* subculture @ 2010-09-24 15:44 Eduardo J. Dubuc 2010-09-25 0:38 ` subculture Ruadhai ` (3 more replies) 0 siblings, 4 replies; 21+ messages in thread From: Eduardo J. Dubuc @ 2010-09-24 15:44 UTC (permalink / raw) To: Categories list As evident from the subject, this personal answer to Toby Bartels is intended to have general incumbency. Dear Toby, thanks for this msage, i will try to explain: Toby Bartels wrote: > Eduardo J. Dubuc wrote at first: > >> Dear Toby, your choice of example is very unfortunate. Mac Lane wrote that category theory was invented to define functor, and that functor was invented to define "natural" transformation. > > Yes, I know; that was quite deliberate. Well, I said "unfortunate" for those that are in favor of introducing the name "evil" (or any other name) as a definition of "not invariant under equivalence". You see, this is because to introduce a name the property has to be important enough and of frequent use. To sustain your case you should have given examples of properties (or concepts) which not being very important and of frequent use, have nevertheless an universally accepted proper name. > but beyond that I have no idea what upsets you, > and I'm not going to worry about it any more. I appreciate that you had worried at some point, and I am glad you do not worry any more. I try to explain why I sounded upset with you in my last mail because it has a general interest concerning the question of whether we are a subculture or part of the mainstream of mathematics. Recall that this was my only mail that concerns you in particular, and that it was in response to a mail of you, and that it was that mail that I felt upsetting. I quote from it: > Shall we stop saying "natural" and say "invariant under composition"? > Or is that term allowed under the grandfather clause, "the grandfather clause" is not something nice to qualify my sayings. > As a proud citizen of the Ghetto of Category Land, sounds ironic and upsetting, showing that you were very upset that i consider certain characteristics of our group proper of a ghetto, in the sense of isolation from the world of real mathematics. Well, I do think that one of these characteristics is the introduction of names and terminology in an unjustified way. Andre Joyal call it "a subculture" (well, he just said there is a danger to become a subculture) which if you think a little, sounds better than "ghetto", but it is as negatively strong or even worst. I apologize to you for using that term that you had felt insulting (and I imagine some others in the list may have felt so) Your msage had an overall upsetting style, and I reacted accordingly. All the best, no hard feelings from my part. e.d. [For admin and other information see: http://www.mta.ca/~cat-dist/ ] ^ permalink raw reply [flat|nested] 21+ messages in thread
* Re: subculture 2010-09-24 15:44 subculture Eduardo J. Dubuc @ 2010-09-25 0:38 ` Ruadhai 2010-09-25 23:10 ` RE : categories: subculture Joyal, André ` (3 more replies) 2010-09-25 4:01 ` Not invariant but good Joyal, André ` (2 subsequent siblings) 3 siblings, 4 replies; 21+ messages in thread From: Ruadhai @ 2010-09-25 0:38 UTC (permalink / raw) To: Eduardo J. Dubuc; +Cc: Categories list Dear all, I'd just like to point out that a quick google search of "category theory evil" gives the correct definition, from the nLab page. As long as articles are referenced properly, this is a non-issue. Moreover, frequently people define things in papers which remain unused outside that one article - as long as everything is clear, there is no problem here. With regards the original problem, that evil is a poor choice, I personally see little point in changing a word no one would be offended by. Ruadhaí On 24 September 2010 16:44, Eduardo J. Dubuc <edubuc@dm.uba.ar> wrote: > As evident from the subject, this personal answer to Toby Bartels is > intended > to have general incumbency. > > Dear Toby, thanks for this msage, i will try to explain: > > Toby Bartels wrote: > > Eduardo J. Dubuc wrote at first: > > > >> Dear Toby, your choice of example is very unfortunate. Mac Lane wrote > that > category theory was invented to define functor, and that functor was > invented > to define "natural" transformation. > > > > Yes, I know; that was quite deliberate. > > Well, I said "unfortunate" for those that are in favor of introducing the > name > "evil" (or any other name) as a definition of "not invariant under > equivalence". > You see, this is because to introduce a name the property has to be > important > enough and of frequent use. To sustain your case you should have given > examples of properties (or concepts) which not being very important and of > frequent use, have nevertheless an universally accepted proper name. > > > but beyond that I have no idea what upsets you, > > and I'm not going to worry about it any more. > > I appreciate that you had worried at some point, and I am glad you do not > worry any more. > > I try to explain why I sounded upset with you in my last mail because it > has a > general interest concerning the question of whether we are a subculture or > part of the mainstream of mathematics. > > Recall that this was my only mail that concerns you in particular, and > that > it was in response to a mail of you, and that it was that mail that I felt > upsetting. > > I quote from it: > > > Shall we stop saying "natural" and say "invariant under composition"? > > Or is that term allowed under the grandfather clause, > > "the grandfather clause" is not something nice to qualify my sayings. > > > As a proud citizen of the Ghetto of Category Land, > > sounds ironic and upsetting, showing that you were very upset that i > consider > certain characteristics of our group proper of a ghetto, in the sense of > isolation from the world of real mathematics. Well, I do think that one of > these characteristics is the introduction of names and terminology in an > unjustified way. Andre Joyal call it "a subculture" (well, he just said > there > is a danger to become a subculture) which if you think a little, sounds > better > than "ghetto", but it is as negatively strong or even worst. > > I apologize to you for using that term that you had felt insulting (and I > imagine some others in the list may have felt so) > > Your msage had an overall upsetting style, and I reacted accordingly. > > All the best, no hard feelings from my part. e.d. > [For admin and other information see: http://www.mta.ca/~cat-dist/ ] ^ permalink raw reply [flat|nested] 21+ messages in thread
* RE : categories: subculture 2010-09-25 0:38 ` subculture Ruadhai @ 2010-09-25 23:10 ` Joyal, André 2010-09-26 2:43 ` subculture David Leduc ` (2 subsequent siblings) 3 siblings, 0 replies; 21+ messages in thread From: Joyal, André @ 2010-09-25 23:10 UTC (permalink / raw) To: Ruadhai, Eduardo J. Dubuc; +Cc: Categories list Dear All, I am displeased with the idea that terminology is purely conventional and that everything is acceptable. The "evil" terminology is promoted by a small group of peoples active in the nLab. It does not reflect a commun usage in the mathematical community. Best, André -------- Message d'origine-------- De: Ruadhai [mailto:ruadhai@gmail.com] Date: ven. 24/09/2010 20:38 À: Eduardo J. Dubuc Cc: Categories list Objet : Re: categories: subculture Dear all, I'd just like to point out that a quick google search of "category theory evil" gives the correct definition, from the nLab page. As long as articles are referenced properly, this is a non-issue. Moreover, frequently people define things in papers which remain unused outside that one article - as long as everything is clear, there is no problem here. With regards the original problem, that evil is a poor choice, I personally see little point in changing a word no one would be offended by. Ruadhaí [For admin and other information see: http://www.mta.ca/~cat-dist/ ] ^ permalink raw reply [flat|nested] 21+ messages in thread
* Re: subculture 2010-09-25 0:38 ` subculture Ruadhai 2010-09-25 23:10 ` RE : categories: subculture Joyal, André @ 2010-09-26 2:43 ` David Leduc 2010-09-26 3:19 ` subculture Fred Linton [not found] ` <AANLkTikJoHkO2M_3hnrQqqFq2_N2T9i6KF2DRFbHTujP@mail.gmail.com> 3 siblings, 0 replies; 21+ messages in thread From: David Leduc @ 2010-09-26 2:43 UTC (permalink / raw) To: Ruadhai; +Cc: Eduardo J. Dubuc, Categories list Ruadhai <ruadhai@gmail.com> wrote: > With regards the > original problem, that evil is a poor choice, I personally see little point > in changing a word no one would be offended by. It is certainly not the case of the work "kosher" used by some people on this list. [For admin and other information see: http://www.mta.ca/~cat-dist/ ] ^ permalink raw reply [flat|nested] 21+ messages in thread
* Re: subculture 2010-09-25 0:38 ` subculture Ruadhai 2010-09-25 23:10 ` RE : categories: subculture Joyal, André 2010-09-26 2:43 ` subculture David Leduc @ 2010-09-26 3:19 ` Fred Linton [not found] ` <AANLkTikJoHkO2M_3hnrQqqFq2_N2T9i6KF2DRFbHTujP@mail.gmail.com> 3 siblings, 0 replies; 21+ messages in thread From: Fred Linton @ 2010-09-26 3:19 UTC (permalink / raw) To: Categories list; +Cc: Eduardo J. Dubuc, Ruadhai It may well be, as Ruadhaí points out, that > ... a quick google search of "category theory > evil" gives the correct definition, from the nLab page. But does a search for "evil" give you that, as well? > ... With regards the > original problem, that evil is a poor choice, I personally see little > point > in changing a word no one would be offended by. The word "evil" is not a mere anagram for "live", "veil", or "vile", but has a meaning of its own, replete with connotations of opprobrium for whatever it is used as descriptive adjective for. On that ground, I would propose, it *is* a poor choice -- unless you see little point in respecting the ordinary meaning of the word "evil", or great value in offending those who would respect it. It's an excellent choice if your goal is precisely to offend those for whom "evil" already has a meaning incompatible with its proposed mathematical use here. Perhaps there are even better choices, though: Why not "demented", "testicular", "terrorist", or "gay" instead? Or some other negative word even better suited to the purpose of getting a rise out of the literal-minded, if all you really want to do with it is to "épater les bourgeois"? With dumbfounded cheers, -- Fred [For admin and other information see: http://www.mta.ca/~cat-dist/ ] ^ permalink raw reply [flat|nested] 21+ messages in thread
[parent not found: <AANLkTikJoHkO2M_3hnrQqqFq2_N2T9i6KF2DRFbHTujP@mail.gmail.com>]
* Re: subculture [not found] ` <AANLkTikJoHkO2M_3hnrQqqFq2_N2T9i6KF2DRFbHTujP@mail.gmail.com> @ 2010-09-26 3:43 ` Eduardo J. Dubuc 0 siblings, 0 replies; 21+ messages in thread From: Eduardo J. Dubuc @ 2010-09-26 3:43 UTC (permalink / raw) To: David Leduc; +Cc: Ruadhai, Categories list I give my opinion simultaneously to several postings; (1) Ruadhai wrote: >> With regards the >> original problem, that evil is a poor choice, I personally see little point >> in changing a word no one would be offended by. Precisely, we should not accept a terminology just because it does not offend anybody. Jesus Christ !!, with this philosophy we could accept any ridiculous terminology so far "it does not offend". Terminologies may have an strong "ideological" connotation. To call something "evil" it is not harmless, neither unintentional (do not forget the unconscious part of the brain of those that promote "evil"). It also has a marketing attitude (compare with "catastrophe theory" to refer to the classification of singularities of C^oo maps). (1) David Leduc wrote: > It is certainly not the case of the work "kosher" used by some people > on this list. Well, I can not imagine the word "not kosher" to offend anybody if applied to something that it is not accepted by the rules of a discipline. (like constructivism, intuitionism, or "accept only concepts invariant by equivalence"). Of course, if "not kosher = evil", then some people would not like it. But the blame is in those that introduced the terminology "evil" to refer to something which is not necessarily evil. (3) Joyal wrote: > I am displeased with the idea that > terminology is purely conventional > and that everything is acceptable. > The "evil" terminology is promoted > by a small group of peoples active in the nLab. > It does not reflect a commun usage in the > mathematical community. Well, certainly true what Andre says. "evil" is a terminology so far used by some people, certainly not the mathematical community. It has also the weakness to remain for ever within a "subculture" that we do not want to be identified with category theory. (Rene Thom had sufficiently strong contributions to mainstream mathematics to impose his "catastrophe" terminology. This is not the case for the "evil" terminology). All the best to all, and welcome controversy !!. e.d. [For admin and other information see: http://www.mta.ca/~cat-dist/ ] ^ permalink raw reply [flat|nested] 21+ messages in thread
* Not invariant but good 2010-09-24 15:44 subculture Eduardo J. Dubuc 2010-09-25 0:38 ` subculture Ruadhai @ 2010-09-25 4:01 ` Joyal, André [not found] ` <B3C24EA955FF0C4EA14658997CD3E25E370F59BE@CAHIER.gst.uqam.ca> [not found] ` <20101001092434.GA9359@mathematik.tu-darmstadt.de> 3 siblings, 0 replies; 21+ messages in thread From: Joyal, André @ 2010-09-25 4:01 UTC (permalink / raw) To: Categories list; +Cc: Eduardo J. Dubuc, hoffnung, dyetter, baez Dear all, Very briefly. Many good things in mathematics are depending on the choice of a representation which is not invariant under equivalences, or under isomorphisms. Modern geometry would not exists without coordinate systems. This is true also of algebra and category theory. Algebraic structures are often described by generators and relations. Homological algebra is using non-canonical projective or injective resolutions. Choosing a base point may help computing the fundamental group of a topological space. Choosing a triangulation may help computing the homology groups. Invariant notions are often constructed from notions which are not. For example, the Euler characteristic of a space is best explaned by using a triangulation. Another example from homotopy theory: the notion of homotopy pullback square in a Quillen model category is invariant under weak equivalences, but its definition depends on the notion of pullback square which is not invariant under weak equivalences! Part of the art of mathematics is in constructing invariant notions from non-invariant ones. We should recognize the usefulness and importance of the latter. Please, let us not call them "evil"! Best, André PS: We should reserve the word "evil" to name things that really are. ------_=_NextPart_001_01CB5C66.6607A3FA Content-Type: text/html; charset="iso-8859-1" Content-Transfer-Encoding: quoted-printable <!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 3.2//EN"> <HTML> <HEAD> <META HTTP-EQUIV="Content-Type" CONTENT="text/html; charset=iso-8859-1"> <META NAME="Generator" CONTENT="MS Exchange Server version 6.5.7654.12"> <TITLE>Not invariant but good</TITLE> </HEAD> <BODY> <!-- Converted from text/plain format --> <P><FONT SIZE=2>Dear all,<BR> <BR> Very briefly.<BR> <BR> Many good things in mathematics are depending on the choice<BR> of a representation which is not invariant under equivalences,<BR> or under isomorphisms. Modern geometry would not exists<BR> without coordinate systems. This is true also of algebra<BR> and category theory. Algebraic structures are often described by<BR> generators and relations. Homological algebra is using non-canonical<BR> projective or injective resolutions. Choosing a base point may help<BR> computing the fundamental group of a topological space.<BR> Choosing a triangulation may help computing the homology groups.<BR> Invariant notions are often constructed from notions which are not.<BR> For example, the Euler characteristic of a space<BR> is best explaned by using a triangulation.<BR> <BR> Another example from homotopy theory:<BR> the notion of homotopy pullback square in a Quillen model category is<BR> invariant under weak equivalences, but its definition depends on<BR> the notion of pullback square which is not invariant under weak equivalences!<BR> <BR> Part of the art of mathematics is in constructing invariant notions<BR> from non-invariant ones. We should recognize the usefulness and<BR> importance of the latter. Please, let us not call them "evil"!<BR> <BR> Best,<BR> André<BR> <BR> PS: We should reserve the word "evil" to name things that really are.<BR> <BR> <BR> <BR> <BR> <BR> </FONT> </P> </BODY> </HTML> ------_=_NextPart_001_01CB5C66.6607A3FA-- [For admin and other information see: http://www.mta.ca/~cat-dist/ ] ^ permalink raw reply [flat|nested] 21+ messages in thread
[parent not found: <B3C24EA955FF0C4EA14658997CD3E25E370F59BE@CAHIER.gst.uqam.ca>]
* Re: Not invariant but good [not found] ` <B3C24EA955FF0C4EA14658997CD3E25E370F59BE@CAHIER.gst.uqam.ca> @ 2010-09-26 3:29 ` John Baez 2010-09-27 2:54 ` Peter Selinger 2010-09-27 15:55 ` RE : categories: " Joyal, André 0 siblings, 2 replies; 21+ messages in thread From: John Baez @ 2010-09-26 3:29 UTC (permalink / raw) To: categories Dear Andre - > Many good things in mathematics are depending on the choice > of a representation which is not invariant under equivalences, > or under isomorphisms. Modern geometry would not exists > without coordinate systems. I agree. I think you're arguing against a position that nobody here has espoused. A coordinate system is a structure, not a property. In my earlier email I said a *property* is evil if it's not invariant under equivalences. But I'd say a *structure* is evil if it's not *covariant* under equivalences. Coordinate systems are covariant under equivalences, so they're not evil. Let me expand on this a bit, first for properties and then for structures. Say we have a groupoid C. A (possibly evil) property of objects in C is a map F: Ob(C) -> {F,T} where Ob(C) is the class of objects of C and {F,T} is the set of truth values. I say the property is non-evil if it extends to a functor F: C -> {F,T} where now we regard {F,T} as a discrete groupoid. For example, suppose C is the groupoid of vector spaces over your favorite field. A typical non-evil property is "being 5-dimensional". A typical evil property is "having the empty set as its origin". (In ZF set theory, we can take any vector space and ask whether its zero element happens to be the empty set.) I think most mathematicians would be happy to see a theorem that begins Theorem: If V is a vector space that is 5-dimensional... but somewhat surprised to see a theorem that begins: Theorem: If V is a vector space with the empty set as its origin... We instinctively feel that any theorem of the second sort could have been phrased better: how could it really matter that the origin is the empty set? Now, structures. Again, let C be a groupoid. A (possibly evil) structure on objects in C is a map F: Ob(C) -> Set The idea is that for any object c in C, F(c) is the set of structures that can be put on that object. I say the structure is non-evil if it extends to a functor F: C -> Set If C is the groupoid of vector spaces, a typical non-evil structure is a basis: here F(c) is the set of bases of the vector space c. A typical evil structure would be "a basis, if the underlying set of c is the real numbers, but two bases otherwise." Again, I think most mathematicians would feel happy to work with the non-evil structure, but somewhat uncomfortable working with the evil one. That's the feeling that this concept of "evil" is trying to formalize. Note that a non-evil structure on finite sets is what you call a "species". You wisely avoided studying the evil ones. Best, jb [For admin and other information see: http://www.mta.ca/~cat-dist/ ] ^ permalink raw reply [flat|nested] 21+ messages in thread
* Re: Not invariant but good 2010-09-26 3:29 ` John Baez @ 2010-09-27 2:54 ` Peter Selinger 2010-09-27 15:55 ` RE : categories: " Joyal, André 1 sibling, 0 replies; 21+ messages in thread From: Peter Selinger @ 2010-09-27 2:54 UTC (permalink / raw) To: baez; +Cc: categories Hi John, thanks for trying to move the discussion away from terminology and back to actual mathematical matters. In order to focus on the math and not on the terminology, let me today use the word "XXXX" instead of "evil". I don't think the notion used in your examples is general enough. For example, fix some groupoid C, and consider the property of an object x: "x is isomorphic to exactly 3 objects of C". To me, this is clearly XXXX, because it is not invariant under equivalences of C. Yet, according to the definition you used in this email, it extends to a functor C -> {F,T}, and therefore is non-XXXX. For a property P of objects x of a category C, "being invariant under isomorphisms of objects in C" is strictly weaker than "being invariant under equivalences of C". Proof: Clearly, any isomorphism of C can be mapped to an identity of some category C' by some equivalence of categories. Therefore, any property that is invariant under equivalences of categories is invariant under isomorphisms of objects. The above example shows that the converse is not true. I think for XXXXness of structures, a similar refinement is needed. To me, the intuitive concept of XXXX for structures is "cannot be transported along equivalences such that the equivalence becomes structure preserving". To say it more explicitly: if category C has the structure, and category C' is equivalent to C (as a category), then C' can be equipped with a structure in such a way that the equivalence (both directions) is structure preserving. This is a fairly subtle concept, not least because it depends on the precise 2-category in question (to fix what "equivalence" and "structure preserving" means). For example, whether the structure of being "strictly monoidal" is XXXX or not depends on what one means by "structure preserving" (e.g., strict monoidal or strong monoidal functors). The natural transformations need to be specified too, so that one can define "structure preserving equivalence". I tried to give a more general and precise 2-categorical definition on the categories list on January 3, 2010, but I am not sure I got it quite right. I think it was Mark Weber who also pointed out, around the same time, that one person's XXXX concept is another person's non-XXXX concept - in a different 2-category. The fact that being XXXX depends on an ambient 2-category means that it is not a moral judgment, and people should not be offended by it. Some perfectly useful things can be XXXX sometimes, and some perfectly useless things can be non-XXXX. For example, even a not-very-natural property like "there are exactly 3 objects isomorphic to x" can be non-XXXX when viewed in the right 2-category. For example, this is the case in the 2-category of categories, functors, and identity natural transformations. Last comment. Thomas Streicher brought up the example of a fibration P: XX -> BB as a concept that was XXXX but very useful. But I don't think this concept is actually XXXX. Certainly if one thinks of the fibration as a *structure* on BB, then this transports very nicely along equivalences. Namely, given any equivalence BB <--> BB', one can find a fibration P' : XX' -> BB' which is equivalent, as a fibration, to P. Right? So I don't think it is correct to identify the concept of XXXX with "having to talk about equality". Rather, it should be defined in some 2-categorical way. See also Mike Shulman's post from January 4, which discussed this distinction in more depth. -- Peter John Baez wrote: > > Dear Andre - > >> Many good things in mathematics are depending on the choice >> of a representation which is not invariant under equivalences, >> or under isomorphisms. Modern geometry would not exists >> without coordinate systems. > > I agree. I think you're arguing against a position that nobody > here has espoused. > > A coordinate system is a structure, not a property. In my > earlier email I said a *property* is evil if it's not invariant under > equivalences. But I'd say a *structure* is evil if it's not *covariant* > under equivalences. Coordinate systems are covariant under > equivalences, so they're not evil. > ... [For admin and other information see: http://www.mta.ca/~cat-dist/ ] ^ permalink raw reply [flat|nested] 21+ messages in thread
* RE : categories: Re: Not invariant but good 2010-09-26 3:29 ` John Baez 2010-09-27 2:54 ` Peter Selinger @ 2010-09-27 15:55 ` Joyal, André 2010-09-28 2:10 ` RE : " John Baez 2010-09-28 10:18 ` RE : categories: Re: Not invariant but good Thomas Streicher 1 sibling, 2 replies; 21+ messages in thread From: Joyal, André @ 2010-09-27 15:55 UTC (permalink / raw) To: John Baez, categories Dear John, I agree with you that some of the examples in my list can be regarded as covariant structures. But not all of them. Especially the example of pullback squares in a model category. In fact, the notion of fibration in a model category is also not invariant under weak equivalences, since every map is, up to a weak equivalence, a fibration. The notion of Grothendieck fibration is also not invariant under equivalences of categories, since the composite of a Grothendieck fibration with an equivalence is not a Grothendieck fibration in general. One could introduce a weaker notion of Grothendieck fibration which repairs this absence of invariance but the usual notion of a Grothendieck fibration will remain important. I am reluctant to call the notion of Grothendieck fibrations "evil". I feel that the whole controversy about the "evil" terminology is preventing us from discussing rationally and fruithfully important foundational issues. The word is very negative and polarising. Nobody likes to be told that he has done something "evil" when he has done nothing so. I guess you have introduced the "evil" terminology because you wanted peoples to pay attention to the fact that certain constructions in category theory and higher category theory are not invariant under equivalences. If this is so, you have succeeded in your goal. But please, could you agree to change the terminology? Best, André -------- Message d'origine-------- De: John Baez [mailto:baez@math.ucr.edu] Date: sam. 25/09/2010 23:29 À: categories Objet : categories: Re: Not invariant but good Dear Andre - > Many good things in mathematics are depending on the choice > of a representation which is not invariant under equivalences, > or under isomorphisms. Modern geometry would not exists > without coordinate systems. I agree. I think you're arguing against a position that nobody here has espoused. A coordinate system is a structure, not a property. In my earlier email I said a *property* is evil if it's not invariant under equivalences. But I'd say a *structure* is evil if it's not *covariant* under equivalences. Coordinate systems are covariant under equivalences, so they're not evil. Let me expand on this a bit, first for properties and then for structures. ... [For admin and other information see: http://www.mta.ca/~cat-dist/ ] ^ permalink raw reply [flat|nested] 21+ messages in thread
* RE : Re: Not invariant but good 2010-09-27 15:55 ` RE : categories: " Joyal, André @ 2010-09-28 2:10 ` John Baez 2010-09-29 18:05 ` no joke Joyal, André 2010-09-28 10:18 ` RE : categories: Re: Not invariant but good Thomas Streicher 1 sibling, 1 reply; 21+ messages in thread From: John Baez @ 2010-09-28 2:10 UTC (permalink / raw) To: categories Andre wrote: >I guess you have introduced the "evil" terminology >because you wanted people to pay attention to >the fact that certain constructions in category theory >and higher category theory are not invariant under >equivalences. If this is so, you have succeeded in your goal. Good! But I never really thought of it as a piece of "terminology" that I "introduced". I've never used in any published paper, for example. I've always thought of it as a JOKE. In the future I'll try to avoid telling this joke in the presence of people who find it upsetting. This should be easy, because I'm not working on pure math anymore, except for a few projects that I'm trying to finish up. I'm working on environmental issues. The planet is headed for an ecological disaster within this century. We cannot prevent it, we can only minimize the damage. I hope some people on the category theory mailing list can help out here: http://www.azimuthproject.org/azimuth/show/Azimuth+Project If you aren't sure how to help, send me an email. Best, jb [For admin and other information see: http://www.mta.ca/~cat-dist/ ] ^ permalink raw reply [flat|nested] 21+ messages in thread
* no joke 2010-09-28 2:10 ` RE : " John Baez @ 2010-09-29 18:05 ` Joyal, André 2010-09-30 2:53 ` John Baez 0 siblings, 1 reply; 21+ messages in thread From: Joyal, André @ 2010-09-29 18:05 UTC (permalink / raw) To: John Baez, categories Dear John, >But I never really thought of it as a piece of "terminology" >that I "introduced". I've never used in any published paper, >for example. I've always thought of it as a JOKE. >In the future I'll try to avoid telling this joke in the presence of >people who find it upsetting. I am not offended personally. You are free to repeat the "joke" ad nauseum, but who is laughing? Some of your followers are taking the "joke" quite seriously: http://ncatlab.org/nlab/show/evil You wrote: >I'm not working on pure math anymore, except for a few >projects that I'm trying to finish up. You are a good mathematician. You have made important contributions to higher category theory. I am sure you can make further contributions. I hope you will not leave math. Everybody likes your web pages on maths and physics. You wrote: >I'm working environmental issues. I applaude to your involvement: http://www.azimuthproject.org/azimuth/show/Azimuth+Project I agree that the planet is presently heading for an ecological disaster. You wrote that the situation about climate change is hopeless. I can understand your pessimism, but how do you really know? You also wrote that not all human beings will die. Is this a source of optimism? Who should be saved? Who can be abandoned? You also wrote that we should consider using geo-engineering. How different is your position from Bjorn Lomborg's? http://www.cambridge.org/catalogue/catalogue.asp?isbn=9780521138567 http://climateprogress.org/2010/09/01/the-lomborg-deception/ http://www.realclimate.org/index.php/archives/2009/08/a-biased-economic-analysis-of-geoengineering/ Best, André [For admin and other information see: http://www.mta.ca/~cat-dist/ ] ^ permalink raw reply [flat|nested] 21+ messages in thread
* Re: no joke 2010-09-29 18:05 ` no joke Joyal, André @ 2010-09-30 2:53 ` John Baez 0 siblings, 0 replies; 21+ messages in thread From: John Baez @ 2010-09-30 2:53 UTC (permalink / raw) To: categories [Note from moderator: This is a very long post and off topic. Further discussion of the subject must happen elsewhere. ] To the moderator - while this post is a bit off topic, I hope you can indulge me and post it, if only because it explains why I am no longer working on n-categories. The math is near the end. Dear Andre - You write: > You wrote that the situation about climate change is hopeless. > I can understand your pessimism, but how do you really know? First of all, climate change is already upon us. So far this year has been the hottest in recorded history, and we're seeing precisely the erratic precipitation patterns that we'd expect from global warming. Droughts and heat waves in Russia have caused that country - the 3rd largest grain exporting country - to ban exports of wheat. Floods displaced 2 million people in Pakistan, 2 million in Nigeria, and hundreds of thousands Uganda, Kenya and Sudan. We're also seeing unusual things like tornadoes in New York City, and coral reefs dying from overheated water in Indonesia. Etcetera. Second of all, once carbon dioxide is in the atmosphere, a large portion stays there for hundreds or thousands of years. So, to prevent the CO2 concentration from rising above 450 ppm, truly astounding actions would be required STARTING NOW. Let me quote Stewart Brand's summary of a talk by the engineer Saul Griffith: >What would it take to level off the carbon dioxide in the >atmosphere at 450 parts per million (ppm)? That level >supposedly would keep global warming just barely manageable >at an increase of 2 degrees Celsius. There still would be massive >loss of species, 100 million climate refugees, and other major >stresses. The carbon dioxide level right now is 385 ppm, rising >fast. Before industrialization it was 296 ppm. America's leading >climatologist, James Hansen, says we must lower the >carbon dioxide level to 350 ppm if we want to keep the world >we evolved in. >The world currently runs on about 16 terawatts (trillion watts) >of energy, most of it burning fossil fuels. To level off at 450 ppm >of carbon dioxide, we will have to reduce the fossil fuel burning to 3 >terawatts and produce all the rest with renewable energy, and we >have to do it in 25 years or it's too late. Currently about half a >terawatt comes from clean hydropower and one terawatt from clean >nuclear. That leaves 11.5 terawatts to generate from new >clean sources. >That would mean the following. (Here I'm drawing on notes >and extrapolations I've written up previously from discussion >with Griffith): >"Two terawatts of photovoltaic would require installing 100 >square meters of 15-percent-efficient solar cells every second, >second after second, for the next 25 years. (That's about 1,200 >square miles of solar cells a year, times 25 equals 30,000 square >miles of photovoltaic cells.) Two terawatts of solar thermal? If it's >30 percent efficient all told, we'll need 50 square meters of highly >reflective mirrors every second. (Some 600 square miles a year, >times 25.) Half a terawatt of biofuels? Something like one Olympic >swimming pool of genetically engineered algae, installed every >second. (About 15,250 square miles a year, times 25.) Two >terawatts of wind? That's a 300-foot-diameter wind turbine every >5 minutes. (Install 105,000 turbines a year in good wind locations, >times 25.) Two terawatts of geothermal? Build three 100-megawatt >steam turbines every day — 1,095 a year, times 25. Three terawatts >of new nuclear? That's a 3-reactor, 3-gigawatt plant every week — >52 a year, times 25". [...] >Meanwhile for individuals, to stay at the world's energy budget at >16 terawatts, while many of the poorest in the world might raise >their standard of living to 2,200 watts, everyone now above that >level would have to drop down to it. I believe actions of this scale will not happen in time, and thus it's hopeless to prevent a disaster. However, that does not mean we should give up! Even if a disaster of some sort is certain, there are different degrees of disaster, and it’s our responsibility to minimize the disaster. > You also wrote that not all human beings will die. > Is this a source of optimism? It is for me! I like people. > Who should be saved? Who can be abandoned? Luckily for me, there are lots of useful things I can do without knowing the answer to this question. > You also wrote that we should consider using geo-engineering. More precisely, I think we should study geo-engineering. People are already considering it, regardless of what I say. The pressure to use it will become intense as things get worse. Some forms, such as biochar, might be quite safe if managed properly. Others, which do not reduce the CO2 level, could be very dangerous. (People disagree on whether biochar counts as geo-engineering. It simply means turning agricultural waste into charcoal and burying it: http://www.azimuthproject.org/azimuth/show/Biochar) > How different is your position from Bjorn Lomborg's? I haven't read Lomborg's new book yet, so I'm not sure. However, I get the feeling that he advocates geo-engineering as a cost-effective way to prevent global warming. My position would then be different. I believe we won't do anything significant about global warming until it's too late and there are massive social disruptions. Then there will be extreme pressure to try anything, including geo-engineering. So, I think it's important to study geo-engineering along with all other solutions. If people who don't like it refuse to study it, only people who like it will study it - so they'll be the ones that governments will consult. Now, about mathematics: > I hope you will not leave math. > Everybody likes your web pages on maths and physics. Thanks very much! I'm trying to figure out how to combine my interest in math with my desire to help save the planet. There are lots of options; the problem is finding one that achieves a significant effect. To do pure math, I just needed to follow the beauty. But this is different. There are easy things, and harder things. Everyone who teaches math can incorporate real-world examples in their teaching, and use them to educate people about the world we live in. For example: overfishing can cause fish populations to crash. This can be seen in a very simplified way using the equation dP/dt = kP - c or in more realistic ways using more complicated equations. A mathematician friend of mine was shocked when two colleagues of his, experts on differential equations, didn't know this. When I heard his story, I realized we should be talking about overfishing every time we teach kids how to solve separable differential equations. Another slightly more sophisticated example involves the role of feedback in global warming. I'm sure there are many more. I'll collect them and make them easy to find. More generally, everyone who teaches math or science can help students think clearly about real-world problems. This is urgent! Logic and statistics are vital. Mathematicians and scientists should also spend more of their research time on environmental issues. For students this should be easy: these issues will become ever more important, so working on them is a good road to a successful career - much easier than, say, category theory. Other people may feel they're too old to change directions. But in fact, I've found that the best way to become young is to try something new. Being tenured makes this very easy to do. The hardest part is figuring out which actions will have the optimal effect. For me, the first step is to quit pure math, work on environmental issues, and trying to convince large numbers of scientists to turn their attention in that direction. But the last part will only work if I can find a path forward that looks attractive. Best, jb [For admin and other information see: http://www.mta.ca/~cat-dist/ ] ^ permalink raw reply [flat|nested] 21+ messages in thread
* Re: RE : categories: Re: Not invariant but good 2010-09-27 15:55 ` RE : categories: " Joyal, André 2010-09-28 2:10 ` RE : " John Baez @ 2010-09-28 10:18 ` Thomas Streicher 2010-09-29 21:25 ` Michael Shulman 1 sibling, 1 reply; 21+ messages in thread From: Thomas Streicher @ 2010-09-28 10:18 UTC (permalink / raw) To: categories Thanks Andr'e for pointing out by various examples why it is not always wise to insist on invariance under equivalence or weak equivalence. This in my opinion is the real issue and not whether "evil" is a tasteless name or not. The problem rather is that people using "evil" really mean it so even if they deny it. An little comment on structure versus property which is an importnat distinction in my eyes. The notion of Grothendieck fibration is a property of functors and not an additional structure. However, the notion of fibration in a(n abstract) 2-category can be formulated only postulating a certain kind of structure which, however, is unique up to canonical isomorphism. But this amounts to defining Grothendieck fibrations in terms of cleavages (which certainly are all canonically isomorphic). But choosing cleavages amounts to accepting very strong choice principles which is maybe no real problem but at least aesthetically moderately pleasing. Thomas [For admin and other information see: http://www.mta.ca/~cat-dist/ ] ^ permalink raw reply [flat|nested] 21+ messages in thread
* Re: Not invariant but good 2010-09-28 10:18 ` RE : categories: Re: Not invariant but good Thomas Streicher @ 2010-09-29 21:25 ` Michael Shulman 2010-09-30 3:07 ` Richard Garner ` (2 more replies) 0 siblings, 3 replies; 21+ messages in thread From: Michael Shulman @ 2010-09-29 21:25 UTC (permalink / raw) To: Thomas Streicher; +Cc: categories On Tue, Sep 28, 2010 at 3:18 AM, Thomas Streicher <streicher@mathematik.tu-darmstadt.de> wrote: > The notion of Grothendieck fibration is a property > of functors and not an additional structure. However, the notion of fibration > in a(n abstract) 2-category can be formulated only postulating a certain kind > of structure which, however, is unique up to canonical isomorphism. But this > amounts to defining Grothendieck fibrations in terms of cleavages (which > certainly are all canonically isomorphic). But choosing cleavages amounts > to accepting very strong choice principles which is maybe no real problem > but at least aesthetically moderately pleasing. I'm not sure what you mean here. The notion of fibration in a 2-category can be defined as a property if you like: a morphism E --> B in a 2-category K is a fibration if all the induced functors K(X,E) --> K(X,B) are fibrations and all commutative squares induced by morphisms X --> X' are morphisms of fibrations (preserve cartesian arrows). This is equivalent to giving some structure on E --> B, but that structure is unique up to unique isomorphism when it exists. (One can argue that both ordinary fibrations and fibrations in a 2-category are actually "property-like structures," or "properties that are not necessarily preserved by morphisms," since their forgetful functors are pseudomonic but not full. But that applies equally to both.) It is true that if one has a Grothendieck fibration between categories in the ordinary sense, then it only becomes an internal fibration in the naively defined 2-category Cat if we have the axiom of choice, since the latter amounts to saying that we can simultaneously choose cartesian liftings for any families of objects of E and morphisms of B we might want to pull them back along. (I don't think any "global choice" is necessary, since the definition doesn't require us to make such a choice simultaneously for every possible family--only that for any particular family, we -could- make such a choice.) However, in the absence of the axiom of choice, the naive definition of "functor" is not very well-behaved; it's better to use "anafunctors," or equivalently to invert the weak equivalences (fully-faithful and essentially surjective functors) in the naively defined 2-category Cat. In the resulting bicategory, I think any ordinary Grothendieck fibration will indeed be an internal fibration, without any need for choice. (Of course, "internal fibration" should probably now be interpreted in the looser sense of Street, as appropriate when working in a non-strict 2-category.) Mike [For admin and other information see: http://www.mta.ca/~cat-dist/ ] ^ permalink raw reply [flat|nested] 21+ messages in thread
* Re: Not invariant but good 2010-09-29 21:25 ` Michael Shulman @ 2010-09-30 3:07 ` Richard Garner 2010-09-30 11:11 ` Thomas Streicher 2010-09-30 11:34 ` Thomas Streicher 2 siblings, 0 replies; 21+ messages in thread From: Richard Garner @ 2010-09-30 3:07 UTC (permalink / raw) To: Michael Shulman; +Cc: Thomas Streicher, categories > It is true that if one has a Grothendieck fibration between categories > in the ordinary sense, then it only becomes an internal fibration in > the naively defined 2-category Cat if we have the axiom of choice, > since the latter amounts to saying that we can simultaneously choose > cartesian liftings for any families of objects of E and morphisms of B > we might want to pull them back along. (I don't think any "global > choice" is necessary, since the definition doesn't require us to make > such a choice simultaneously for every possible family--only that for > any particular family, we -could- make such a choice.) Though we can always make such a simultaneous choice as soon as we have it in one particular case. Given the Grothendieck fibration p: E->B in Cat, and letting X denote the comma object (B,p), it is enough to choose a lifting for the X-indexed family of morphisms of B corresponding to the projection X --> B^2 at the X-indexed family of objects of E corresponding to the projection X --> E; for then to give a Y-indexed family of morphisms in B and a Y-indexed family of objects of E over their codomains is to give a morphism Y -> X, and so the chosen lifting for the latter induces a chosen lifting for the former. Richard [For admin and other information see: http://www.mta.ca/~cat-dist/ ] ^ permalink raw reply [flat|nested] 21+ messages in thread
* Re: Not invariant but good 2010-09-29 21:25 ` Michael Shulman 2010-09-30 3:07 ` Richard Garner @ 2010-09-30 11:11 ` Thomas Streicher 2010-09-30 19:39 ` Michael Shulman 2010-09-30 11:34 ` Thomas Streicher 2 siblings, 1 reply; 21+ messages in thread From: Thomas Streicher @ 2010-09-30 11:11 UTC (permalink / raw) To: Michael Shulman; +Cc: categories Dear Mike, > I'm not sure what you mean here. The notion of fibration in a > 2-category can be defined as a property if you like: a morphism E --> > B in a 2-category K is a fibration if all the induced functors K(X,E) > --> K(X,B) are fibrations and all commutative squares induced by > morphisms X --> X' are morphisms of fibrations (preserve cartesian > arrows). This is equivalent to giving some structure on E --> B, but > that structure is unique up to unique isomorphism when it exists. The definition you give entails that a "generalised" fibration is actually a Grothendieck fibration (since Cat(1,E) is isomorphic to E). This way you don't get closure under precomposition by equivalences. I also don't see why cartesiannness of the functors induced by X --> X' should amount to a choice of structure (cartesiannness of a functor is a property and not additional structure). Moreover, this requirement is a property of Grothendieck fibrations which can be established when having strong choice available. I was rather alluding to the notion of fibration in 2-cats as can be found in part B of the Elephant where a fibration is defined as a 1-arrow together with additional structure. The definition you gave above (which is not more general) is the obvious thing to do in case K is not wellpointed enough (as Cat is). Moreover, your definition of fibration in a 2-category is based on Grothendieck fibrations and thus employs equality of 1-cells. Since 1-cells are objects of a category it should be "evil" to speak about their equality. Not that it were a problem to me... Thomas PS Your definition of fibration in a 2-cat looks much simpler than what I could find in the papers by Street and Johnstone. That's nothing to complain about but where is it from? It seems to me the appropriate one when generalising from Cat to more general 2-cats. [For admin and other information see: http://www.mta.ca/~cat-dist/ ] ^ permalink raw reply [flat|nested] 21+ messages in thread
* Re: Not invariant but good 2010-09-30 11:11 ` Thomas Streicher @ 2010-09-30 19:39 ` Michael Shulman 0 siblings, 0 replies; 21+ messages in thread From: Michael Shulman @ 2010-09-30 19:39 UTC (permalink / raw) To: Thomas Streicher; +Cc: categories Dear Thomas, I did not intend to "generalize" anything, only to restate the definition. There are at least four equivalent definitions of fibration in a 2-category that I know of: - the "representable" one which I gave, - having an adjoint one-sided inverse to a certain morphism between comma objects - being an algebra for a certain monad on a slice 2-category - the one in the Elephant All the definitions have two versions: a "strict" one a la Grothendieck (which only makes sense in a strict 2-category) and a "weak" one a la Street (which makes sense in any bicategory). All the strict notions are equivalent to each other, and all the weak notions are equivalent to each other. The idea of the equivalence of the first three is essentially contained in Richard's remark, while a proof of the equivalence of the Elephant's version with the representable one can be found in Peter Johnstone's article "Fibrations and partial products in a 2-category." Weak fibrations are closed under composition with equivalences, while strict ones are not. In Cat and probably other well-behaved 2-categories, being a weak fibration is the same as being the composite of a strict fibration and an equivalence, and so it ought to surprise no one that in such cases it is sufficient to consider strict fibrations. It's generally only in the bicategorical world that weak fibrations become important. All the definitions can also be described either as "properties" (such-and-such thing exists) or as "structure" (equipped with such-and-such thing), since in all cases the such-and-such is unique up to unique isomorphism when it exists. This is the situation also referred to as "property-like structure." But perhaps you were originally referring instead to the structure required on the 2-category itself? It's true that the latter three definitions require existence of some limits in the 2-category, while the representable version does not. Finally, in Cat with choice, the strict notions are all equivalent to the usual Grothendieck fibrations, while the weak ones are equivalent to Street's. (Street actually originally gave his definition in a general bicategory, and only later specialized it to Cat.) Does this clarify what I meant? > Nothing against anafunctors but it is an exaggeration to say that in absence > of choice the usual notion of functor is not well-behaved. Perhaps "not well-behaved" was a poor choice of words since it implies a value judgement, but I think it is correct to say that in the absence of choice, category theory becomes very unfamiliar unless we replace functors with anafunctors. For instance, if we insist on using only functors, then a category with finite products does not necessarily become a monoidal category, as there is no "product" functor from A×A to A. Also, without choice the 2-category Cat using functors is not even a regular 2-category, let alone a 2-topos. Since the defining characteristics of Set include that it is a well-pointed 1-topos, it seems unlikely to me that one will be able to get much of anywhere with a version of Cat that is not a 2-topos. Mike [For admin and other information see: http://www.mta.ca/~cat-dist/ ] ^ permalink raw reply [flat|nested] 21+ messages in thread
* Re: Not invariant but good 2010-09-29 21:25 ` Michael Shulman 2010-09-30 3:07 ` Richard Garner 2010-09-30 11:11 ` Thomas Streicher @ 2010-09-30 11:34 ` Thomas Streicher 2 siblings, 0 replies; 21+ messages in thread From: Thomas Streicher @ 2010-09-30 11:34 UTC (permalink / raw) To: Michael Shulman; +Cc: categories > However, in the absence of the axiom of choice, the naive definition > of "functor" is not very well-behaved; it's better to use "anafunctors," Nothing against anafunctors but it is an exaggeration to say that in absence of choice the usual notion of functor is not well-behaved. One just loses that full and faithful and essential surjective entails equivalence. That's like abandoning the notion of surjective map in case we can't split them all. Thomas [For admin and other information see: http://www.mta.ca/~cat-dist/ ] ^ permalink raw reply [flat|nested] 21+ messages in thread
[parent not found: <20101001092434.GA9359@mathematik.tu-darmstadt.de>]
* Re: Not invariant but good [not found] ` <20101001092434.GA9359@mathematik.tu-darmstadt.de> @ 2010-10-03 22:10 ` Michael Shulman 0 siblings, 0 replies; 21+ messages in thread From: Michael Shulman @ 2010-10-03 22:10 UTC (permalink / raw) To: categories On Fri, Oct 1, 2010 at 2:24 AM, Thomas Streicher <streicher@mathematik.tu-darmstadt.de> wrote: > Well, but then we can work with categories with a chosen structure, e.g. > chosen products; that's what is recommended in the Elephant and it looks to > me as close to practice; it's very unlikely to have a nonconstructive proof > of existence of products. Unlikely, but it happens occasionally. For instance, if the morphisms of a category are equivalence classes, then a "construction" of equalizers or pullbacks might require choosing representatives; this actually happens at one point in the Elephant. The "small complete categories" in realizability topoi are also generally "weakly complete," in the sense that "every small diagram has a limit" is true in the internal logic, but not "strongly complete" in the sense that there exist internal limit-assigning (non-ana) functors. The property of "strong completeness" is also not in general preserved or reflected by weak equivalence functors. One can of course develop a theory which distinguishes between weak and strong equivalence and weak and strong completeness, but I think it's reasonable to call it "unfamiliar" to most category theorists. It feels to me like trying to do work constructively with topological spaces and therefore having to talk about [0,1] being complete and totally bounded but not compact, instead of realizing that when working constructively, one should really replace topological spaces with locales. Just as in set theory, no axiom of choice is necessary to define a function whose values are individually uniquely determined, it seems to me that no axiom of choice should be necessary in category theory to define a functor whose values are individually uniquely determined up to unique isomorphism. But obviously this is a subjective judgement. Mike [For admin and other information see: http://www.mta.ca/~cat-dist/ ] ^ permalink raw reply [flat|nested] 21+ messages in thread
* Re: subculture @ 2010-09-27 3:06 Todd Trimble 0 siblings, 0 replies; 21+ messages in thread From: Todd Trimble @ 2010-09-27 3:06 UTC (permalink / raw) To: Joyal, André; +Cc: Categories list Dear Andre, As someone who contributes to the nLab, let me assure you that opinions on the appropriateness of the word "evil" (in the sense being discussed here) also vary among workers in the nLab. Not all of the subscribers of this list may know about the nLab, but we are far from a homogeneous block. There are certainly regular nLab contributors who have voiced their displeasure with the word. I think you're right: the people who use this term are still a pretty small group. Nevertheless, sometimes slang terms do catch fire and become widespread, and evidently this has become a cause for alarm for some people here. While I won't take a position on the acceptability on the word myself, beyond saying that it's not likely to become part of my own language, I would at least like to defend its appearance in the nLab. To some extent, the nLab functions as a dictionary for those who work with categorical language (that is at least one of its functions). So one could view the people who edit the nLab as, in part, editors of a dictionary; as such, there is a kind of obligation to record uses of the living language and describe it as accurately as possible. Thus the function here is descriptive, not prescriptive (or proscriptive). That said, it's also true that reputable dictionaries will record how the word is received by speakers: some words may be described as 'vulgar' or 'offensive' (at least for some speakers), or as slang or substandard or whatever. So if a word like "evil" is offensive to some people here, it's arguably our responsibility to record that fact as well, and link to this discussion here. A case in point is the (I think tongue-in-cheek) expression "fascist functor". Some of you may recall that a "free functor" is to the "left" (in an adjoint string), so a "fascist functor" would be to the "right" in an adjoint string. It's a little jokey (as some people think "evil" is), and yet it still excites emotions, as we discovered in a recent nForum discussion. Something of those reactions were hinted at in the Lab, and I think we would do well to do the same with regard to "evil". Best, Todd ----- Original Message ----- From: "Joyal, André" <joyal.andre@uqam.ca> To: "Ruadhai" <ruadhai@gmail.com>; "Eduardo J. Dubuc" <edubuc@dm.uba.ar> Cc: "Categories list" <categories@mta.ca> Sent: Saturday, September 25, 2010 7:10 PM Subject: categories: RE : categories: subculture Dear All, I am displeased with the idea that terminology is purely conventional and that everything is acceptable. The "evil" terminology is promoted by a small group of peoples active in the nLab. It does not reflect a commun usage in the mathematical community. Best, André [For admin and other information see: http://www.mta.ca/~cat-dist/ ] ^ permalink raw reply [flat|nested] 21+ messages in thread
end of thread, other threads:[~2010-10-03 22:10 UTC | newest] Thread overview: 21+ messages (download: mbox.gz / follow: Atom feed) -- links below jump to the message on this page -- 2010-09-24 15:44 subculture Eduardo J. Dubuc 2010-09-25 0:38 ` subculture Ruadhai 2010-09-25 23:10 ` RE : categories: subculture Joyal, André 2010-09-26 2:43 ` subculture David Leduc 2010-09-26 3:19 ` subculture Fred Linton [not found] ` <AANLkTikJoHkO2M_3hnrQqqFq2_N2T9i6KF2DRFbHTujP@mail.gmail.com> 2010-09-26 3:43 ` subculture Eduardo J. Dubuc 2010-09-25 4:01 ` Not invariant but good Joyal, André [not found] ` <B3C24EA955FF0C4EA14658997CD3E25E370F59BE@CAHIER.gst.uqam.ca> 2010-09-26 3:29 ` John Baez 2010-09-27 2:54 ` Peter Selinger 2010-09-27 15:55 ` RE : categories: " Joyal, André 2010-09-28 2:10 ` RE : " John Baez 2010-09-29 18:05 ` no joke Joyal, André 2010-09-30 2:53 ` John Baez 2010-09-28 10:18 ` RE : categories: Re: Not invariant but good Thomas Streicher 2010-09-29 21:25 ` Michael Shulman 2010-09-30 3:07 ` Richard Garner 2010-09-30 11:11 ` Thomas Streicher 2010-09-30 19:39 ` Michael Shulman 2010-09-30 11:34 ` Thomas Streicher [not found] ` <20101001092434.GA9359@mathematik.tu-darmstadt.de> 2010-10-03 22:10 ` Michael Shulman 2010-09-27 3:06 subculture Todd Trimble
This is a public inbox, see mirroring instructions for how to clone and mirror all data and code used for this inbox; as well as URLs for NNTP newsgroup(s).