Ohhhhh! Poor you! 79.252.242.192 (talk) 14:09, 4 May 2014 (UTC) Thomas Limberg (Schmogrow)[reply]

Please don't edit old comments of yours.

Original research made directly into articles is almost always pure BS. The rules are there to keep the BS away for the benefit of the readers and for the integrity of the articles. YohanN7 (talk) 14:19, 4 May 2014 (UTC)[reply]

Hm maybe, but with your attitude you make it impossible for me to win. And I can tell you I've never tried to do original research on WP before, so I think you should give me a chance. Let me reduce it to two very short questions: 1. Do you see, too, that it (the Limberg-definition) avoids the paradoxes, too? 2. And do you see, that it is a general definition in contrary to the Zermelo-Fraenkel theory? 79.252.242.192 (talk) 14:29, 4 May 2014 (UTC) Thomas Limberg (Schmogrow)[reply]

See, it's really not much to check. 79.252.242.192 (talk) 14:45, 4 May 2014 (UTC) Thomas Limberg (Schmogrow)[reply]

Greetings Thomas Limberg: Sorry to interrupt, but I thought I could help expand on some of what YohanN7 has said. It's true that Wikipedians at the WP:Mathematics project adhere to strong rules about what may be included and how well it must be cited. The level of caution used sometimes surprises newcomers in the way it seems to have surprised you. But trust us, this caution is for good reason.

One of the core ideas about Wikipedia is that it is an encyclopedia, and as such it should be founded upon reliable secondary sources. By reflecting such sources, this increases its reliability and insulates it from people abusing it as a means to promote themselves. If you are serious about making good contributions to Wikipedia, then surely you will recognize the wisdom in such precautions.

I know this can be difficult and/or frustrating at first, and a lot of us have passed through this phase of acclimating to the culture of editors here. It's not so bad after you get the hang of it :) In the meantime, please do not engage in making any more unconstructive remarks with other editors. (Again, I know this is sometimes easy to do :) ) You must remember that anybody can see what you're saying, and behaving so will ultimately attract negative attention from the community, and this can lead to inconvenient punishments, if bad behavior persists. Ok, that's all I have to say: good luck, and happy editing! Rschwieb (talk) 15:29, 4 May 2014 (UTC)[reply]

Yeah, yeah, you want me to not change the article anymore. That's acceptable for me. It's just that I have read that naive set theory (I don't like it that it's called naive) is refused because it creates inconsistancies or is unclear. But this definition here (that I've called after me) seems to not create inconsistancies, because they are avoided by the word "well-defined" in the definition. And I can't imagine what shall be left unclear in the definition, especially after I improved it a little. I don't know why everyone is holding so much of Zermelo-Fraenkel set theory. In contrary to the Limberg-definition it doesn't generalize the "set"-term. They invent 10 axioms and they still can't answer the question if there is a cardinal between aleph 0 and aleph 1, because of definition problems. With a general "set"-term one could solve this problem. So I don't understand why researchers don't try to improve naive set theory and instead are stuck on ZF-ST. For me the Limberg-definition is a formalization of the "set"-term. What is unclear about this definition? I don't understand it. When you claim it was unclear, then you shall reason it somewhere. Just because some naive set theorys turned out to be inconsistent or unclear doesn't imply that you can't create one that fulfills your requirements! So what is wrong about the Limberg-definition? Or can I read about this kind of questions somewhere? 79.252.242.192 (talk) 20:06, 4 May 2014 (UTC) Thomas Limberg (Schmogrow)[reply]

Yes, here: Gödel's incompleteness theorems. In fact, the very moment you claim you have a definition of set theory, free of paradoxes—as a consequence of the definition itself, your claim (if true) implies that your theory is inconsistent, able of proving 1 = 0, hence containing paradoxes. YohanN7 (talk) 21:15, 4 May 2014 (UTC)[reply]

Not the place to discuss it. This space is for discussing improvements to the article. Thomas, might I introduce you to the mathematics reference desk? You can ask questions there, and get pointers for clarification. --Trovatore (talk) 21:21, 4 May 2014 (UTC)[reply]

So you claim that out of the Limberg-definition follows that 1=0? Sorry, I can't follow you. I can't imagine how this could have been done. 79.252.242.192 (talk) 21:35, 4 May 2014 (UTC) Thomas Limberg (Schmogrow)[reply]

This is not the place to discuss it. So stop discussing it. Otherwise the section will be removed. See WP:TALK. --Trovatore (talk) 21:37, 4 May 2014 (UTC)[reply]

Oh, I am discussing improvements to the article! I said that every set theory uses natural language to describe sets. It is only then non-formal, when this natural language contains unclearances or even inconsistancies. So I will improve now the article. 93.197.8.254 (talk) 10:23, 5 May 2014 (UTC) Thomas Limberg (Schmogrow)[reply]

In section "Sets, membership and equality" you give an explanation of the "set"-term and you state that it is naive set theory. So I want you to show the reader at which point this explanation is unclear or even inconsistent. 93.197.8.254 (talk) 10:29, 5 May 2014 (UTC) Thomas Limberg (Schmogrow)[reply]

But since the explanation of sets you've given here is not the top of the ice mountain of "general" set definitions (that is how I would call it, in contrary to e.g. Zermelo-Fraenkel, which I would call "specific" or maybe "constructive"), I want you to use the Limberg-definition ("http://en.wikipedia.org/wiki/Wikipedia:Reference_desk/Mathematics#continuing_discussion_about_Naive_set_theory") instead, which just contains some improvements to the explanation here, and show that there are unclearances or even inconsistencies in it. 93.197.8.254 (talk) 10:39, 5 May 2014 (UTC) Thomas Limberg (Schmogrow)[reply]

You have to do something! YohanN7 is starting to insult me! He writes that when a theory is consistent then he can show that it leads to 1 = 0, though. That's so stupid! Stop him! ("http://en.wikipedia.org/wiki/Wikipedia:Reference_desk/Mathematics#continuing_discussion_about_Naive_set_theory") 93.197.8.254 (talk) 10:57, 5 May 2014 (UTC) Thomas Limberg (Schmogrow)[reply]

I can see that you are up to it again.

• From your edits, it is clear that you don't know what modern informal (naive) set theory is. It does not "allow" for inconsistencies or ambiguities. It can't just prevent them. It has absolutely nothing to do with formal or informal languages. But formal axiomatic theories cannot "prevent" all possible inconsistencies either (some are prevented), tough they can prevent ambiguities.
• It is not for me, or anyone else, to 'show that your theory is inconsistent. [You fail to understand that you can't show it to be consistent either (unless it is, in fact, inconsistent). But this discussion, as Trovatore has pointed out, doesn't belong here.]
• Your biggest mistake is that even if you were right, your material would not make it to the article. It has been explained to you why above. YohanN7 (talk) 11:02, 5 May 2014 (UTC)[reply]

Oh boy, what are you talking?! You wrote "From your edits, it is clear that you don't know what modern informal (naive) set theory is.". Maybe, I've just read the article in the hope you would explain it to me correctly. But it seems I've expected too much. The artiucle says "a naive theory is a non-formalized theory". Formal means that you rigorously define the terms you use. You prevent Inconsistencies and ambiguities. So non-formal means you couldn't prevent this to happen. So when I apply the explanation of "naive" from the article then my edits are correct. Furthermore, you wrote "But formal axiomatic theories cannot "prevent" all possible inconsistencies either (some are prevented)". Really? But when these formal axiomatic theories are inconsistent then you have to discard them and say that you are not able to define the "set"-term. 93.197.8.254 (talk) 11:36, 5 May 2014 (UTC) Thomas Limberg (Schmogrow)[reply]

Dear Thomas Limberg: Let's do our best to de-escalate the tone of the discussion. ThomasLimberg, you can rationalize your edits with your homemade reasons until you are blue in the face; however, none of it matters. Remember that we only reflect information from established sources, not from reasoning on our own. The quickest way to bring editors around to your side is to point to a strong reference (or better yet three such references) that support the idea you want to include. In the face of good references, your opponents will usually disappear, but if you continue to behave combatatively with editors, you will mainly gain opponents. These are all logical consequences, correct? Rschwieb (talk) 16:17, 5 May 2014 (UTC)[reply]

Oh no, you got it wrong! In that item that you answered on it was not about doing research. I was complaining about a logical inconsistancy in the article (and I can ask as well, where is the source of this statement). I didn't bring new ideas in the game, I was questioning existing ones. 93.197.8.254 (talk) 17:25, 5 May 2014 (UTC) Thomas Limberg (Schmogrow)[reply]

I renamed the section "Requirements" to read as above.

Already present was remarks that naive set theory isn't necessarily inconsistent. I added a paragraph about axiomatic set theory not being necessarily consistent. This should remove the possibility of some (but far from all) misunderstandings.

It is probably too much to include statements to the effect that solely requiring a set theory (naive or axiomatic) to be well-defined isn't enough to ensure the existence of a consistent set theory, which seems to have been Thomas Limberg's motivation for his edits. It might, if formalized, produce a theory of something, but nothing as powerful as set theory (because Gödel says no). The place to discuss this is not here, I know, but Thomas Limberg's concern may have been for the best of this article, and I hope he thinks my last edit at least didn't make it worse. YohanN7 (talk) 21:33, 5 May 2014 (UTC)[reply]

"requiring a set theory (naive or axiomatic) to be well-defined isn't enough to ensure the existence of a consistent set theory", I've told you I don't insist on that. "which seems to have been Thomas Limberg's motivation for his edits", no that is not nesseccary for the motivation of my edits! I don't have to state that it's consistent. You're the one who states that it's naive. I want you to take over my little improvements, leave out the word "well-defined" and then you can say that it's a naive theory. Now that there is still the word "well-defined" in it, I wouldn't call it naive. That seems wrong to me! 93.197.47.238 (talk) 05:04, 6 May 2014 (UTC) Thomas Limberg (Schmogrow)[reply]

From one of your first posts;

...This is not naive! It's good work. It states "well-defined" so your paradoxes don't take effect. I have the feeling, you don't see the forest because of all the trees. After I changed it, it is a formalization of the term set. It rigorously defines it.... (my emphasis)

You have been insisting on your theory being consistent, free of paradoxes, all the way.

On the "naive" issue. You don't understand how the terminology is supposed to be used in this article. There is no correlation at all between "not well-defined" and "naive" and "inconsistent". You should read "naive" as "informal formal set theory". This is the message of the section. YohanN7 (talk) 12:30, 6 May 2014 (UTC)[reply]

who wrote this crap? Ah, YohanN7 again. "so your paradoxes don't take effect", which paradoxes do you think I mean? I didn't write all or any paradoxes. I mean the Russel-paradoxon for example and other known paradoxes that they have found already, of course! "informal formal set theory", that's a contradiction in itself. You're talking stupid! When you can't show an inconsistency in a set theory, you shouldn't call it naive. That's unserious or even discrediting! I could as well define "this article is BS". You already have a word (non-formalized) for your purpose so why don't you use it instead? 93.197.47.238 (talk) 09:40, 6 May 2014 (UTC) Thomas Limberg (Schmogrow)[reply]

Informal formal set theory is not a contradiction. Almost all of mathematics is written informally, but in a formalizable way. For a typical example, see Naive Set Theory (book).

Naive set theory is not necessarily inconsistent, it is just not axiomatic or "formal" in that it doesn't refer to a particular axiomatization – or is particularly concerned with the consistency issues.

Finally, I can see that you have gone back to your habits of editing old comments of yours and changing the meaning of what you have written earlier, denying what you have actually said. (And oh, the insults; if there weren't there to begin with, you add a couple later.)

I hope you realize that I'm being incredibly patient with you. Most others wouldn't put up with the "stupid, hallucinating, etc", and you would sure as hell be indefinitely blocked by now.

Advice: Don't address anyone else but me this way. YohanN7 (talk) 12:30, 6 May 2014 (UTC)[reply]

Informal formal set theory is a contradiction!!! The word formal and informal are commonly used words which are contradictory. You're unscientific again! When you use these words with a different definition, you have to refer to this definition somehow, e.g. by giving the source (before you use these words, not after it)! And formal and formalizable are two different things for me, too. Furthermore, "Naive set theory is not necessarily inconsistent,", it is according to the German Wikipedia. Sometimes I reedit my posts, but very quickly after I wrote them and I don't change the meaning later or add insults. You're lying again! 93.197.47.238 (talk) 13:37, 6 May 2014 (UTC) Thomas Limberg (Schmogrow)[reply]

You seem to be unaware of the fact that English words have different linguistic and mathematical interpretations. I don't have to give a source because this is assumed (by all reading this talk page) to be known. It is common practice i mathematics.

Formal and formalizable are indeed different things, linguistically and mathematically.

Wikipedia isn't a reliable source, not even the German version. The Germans have, on occasion, historically been known to be wrong, at least, they have failed to achieve final consensus about their POV.

Yes, you almost always change the meaning of your posts, mostly refusing to acknowledge what you have written, like in your last post in the reference desk (not a reply but a "reaction""). I was almost rolling off the floor with laughter.

Yes, you add insults to your comments later on, like the one above. (You have to produce a diff to see it, not gonna do that for you, but for anyone else that wants to see.)

And a fresh insult from you.

Do you still feel that we should name set theory after you? YohanN7 (talk) 14:08, 6 May 2014 (UTC)[reply]

There are mathematical words with a different meaning than the linguistic ones that are commonly known and accepted, like e.g. set. But I haven't heard of a commonly known and accepted mathematical meaning of formal or informal! They might be defined differently in different sources. In the wikipedia article about set theory you don't find an explanation of "formal set theory". It is not so common. So I expected the linguistic meaning.

What you write about that I would change my posts is just crap! You're hallucinating again! Yes I added the "You're hallucinating", but this is just 1 min after I posted the entry. You needed half an our to answer on my last post.

Crap or not: Do not ever go back and change your earlier posts for whatever purpose unless you sign it, making it a NEW post. This includes adding insults that you forgot to add the first time around. YohanN7 (talk) 11:03, 7 May 2014 (UTC)[reply]

"Do you still feel that we should name set theory after you?", I nevewr demanded that! You can improve the set definition in the article to the Limberg-definition and name it after me. That's all I wanted. 93.197.47.238 (talk) 16:29, 6 May 2014 (UTC) Thomas Limberg (Schmogrow)[reply]

Yes, I admit. All you wanted is to change Cantors definition of a set and name it after you. And, to note that your brilliant contribution gives a set theory guaranteed to be without paradoxes. (Quite humbly, you didn't want this set theory named after you.) But why should we? Have you been published and cited in scientific journals mora than Cantor? YohanN7 (talk) 11:03, 7 May 2014 (UTC)[reply]

I would even be stricter. I would define the word naive to refer to an inconsistent theory. When it's just ambiguous, some will say it's inconsistent, some will say you can't say that. When you can't say that it's inconsistent, why calling it naive? In fact it is defined like that in the German Wikipedia. Why do you use a different definition? The only use of natural language is definately not enough to call it naive since you can formulate ZF in natural language, too. So stop that! You see, in fact, you're the ones who are not enough into the topic! 93.197.47.238 (talk) 05:25, 6 May 2014 (UTC) Thomas Limberg (Schmogrow)[reply]

And now my conclusion of above is confirmed. I actually agree with you here. I don't like the usage of the terminology either. But the article reflects the de facto usage of the term in the English-speaking world. You can probably blame Paul Halmos and his Naive set theory for this. But believe me, the terminology introduced by you into the article, "Thomas Limberg (Schmogrow) set theory", would be even worse. YohanN7 (talk) 09:24, 6 May 2014 (UTC)[reply]

"But the article reflects the de facto usage of the term in the English-speaking world", maybe some stupid students or even very few scientists of the history use/used it like this. That doesn't matter. It's wrong so you have to change it! "the terminology introduced by you into the article, "Thomas Limberg (Schmogrow) set theory", would be even worse.", you didn't tell me, yet, what's wrong about the Limberg-definition! 93.197.47.238 (talk) 10:24, 6 May 2014 (UTC) Thomas Limberg (Schmogrow)[reply]

Let us not argue about the Limberg-definition for the moment. You know it can't go into the article by now, and you know why. Even if it were the Holy Grail of Mathematics, able to prove or disprove the Continuum Hypothesis as you have hinted it would, it wouldn't make the article, at least not for now.

Your other point, "It's wrong so you have to change it!" (the terminology) is something that should be taken seriously imo. I would have preferred to have an article (basically with the present content) called "Informal set theory", leaving a sidenote somewhere on the "Naive" alternative terminology. If, as you say, the German article treats "Naive" as "Inconsistent", then we have a cross-Wiki problem. YohanN7 (talk) 10:28, 6 May 2014 (UTC)[reply]

"You know it can't go into the article by now", it is in the article already (except some little improvements). If you don't wanna call it Limberg-definition, hm, then they can't refer to it. I guess I can't force it upon you, I just wanted to say, I would find it better. Let's go on. The German Wikipedia says, "Der Begriff „naive Mengenlehre“... . Wegen Widersprüchen, die sich in ihr ergeben...", which means (The term "naive set theory"... . Because of contradictions which occured in it...). I mean the article also says that not rarely the term naive is used differently from the German Wikpedia usage in math literature. But as I have pointed out, it's unserious and the German Wikipedia doesn't use it like that. 93.197.47.238 (talk) 11:19, 6 May 2014 (UTC) Thomas Limberg (Schmogrow)[reply]

I told you, I agree with you on this.

I have now addressed the "well-defined"-issue. I wrote a mini-section on it. Better now? At least the internal usage (in the article) of the terminology cannot be misunderstood. Removing "well-defined" all together is not and option, because the article is not an article on inconsistent theories. "Badly-defined" sets are not allowed in the naive set theory we speak of here.

It remains to clarify that Cantors version of set theory is an informal (called naive in the article) set theory, and not an known-to-be inconsistent set theory. YohanN7 (talk) 11:44, 6 May 2014 (UTC)[reply]

"the article is not an article on inconsistent theories", the German Wikipedia says that naive means inconsistent, and that's what I believe, too. If you still insist to not change your definition of naive in this article, then according to your definition, the "set"-term definition in the article is informal (in the sense of not containing formal axioms) and hence naive. But I've told you, that is unserious and (in my eyes) discrediting to e.g. the Limberg definition. Furthermore, "so this does not at all hamper the utility of naive set theory as compared to axiomatic set theory" (added mini-section) sounds good to me. 93.197.47.238 (talk) 16:04, 6 May 2014 (UTC) Thomas Limberg (Schmogrow)[reply]

Did you just say Furthermore, "so this does not at all hamper the utility of naive set theory as compared to axiomatic set theory" (added mini-section) sounds good to me.?

Wow!

Perhaps it would be tolerable to you to have different definitions of "naive" in German and in English. I agree with you that the English (mathematical) definition sucks. Not much to do about this though, since we are supposed to be reflecting what the English-speaking mathematical community (including "stupid students", "very few scientists of the history" and the like) think. They are supposedly in the majority, but I don't know. I am going to start a new thread right away. YohanN7 (talk) 17:14, 6 May 2014 (UTC)[reply]

To those scientists who define in their work the word naive like it was done here in the article: I define: Your work is crap! Now, YohanN7, tell me, are you sure, you still wanna consider these works for this article, since I have proven it to be crap? 93.197.47.238 (talk) 18:10, 6 May 2014 (UTC) Thomas Limberg (Schmogrow)[reply]

No no, Thomas, you have misunderstood again. You have not proven anything at all. Which "works" are you referring to by the way? YohanN7 (talk) 18:55, 6 May 2014 (UTC)[reply]

"You have not proven anything at all", don't you get it?! I've defined it so it's proven. "Which "works" are you referring to by the way?", OMG you're so lame! Is this discussion so exhausting for you that you can't read anymore?! 93.197.19.94 (talk) 03:24, 7 May 2014 (UTC) Thomas Limberg (Schmogrow)[reply]

Yes it is. I have never been nanny to a crank before. Now, which works are you referring to, and what definition are you referring to? YohanN7 (talk) 19:57, 6 May 2014 (UTC)[reply]

Now shut the hell up!!!!! (with your ongoing insults) I already had the feeling that you don't listen to me. How shall I discuss with you when you can't even read my posts?! "Now, which works are you referring to, and what definition are you referring to?", read my posts!!!!! It's all in there and easy to find. 93.197.19.94 (talk) 03:24, 7 May 2014 (UTC) Thomas Limberg (Schmogrow)[reply]

I'm the only one here actually listening to you. YohanN7 (talk) 10:14, 7 May 2014 (UTC)[reply]

Section "Note on consistency", "It does not follow from this definition how sets can be formed, and what operations on sets again will produce a set.". Yes it does. I can say for example: Let M be the set of the numbers 0 and 1. That's legitime by the definition. Where's the problem?! 93.197.19.94 (talk) 08:27, 7 May 2014 (UTC) Thomas Limberg (Schmogrow)[reply]

So far you have actually proved nothing, but read on.

Do you explicitly include axiom of pairing in your theory or do you prove from more primitive assumptions?

Do you explicitly include axiom of union in your theory or do you prove from more primitive assumptions?

Do you explicitly include axiom of your choice of ZFC axiom here in your theory or do you prove from more primitive assumptions?

Do you explicitly include ....?

For example, in your "theory", given my experience with you, I am guessing that you would say that, for instance, the axiom of choice is obviously true. I'm afraid that this will not pass as a proof. You must formalize them, using basic assumptions (using your "definition of "set" presumably) only. Then they will be proofs. YohanN7 (talk) 10:14, 7 May 2014 (UTC)[reply]

If you don't explicitly include any axiom of ZFC and manage to explicitly prove all of them, then I congratulate you. The only real problem for your theory is that Gödel's incompleteness theorems then shows that your theory is inconsistent. Not maybe inconsistent, but definitely inconsistent.

Do you now see? A positive proof of yours will only ruin your theory. YohanN7 (talk) 10:14, 7 May 2014 (UTC)[reply]

Finally, if you miraculously manage to prove Gödel wrong, then your theory still don't qualify for inclusion in Wikipedia because it would be original research. This is back to square one. This is what has been patiently explained to you over and over, by me and others. During the process, you have spewed bad language, mostly at me (which is the reason you are still not blocked, because I can take it), but also at others, firmly refusing to acknowledge anything someone tells you. This is why I call you a crank (person). You qualify as a crank. This is semi-insulting, but considering that it is provably true(our conversation proves it), and considering what you have called me (stupid, hallucinating, retarded, ...), I don't have second thoughts about it. YohanN7 (talk) 10:14, 7 May 2014 (UTC)[reply]

This article often falls into the academic "we," which I don't believe is considered best practice on WP. If somebody wants to take the time and effort to clean that up, that'd be great. 129.237.189.235 (talk) 22:24, 8 May 2014 (UTC)[reply]

Yes, certainly. Are you that somebody? Then WP:SOFIXIT whenever they lift the semi-protection (or you get a real account). YohanN7 (talk) 23:04, 8 May 2014 (UTC)[reply]

I've removed the "we" language where possible and appropriate in most of the article. I've tagged the "Paradoxes" section with {{tone}}, since it might need some editing beyond simple removal of the "we" language; altering the wording to something that is less discussion-like might be beneficial and also take care of that issue. --Kinu ^t/_c 17:29, 9 May 2014 (UTC)[reply]

I note that {{tone}} refers to Wikipedia:Writing better articles which states at WP:TONE: As with many such guidelines, however, there are exceptions: for instance, in professional mathematics writing, use of the first person plural ("we") as "inclusive we" is widespread. Deltahedron (talk) 09:05, 10 May 2014 (UTC)[reply]

It is widespread, even standard in mathematical writing. Whether our articles are mathematical writing, I don't know, but they are no textbooks by another WP:XYZ, and I personally think the "we" style doesn't sound encyclopedic, and it sounds very textbooky for sure. At any rate, mixing two styles in an article is a no-no. YohanN7 (talk) 10:36, 10 May 2014 (UTC)[reply]

I've found in my own writing that removing "we", while sometimes challenging, often leads to better prose. While it takes some effort, and while I feel no need to be dogmatic about "we"'s use, I do think it's best to avoid. Ozob (talk) 14:40, 10 May 2014 (UTC)[reply]

I rewrote Paradoxes completely. YohanN7 (talk) 10:53, 11 May 2014 (UTC)[reply]

I have made several changes. I have made Cantor's theory appear in a better light, backed up with sources fairly rigorously. Unfortunately, I managed to have, in the process, made Gottlob Frege look worse. I don't think he deserves that. Please help me think of better formulations. YohanN7 (talk) 16:13, 10 May 2014 (UTC)[reply]

Now Frege gets to share the dishonor with Peano and Dedekind. YohanN7 (talk) 10:56, 11 May 2014 (UTC)[reply]

Then there is our paradoxes article. It states (in the lead) "(Russel) ...and showed that naive set theory was flawed." Is this article on a flawed theory? Houston, we have a problem! YohanN7 (talk) 16:13, 10 May 2014 (UTC)[reply]

Among the problems we have is that the assertion at Paradox, that "Russell's paradox [...] showed that naive set theory was flawed." is, well, flawed. Firstly, the source cited appears to be an undergraduate dissertion which we would not normally regard as a reliable source: see WP:SCHOLARSHIP. Secondly the source states clearly that Russell found an inconsistency in Frege's axiomatic set theory. A later remark is "the (naïve) set theory of Frege leads to a contradiction". So the source, if reliable, only supports the claim that one particular naive set theory is flawed. The distinction between an axiomatic theory and a naive theory is not resolved. Deltahedron (talk) 11:09, 11 May 2014 (UTC)[reply]

I agree. Someone ought to edit the paradox article.

Another, rather curious, observation. The naive set theories observed to be paradoxical are, in fact, all, at least partly, axiomatic. How else can you show a paradox? Example: Cantors theory is naive. Cantors theory + unrestricted comprehension is paradoxical. I doesn't follow that Cantors theory is flawed, only incomplete. Then again, even ZFC is incomplete.

All set theories (naive and axiomatic) seem to be on footing. There is no sharp distinction, just varying degree of axiomatization.

An attempt to classify set theories would be into the decidedly inconsistent ones and the maybe consistent ones. The theories in the latter category are all more or less naive (or less or more axiomatic, if you prefer). YohanN7 (talk) 12:24, 11 May 2014 (UTC)[reply]

An aside: "How else can you show a paradox?" A "paradox" is not the same as "logically inconsistent argument". At its most general, a paradox is a conflict between expectation and observation (broadly interpreted), and the existence of an axiomatical treatment is not essential. Many paradoxes arise from situations in which intuitions are shown to be incompatible with theory or experiment. Monty Hall is a classic in this respect. — Preceding unsigned comment added by Paradoctor (talk • contribs) 13:27, 11 May 2014 (UTC)[reply]

Good point. This is another parallel of the inconsistent—naive—axiomatic terminological problem. But this one is simper. A "paradox" in this article the same as "logically inconsistent conclusions" (like 1 = 0) inferred by correct application of the "usual" laws of logic (or formalize this if you want). We just need to point it out. Many use "antinomies" istead of "paradoxes" here. But the named antinomies have all , well, "paradox" as a part of their name. YohanN7 (talk) 13:56, 11 May 2014 (UTC)[reply]

• It may help to quote Keith Devlin from the introduction to Fundamentals of Contemporary Set Theory:

Starting with the naive theory of Chapter I we begin by asking the question "What is a set?" Attempts to give a rigorous answer lead to the axioms of set theory

— Keith Devlin, Fundamentals of Contemporary Set Theory, 1979

OK, on rethinking it, even I don't support the proposed move to informal set theory. I thought it had possibilities at first, but with a little reflection, it doesn't really address the problem.

So can we close that and move on? Preferably before the semi-protection expires, so we don't have to deal with a certain noisy contributor? As unfortunate as the manner was in which it was brought up, there still is (at least one) problem.

The issue is that the term naive set theory is used in at least four ways:

1. To mean "all early set theory" (say, before Zermelo's work on formalization).
2. To mean Cantor's set theory specifically (this probably subdivides; Frápolli at least argues that there are at least two phases of Cantor's thought that should be distinguished).
3. To mean set theory that is vulnerable to the classical antinomies.
4. To mean "all set theory done in natural language".

I can identify two significant issues related to having an article called naive set theory, and they relate to different subsets of the above four. One is a POV problem; one is just more of a confusion.

The POV problem comes from conflating meaning number 3 (set theory vulnerable to the antinomies) with some or all of the others (especially with Cantor's theory).

The problem that's more of a confusion is brought into focus by reading many of the "oppose" !votes in the above discussion, where contributors say that naive set theory is the common name for "this". Most of them don't specify what "this" is, but seem to mean number 4, "all set theory done in natural language".

But for meaning number four, we might as well just redirect the title to set theory, because ALL set theory at the research level is done in natural language. Zero point zero zero zero percent of it is done in formal first-order logic. (That's for human mathematicians, of course; automated theorem provers may well work in formal first-order logic, but to my knowledge they are not yet producing new set theory at the research level.)

So what to do with the article? My suggestion — make it about the phrase "naive set theory", as I suggested somewhere in the archives. Then we can treat the four meanings without conflating them, and discuss the issues related to them, without implying that the phrase has a single well-specified referent. --Trovatore (talk) 01:08, 15 May 2014 (UTC)[reply]

What is the reader expecting? Is he expecting a classification of naive set theories into well-defined categories?

Some will come here to read about unions, power sets, etc, others come here to read about the classical paradoxes (yes, I know, antinomies, but paradox is part of their respective names anyway). Probably relatively few are interested in whether Cantor's version i or version ii were naive and/or whether they ought to be, or even are called naive. [From what I gather from the German Wikipedia (Google translated), Cantor, at least later on, did have some concept of a class in his arsenal. At least he had a name for them. Perhaps something for the article to mention.]

If we include "all set theory done in natural language", then we need Berry's paradox and similar paradoxes here. I think they should go in anyway to err on the side of inclusion rather than exclusion.

I think the present article does include all four of your items, although it isn't subdivided into and labeled according to them. Also, the article is pretty clear on were the classical antinomies come from (unrestricted comprehension), first early on (subsection Paradoxes) and the final section (Paradoxes again).

I'm not clear on what your suggestion means in full. It could be read as if we should throw out the current meat of the article (union, power set, etc) and keep (reorganize and rewrite) what is necessary to disambiguate the phrase "naive set theory". YohanN7 (talk) 18:25, 15 May 2014 (UTC)[reply]

It's not a subdivision. These are four things that have not much in common except for the name. Oh, of course 2 is a subset of 1, and 1 and 3 have some overlap, but the point is that the term "naive set theory" is, not just a "little" ambiguous, but has referents that do not naturally share an article at all, unless it's an article about the phrase. --Trovatore (talk) 19:51, 15 May 2014 (UTC)[reply]

If it is not a proposed subdivision (of the article), then I understand even less than I thought: Lead: ... The term naive set theory can meany any of the following: (list)... . Article body: A section each on the items in the list and probably one on paradoxes (as to not conflate). Nothing else. But apparently you have something else in mind. YohanN7 (talk) 20:27, 15 May 2014 (UTC)[reply]

Here's the point: The term has been used in various distinct ways, but not everyone agrees that all the ways are actually different. Some people, for example, take the view that Frege correctly formalized Cantor's theory, and that Cantor's theory was vulnerable to the Russell paradox; others do not. That's what needs to be discussed in the article. To some extent, it is discussed in the article. The real problem is not that it is not discussed; it's that the article is not worded in such a way as to make it clear up front that there is a discussion to be had.

Right, now I'm with you. There is the formulation "Some people believe that Cantor's theory wasn't ...". While we do let Cantor "defend himself" through the letter quotes later in that paragraph, it's not clear to the reader that there is disagreement here. I can't contribute anything here because I don't know much about the disagreement (except for its existence). YohanN7 (talk) 21:01, 15 May 2014 (UTC)[reply]

By the way, it occurred to me later that I had missed out a fifth meaning. I think some people use "naive set theory" to mean something more like "elementary set theory"; basically the Venn-diagram stuff. Basically where you have individuals, and you have sets, and you never really consider whether a set might be an individual itself and an element of another set. It could be formalized as a two-sorted theory, with one sort for urelements and another sort for sets of urelements, and there are no pure sets at all except for the empty set. That strikes me as a fine topic for an article by itself — but one that would have no reason to mention the paradoxes. Is that the meaning that most of the COMMONNAME !voters had in mind?? If so, that changes the discussion considerably. --Trovatore (talk) 20:42, 15 May 2014 (UTC)[reply]

This is what I think some readers will expect to find here. Sets with cats and dogs, intersections and unions…. YohanN7 (talk) 21:01, 15 May 2014 (UTC)[reply]

Yes, quite so. I think it might be worth having a standalone article on that topic. That article would have no need to mention the paradoxes except in passing. --Trovatore (talk) 21:05, 15 May 2014 (UTC)[reply]

Is that topic covered by Set (mathematics)? Paul August ☎ 14:08, 1 February 2016 (UTC)[reply]

Hmm, more or less, I think. Is it the "common name" referent for "naive set theory"? If not, what is? I still don't think it has been established what topic this article is, or should be, about. --Trovatore (talk) 07:52, 2 February 2016 (UTC)[reply]

Unfortunately, as you have pointed out above, the term "naive set theory" is ambiguous, and has been used to mean different things. Any article then, under this name, should discuss all those different meanings (though I suspect some will be difficult to source). And by the way I think that most people looking for an article on "naive set theory" will be sophisticated readers who will not be looking for the content in Set (mathematics) or say Set (mathematics). Paul August ☎ 11:29, 2 February 2016 (UTC)[reply]

Is there a reliable source for the usage (3), that "naive" means "inconsistent"? It may be a fact that all naive set theories are inconsistent, but so may non-naive theories. References, please. Deltahedron (talk) 20:08, 15 May 2014 (UTC)[reply]

OK, first I want to know what you mean by "naive set theory". You are one of the people who said, in your argument against the move (I'm not arguing that point; I also ultimately opposed the move), that naive set theory was the "term of art", without really saying what it's the term of art for. Can you please clarify what the topic actually is, in your opinion? If we can make that clear, then the article could maybe be saved, with perhaps a hatnote for other uses. --Trovatore (talk) 20:18, 15 May 2014 (UTC)[reply]

We go by what can be verified from independent reliable sources. I asked an entirely specific question about a statement you made, and I assume you had a reason for making it: if you know of sources that use meaning (3) on the list, please cite and quote them. I go by the usage of Halmos and Devlin which I cited and quoted above. Halmos used NST as the title of a book, of course, and it's pretty clear that he did not set out to write a book on the subject of inconsistent set theory. Deltahedron (talk) 20:30, 15 May 2014 (UTC)[reply]

Delta, please don't lawyer me. We're not fighting here. I'm just trying to understand what you mean by it. I don't have specific sources to hand, but the term "naive set theory" turns up all the time in a discussion of the paradoxes.

As for Halmos' usage, I haven't ever gotten around to reading his book, but his description of "naive set theory" is as far as I can tell indistinguishable from just plain "set theory" as actually practiced by researchers in the field. If I am wrong about that, can you please clarify what the distinction is? --Trovatore (talk) 20:45, 15 May 2014 (UTC)[reply]

I'm not fighting but it seems as if you are. I asked you (twice) to support statement (3) with sources and you refused to answer. My opinion is irrelevant. What counts is the usage of reliable sources that we can use to write the article. So once again, is there a source that equates the terms "naive" and "inconsistent", or is it just your personal opinion? Deltahedron (talk) 20:56, 15 May 2014 (UTC)[reply]

I do not know of any such source. I suspect they're out there. But to be clear, I am not equating "naive" and "inconsistent". I am just trying to figure out what the topic of the article is and/or should be. I believe that some people equate "naive", if not with "inconsistent", then at least with "includes unrestricted comprehension" or some such. If not, then well and good, we can leave that out of the article — but then we really don't need to mention the paradoxes at all, do we? --Trovatore (talk) 21:01, 15 May 2014 (UTC)[reply]

I think Hausdorff used the term as early as 1915, but I'm not sure. He the probably meant "vulnerable to classical antinomies" because that was pretty much all there was to chose from. You are not going to find it as a definition in any book, like in "a set theory is a naive set theory iff..." The concept is too murky for that. Halmos' book was mistitled anyway (according to himself as well) and does not define the term unambiguously. YohanN7 (talk) 20:48, 15 May 2014 (UTC)[reply]

Why was that "all there was to choose from"?? Cantor's theory as described in Jourdain's 1915 translation (Contributions) does not seem to be vulnerable to the classical antinomies. --Trovatore (talk) 20:55, 15 May 2014 (UTC)[reply]

"Pretty much all there was to chose from" because it was 1915, and I didn't say Cantor's theory is vulnerable to antinomies. I don't know if Hausdorff did either. But there were theories out there definitely vulnerable to these antinomies. What else could Hausdorff possibly have in mind when he wrote "naive"? YohanN7 (talk) 22:07, 15 May 2014 (UTC)[reply]

Again, what do the sources say? The history and development of set theory is complicated and is not something that can be settled by an informal ("naive"?) discussion here. Deltahedron (talk) 20:59, 15 May 2014 (UTC)[reply]

See above. --Trovatore (talk) 21:06, 15 May 2014 (UTC)[reply]

Felix Hausdorff: de:Grundzüge der Mengenlehre, Leipzig 1914, page 1f: "...naive conception of term set..." (My pathetic attempt to translate the German reference at Naive Mengenlehre.) YohanN7 (talk) 22:23, 15 May 2014 (UTC)[reply]

According to A history of set theory, the article of ours is fairly accurate with Cantor and the early paradoxes. But Cantor was initially critical of Burali-Forti's result:

It is believed that Cantor discovered this paradox himself in 1885 and wrote to Hilbert about it in 1886. This is slightly surprising since Cantor was highly critical of the Burali-Forti paper when it appeared.

There are a bunch of references for the linked web article (but unfortunately no inline citations). Perhaps something can be dug up from there. YohanN7 (talk) 00:07, 16 May 2014 (UTC)[reply]

I support Trovatore's suggestion. This would be the logically correct thing to do. The present article isn't very coherent anyway. (By the way, when reading my posts I realize that I sound..., well, almost rude in spots. This was not at all the intention. I blame it on my own linguistic confusion.) YohanN7 (talk) 08:45, 24 May 2014 (UTC)[reply]

Here is one more variant: ZFC but with urelements. Halmos allows for sets of kings and grapes (if I remember correctly). But, he also later on is clear to the point that all sets needed in mathematics can be built up from the empty set alone. I am, by the way, not clear on whether ZFC actually rules out urelements. There is just no way of constructing sets containing them (supported by ZFC). This isn't really the same as saying that they don't exist at all. YohanN7 (talk) 09:24, 24 May 2014 (UTC)[reply]

I came to this page hoping to learn something about set theory itself; I'm not interested in the history part. I went to the page on set theory but it was too advanced for me since I am a beginner in the subject. Is it ok if someone groups the actual math parts and the history parts into separate sections? Some sort of reorganization would be good. Jojojlj (talk) 23:26, 23 November 2014 (UTC)[reply]

Unfortunately, 'naive' in this context has a particular meaning to mathematicians that doesn't translate into "this is the article you want for the basics of set theory". For an article that covers the basics better, try Set (mathematics). Algebra of sets also has some good basics. We should probably have a hatnote for this. --Mark viking (talk) 00:56, 24 November 2014 (UTC)[reply]

Hi everybody, the text of the article is a little grating due to the use of "naïve". As "naive" is vastly more common in written English these days (both in British and American English), the use of "naïve" is just needless pedantry. It's like, "Hi, my name is 216.161.55.95 (talk) and I know what's a diaeresis!" In addition, the article describes a topic which was introduced by a book titled "Naive Set Theory", so to the extent that the term is a proper noun, it should be written the same way. What does anyone think about replacing all instances of "naïve" with "naive"? Have a great day, and all the best. 216.161.55.95 (talk) 18:55, 30 July 2020 (UTC)[reply]

Well, it should be one or the other. In some ways I'd prefer "naïve", which I think just looks nicer, but as long as we're not going to move the article to naïve set theory (and I assume we're not), we should probably go ahead and make it consistent in the text as well. --Trovatore (talk) 23:47, 30 July 2020 (UTC)[reply]