Theorems that impeded progressWhat are some famous rejections of correct mathematics?How to unify various reconstruction theorems (Gabriel-Rosenberg, Tannaka,Balmers)Theorems first published in textbooks?Theorems that are 'obvious' but hard to proveAn undergraduate's guide to the foundational theorems of logicProofs that inspire and teachExamples of major theorems with very hard proofs that have NOT dramatically improved over timeHistory of preservation theorems in forcing theoryAre there any Algebraic Geometry Theorems that were proved using Combinatorics?Did Euler prove theorems by example?Theorems demoted back to conjectures

Theorems that impeded progress


What are some famous rejections of correct mathematics?How to unify various reconstruction theorems (Gabriel-Rosenberg, Tannaka,Balmers)Theorems first published in textbooks?Theorems that are 'obvious' but hard to proveAn undergraduate's guide to the foundational theorems of logicProofs that inspire and teachExamples of major theorems with very hard proofs that have NOT dramatically improved over timeHistory of preservation theorems in forcing theoryAre there any Algebraic Geometry Theorems that were proved using Combinatorics?Did Euler prove theorems by example?Theorems demoted back to conjectures













4












$begingroup$


It may be that certain theorems, when proved true, counterintuitively retard
progress in certain domains. Lloyd Trefethen provides two examples:



  • Faber's Theorem on polynomial interpolation

  • Squire's Theorem on hydrodynamic instability


Trefethen, Lloyd N. "Inverse Yogiisms." Notices of the American Mathematical Society 63, no. 11 (2016).
Also: The Best Writing on Mathematics 2017 6 (2017): 28.
Google books link.




In my own experience, I have witnessed the several negative-results theorems in




Marvin Minsky and Seymour A. Papert.
Perceptrons: An Introduction to Computational Geometry , 1969.
MIT Press.




impede progress in neural-net research for more than a decade.1




Q. What are other examples of theorems whose (correct) proofs (possibly temporarily)
suppressed research advancement in mathematical subfields?






1
Olazaran, Mikel. "A sociological study of the official history of the perceptrons controversy." Social Studies of Science 26, no. 3 (1996): 611-659.
Abstract: "[...]I devote particular attention to the proofs and arguments of Minsky and Papert, which were interpreted as showing that further progress in neural nets was not possible, and that this approach to AI had to be abandoned.[...]"
RG link.








share|cite|improve this question









$endgroup$







  • 1




    $begingroup$
    I remember reading, I believe in some other MO post, about how whereas Donaldson's work on smooth 4 manifolds launched a vibrant program of research with invariants coming from physics, Freedman's contemporaneous work on topological 4 manifolds essentially ended the study of topological 4 manifolds. But maybe that's not what you mean by "impeded progress"
    $endgroup$
    – Sam Hopkins
    38 mins ago










  • $begingroup$
    @SamHopkins: I am seeking more misleading impeding, as opposed to closing off a line of investigation. Certainly when a line has terminated, that's it. But there are also misleading endings, which are not terminations afterall.
    $endgroup$
    – Joseph O'Rourke
    25 mins ago
















4












$begingroup$


It may be that certain theorems, when proved true, counterintuitively retard
progress in certain domains. Lloyd Trefethen provides two examples:



  • Faber's Theorem on polynomial interpolation

  • Squire's Theorem on hydrodynamic instability


Trefethen, Lloyd N. "Inverse Yogiisms." Notices of the American Mathematical Society 63, no. 11 (2016).
Also: The Best Writing on Mathematics 2017 6 (2017): 28.
Google books link.




In my own experience, I have witnessed the several negative-results theorems in




Marvin Minsky and Seymour A. Papert.
Perceptrons: An Introduction to Computational Geometry , 1969.
MIT Press.




impede progress in neural-net research for more than a decade.1




Q. What are other examples of theorems whose (correct) proofs (possibly temporarily)
suppressed research advancement in mathematical subfields?






1
Olazaran, Mikel. "A sociological study of the official history of the perceptrons controversy." Social Studies of Science 26, no. 3 (1996): 611-659.
Abstract: "[...]I devote particular attention to the proofs and arguments of Minsky and Papert, which were interpreted as showing that further progress in neural nets was not possible, and that this approach to AI had to be abandoned.[...]"
RG link.








share|cite|improve this question









$endgroup$







  • 1




    $begingroup$
    I remember reading, I believe in some other MO post, about how whereas Donaldson's work on smooth 4 manifolds launched a vibrant program of research with invariants coming from physics, Freedman's contemporaneous work on topological 4 manifolds essentially ended the study of topological 4 manifolds. But maybe that's not what you mean by "impeded progress"
    $endgroup$
    – Sam Hopkins
    38 mins ago










  • $begingroup$
    @SamHopkins: I am seeking more misleading impeding, as opposed to closing off a line of investigation. Certainly when a line has terminated, that's it. But there are also misleading endings, which are not terminations afterall.
    $endgroup$
    – Joseph O'Rourke
    25 mins ago














4












4








4





$begingroup$


It may be that certain theorems, when proved true, counterintuitively retard
progress in certain domains. Lloyd Trefethen provides two examples:



  • Faber's Theorem on polynomial interpolation

  • Squire's Theorem on hydrodynamic instability


Trefethen, Lloyd N. "Inverse Yogiisms." Notices of the American Mathematical Society 63, no. 11 (2016).
Also: The Best Writing on Mathematics 2017 6 (2017): 28.
Google books link.




In my own experience, I have witnessed the several negative-results theorems in




Marvin Minsky and Seymour A. Papert.
Perceptrons: An Introduction to Computational Geometry , 1969.
MIT Press.




impede progress in neural-net research for more than a decade.1




Q. What are other examples of theorems whose (correct) proofs (possibly temporarily)
suppressed research advancement in mathematical subfields?






1
Olazaran, Mikel. "A sociological study of the official history of the perceptrons controversy." Social Studies of Science 26, no. 3 (1996): 611-659.
Abstract: "[...]I devote particular attention to the proofs and arguments of Minsky and Papert, which were interpreted as showing that further progress in neural nets was not possible, and that this approach to AI had to be abandoned.[...]"
RG link.








share|cite|improve this question









$endgroup$




It may be that certain theorems, when proved true, counterintuitively retard
progress in certain domains. Lloyd Trefethen provides two examples:



  • Faber's Theorem on polynomial interpolation

  • Squire's Theorem on hydrodynamic instability


Trefethen, Lloyd N. "Inverse Yogiisms." Notices of the American Mathematical Society 63, no. 11 (2016).
Also: The Best Writing on Mathematics 2017 6 (2017): 28.
Google books link.




In my own experience, I have witnessed the several negative-results theorems in




Marvin Minsky and Seymour A. Papert.
Perceptrons: An Introduction to Computational Geometry , 1969.
MIT Press.




impede progress in neural-net research for more than a decade.1




Q. What are other examples of theorems whose (correct) proofs (possibly temporarily)
suppressed research advancement in mathematical subfields?






1
Olazaran, Mikel. "A sociological study of the official history of the perceptrons controversy." Social Studies of Science 26, no. 3 (1996): 611-659.
Abstract: "[...]I devote particular attention to the proofs and arguments of Minsky and Papert, which were interpreted as showing that further progress in neural nets was not possible, and that this approach to AI had to be abandoned.[...]"
RG link.





ho.history-overview big-picture






share|cite|improve this question













share|cite|improve this question











share|cite|improve this question




share|cite|improve this question










asked 45 mins ago









Joseph O'RourkeJoseph O'Rourke

86.2k16237709




86.2k16237709







  • 1




    $begingroup$
    I remember reading, I believe in some other MO post, about how whereas Donaldson's work on smooth 4 manifolds launched a vibrant program of research with invariants coming from physics, Freedman's contemporaneous work on topological 4 manifolds essentially ended the study of topological 4 manifolds. But maybe that's not what you mean by "impeded progress"
    $endgroup$
    – Sam Hopkins
    38 mins ago










  • $begingroup$
    @SamHopkins: I am seeking more misleading impeding, as opposed to closing off a line of investigation. Certainly when a line has terminated, that's it. But there are also misleading endings, which are not terminations afterall.
    $endgroup$
    – Joseph O'Rourke
    25 mins ago













  • 1




    $begingroup$
    I remember reading, I believe in some other MO post, about how whereas Donaldson's work on smooth 4 manifolds launched a vibrant program of research with invariants coming from physics, Freedman's contemporaneous work on topological 4 manifolds essentially ended the study of topological 4 manifolds. But maybe that's not what you mean by "impeded progress"
    $endgroup$
    – Sam Hopkins
    38 mins ago










  • $begingroup$
    @SamHopkins: I am seeking more misleading impeding, as opposed to closing off a line of investigation. Certainly when a line has terminated, that's it. But there are also misleading endings, which are not terminations afterall.
    $endgroup$
    – Joseph O'Rourke
    25 mins ago








1




1




$begingroup$
I remember reading, I believe in some other MO post, about how whereas Donaldson's work on smooth 4 manifolds launched a vibrant program of research with invariants coming from physics, Freedman's contemporaneous work on topological 4 manifolds essentially ended the study of topological 4 manifolds. But maybe that's not what you mean by "impeded progress"
$endgroup$
– Sam Hopkins
38 mins ago




$begingroup$
I remember reading, I believe in some other MO post, about how whereas Donaldson's work on smooth 4 manifolds launched a vibrant program of research with invariants coming from physics, Freedman's contemporaneous work on topological 4 manifolds essentially ended the study of topological 4 manifolds. But maybe that's not what you mean by "impeded progress"
$endgroup$
– Sam Hopkins
38 mins ago












$begingroup$
@SamHopkins: I am seeking more misleading impeding, as opposed to closing off a line of investigation. Certainly when a line has terminated, that's it. But there are also misleading endings, which are not terminations afterall.
$endgroup$
– Joseph O'Rourke
25 mins ago





$begingroup$
@SamHopkins: I am seeking more misleading impeding, as opposed to closing off a line of investigation. Certainly when a line has terminated, that's it. But there are also misleading endings, which are not terminations afterall.
$endgroup$
– Joseph O'Rourke
25 mins ago











2 Answers
2






active

oldest

votes


















5












$begingroup$

I don't know the history, but I've heard it said that the realization that higher homotopy groups are abelian lead to people thinking the notion was useless for some time.






share|cite|improve this answer











$endgroup$












  • $begingroup$
    Who realized "that higher homotopy groups are abelian"? Could you provide more details, citations?
    $endgroup$
    – Joseph O'Rourke
    21 mins ago






  • 1




    $begingroup$
    @JosephO'Rourke: see mathoverflow.net/a/13902/25028
    $endgroup$
    – Sam Hopkins
    18 mins ago


















0












$begingroup$

Here I quote from the introduction to "Shelah’s pcf theory and its applications" by Burke and Magidor (https://core.ac.uk/download/pdf/82500424.pdf):




Cardinal arithmetic seems to be one of the central topics of set theory. (We
mean mainly cardinal exponentiation, the other operations being trivial.)
However, the independence results obtained by Cohen’s forcing technique
(especially Easton’s theorem: see below) showed that many of the open problems
in cardinal arithmetic are independent of the axioms of ZFC (Zermelo-Fraenkel
set theory with the axiom of choice). It appeared, in the late sixties, that cardinal arithmetic had become trivial in the sense that any potential theorem seemed to be refutable by the construction of a model of set theory which violated it.



In particular, Easton’s theorem showed that essentially any cardinal
arithmetic ‘behavior’ satisfying some obvious requirements can be realized as the
behavior of the power function at regular cardinals. [...]



The general consensus among set theorists was that the restriction to regular cardinals was due to a weakness in the proof and that a slight improvement in the methods for constructing models would show that, even for powers of singular cardinals, there are no deep theorems provable in ZFC.




They go on to explain how Shelah's pcf theory (and its precursors) in fact show that there are many nontrivial theorems about inequalities of cardinals provable in ZFC.



So arguably the earlier independence results impeded the discovery of these provable inequalities, although I don't know how strongly anyone would argue that.






share|cite









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    2 Answers
    2






    active

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    2 Answers
    2






    active

    oldest

    votes









    active

    oldest

    votes






    active

    oldest

    votes









    5












    $begingroup$

    I don't know the history, but I've heard it said that the realization that higher homotopy groups are abelian lead to people thinking the notion was useless for some time.






    share|cite|improve this answer











    $endgroup$












    • $begingroup$
      Who realized "that higher homotopy groups are abelian"? Could you provide more details, citations?
      $endgroup$
      – Joseph O'Rourke
      21 mins ago






    • 1




      $begingroup$
      @JosephO'Rourke: see mathoverflow.net/a/13902/25028
      $endgroup$
      – Sam Hopkins
      18 mins ago















    5












    $begingroup$

    I don't know the history, but I've heard it said that the realization that higher homotopy groups are abelian lead to people thinking the notion was useless for some time.






    share|cite|improve this answer











    $endgroup$












    • $begingroup$
      Who realized "that higher homotopy groups are abelian"? Could you provide more details, citations?
      $endgroup$
      – Joseph O'Rourke
      21 mins ago






    • 1




      $begingroup$
      @JosephO'Rourke: see mathoverflow.net/a/13902/25028
      $endgroup$
      – Sam Hopkins
      18 mins ago













    5












    5








    5





    $begingroup$

    I don't know the history, but I've heard it said that the realization that higher homotopy groups are abelian lead to people thinking the notion was useless for some time.






    share|cite|improve this answer











    $endgroup$



    I don't know the history, but I've heard it said that the realization that higher homotopy groups are abelian lead to people thinking the notion was useless for some time.







    share|cite|improve this answer














    share|cite|improve this answer



    share|cite|improve this answer








    edited 32 mins ago









    José Hdz. Stgo.

    5,24734877




    5,24734877










    answered 35 mins ago









    Daniel McLauryDaniel McLaury

    290217




    290217











    • $begingroup$
      Who realized "that higher homotopy groups are abelian"? Could you provide more details, citations?
      $endgroup$
      – Joseph O'Rourke
      21 mins ago






    • 1




      $begingroup$
      @JosephO'Rourke: see mathoverflow.net/a/13902/25028
      $endgroup$
      – Sam Hopkins
      18 mins ago
















    • $begingroup$
      Who realized "that higher homotopy groups are abelian"? Could you provide more details, citations?
      $endgroup$
      – Joseph O'Rourke
      21 mins ago






    • 1




      $begingroup$
      @JosephO'Rourke: see mathoverflow.net/a/13902/25028
      $endgroup$
      – Sam Hopkins
      18 mins ago















    $begingroup$
    Who realized "that higher homotopy groups are abelian"? Could you provide more details, citations?
    $endgroup$
    – Joseph O'Rourke
    21 mins ago




    $begingroup$
    Who realized "that higher homotopy groups are abelian"? Could you provide more details, citations?
    $endgroup$
    – Joseph O'Rourke
    21 mins ago




    1




    1




    $begingroup$
    @JosephO'Rourke: see mathoverflow.net/a/13902/25028
    $endgroup$
    – Sam Hopkins
    18 mins ago




    $begingroup$
    @JosephO'Rourke: see mathoverflow.net/a/13902/25028
    $endgroup$
    – Sam Hopkins
    18 mins ago











    0












    $begingroup$

    Here I quote from the introduction to "Shelah’s pcf theory and its applications" by Burke and Magidor (https://core.ac.uk/download/pdf/82500424.pdf):




    Cardinal arithmetic seems to be one of the central topics of set theory. (We
    mean mainly cardinal exponentiation, the other operations being trivial.)
    However, the independence results obtained by Cohen’s forcing technique
    (especially Easton’s theorem: see below) showed that many of the open problems
    in cardinal arithmetic are independent of the axioms of ZFC (Zermelo-Fraenkel
    set theory with the axiom of choice). It appeared, in the late sixties, that cardinal arithmetic had become trivial in the sense that any potential theorem seemed to be refutable by the construction of a model of set theory which violated it.



    In particular, Easton’s theorem showed that essentially any cardinal
    arithmetic ‘behavior’ satisfying some obvious requirements can be realized as the
    behavior of the power function at regular cardinals. [...]



    The general consensus among set theorists was that the restriction to regular cardinals was due to a weakness in the proof and that a slight improvement in the methods for constructing models would show that, even for powers of singular cardinals, there are no deep theorems provable in ZFC.




    They go on to explain how Shelah's pcf theory (and its precursors) in fact show that there are many nontrivial theorems about inequalities of cardinals provable in ZFC.



    So arguably the earlier independence results impeded the discovery of these provable inequalities, although I don't know how strongly anyone would argue that.






    share|cite









    $endgroup$

















      0












      $begingroup$

      Here I quote from the introduction to "Shelah’s pcf theory and its applications" by Burke and Magidor (https://core.ac.uk/download/pdf/82500424.pdf):




      Cardinal arithmetic seems to be one of the central topics of set theory. (We
      mean mainly cardinal exponentiation, the other operations being trivial.)
      However, the independence results obtained by Cohen’s forcing technique
      (especially Easton’s theorem: see below) showed that many of the open problems
      in cardinal arithmetic are independent of the axioms of ZFC (Zermelo-Fraenkel
      set theory with the axiom of choice). It appeared, in the late sixties, that cardinal arithmetic had become trivial in the sense that any potential theorem seemed to be refutable by the construction of a model of set theory which violated it.



      In particular, Easton’s theorem showed that essentially any cardinal
      arithmetic ‘behavior’ satisfying some obvious requirements can be realized as the
      behavior of the power function at regular cardinals. [...]



      The general consensus among set theorists was that the restriction to regular cardinals was due to a weakness in the proof and that a slight improvement in the methods for constructing models would show that, even for powers of singular cardinals, there are no deep theorems provable in ZFC.




      They go on to explain how Shelah's pcf theory (and its precursors) in fact show that there are many nontrivial theorems about inequalities of cardinals provable in ZFC.



      So arguably the earlier independence results impeded the discovery of these provable inequalities, although I don't know how strongly anyone would argue that.






      share|cite









      $endgroup$















        0












        0








        0





        $begingroup$

        Here I quote from the introduction to "Shelah’s pcf theory and its applications" by Burke and Magidor (https://core.ac.uk/download/pdf/82500424.pdf):




        Cardinal arithmetic seems to be one of the central topics of set theory. (We
        mean mainly cardinal exponentiation, the other operations being trivial.)
        However, the independence results obtained by Cohen’s forcing technique
        (especially Easton’s theorem: see below) showed that many of the open problems
        in cardinal arithmetic are independent of the axioms of ZFC (Zermelo-Fraenkel
        set theory with the axiom of choice). It appeared, in the late sixties, that cardinal arithmetic had become trivial in the sense that any potential theorem seemed to be refutable by the construction of a model of set theory which violated it.



        In particular, Easton’s theorem showed that essentially any cardinal
        arithmetic ‘behavior’ satisfying some obvious requirements can be realized as the
        behavior of the power function at regular cardinals. [...]



        The general consensus among set theorists was that the restriction to regular cardinals was due to a weakness in the proof and that a slight improvement in the methods for constructing models would show that, even for powers of singular cardinals, there are no deep theorems provable in ZFC.




        They go on to explain how Shelah's pcf theory (and its precursors) in fact show that there are many nontrivial theorems about inequalities of cardinals provable in ZFC.



        So arguably the earlier independence results impeded the discovery of these provable inequalities, although I don't know how strongly anyone would argue that.






        share|cite









        $endgroup$



        Here I quote from the introduction to "Shelah’s pcf theory and its applications" by Burke and Magidor (https://core.ac.uk/download/pdf/82500424.pdf):




        Cardinal arithmetic seems to be one of the central topics of set theory. (We
        mean mainly cardinal exponentiation, the other operations being trivial.)
        However, the independence results obtained by Cohen’s forcing technique
        (especially Easton’s theorem: see below) showed that many of the open problems
        in cardinal arithmetic are independent of the axioms of ZFC (Zermelo-Fraenkel
        set theory with the axiom of choice). It appeared, in the late sixties, that cardinal arithmetic had become trivial in the sense that any potential theorem seemed to be refutable by the construction of a model of set theory which violated it.



        In particular, Easton’s theorem showed that essentially any cardinal
        arithmetic ‘behavior’ satisfying some obvious requirements can be realized as the
        behavior of the power function at regular cardinals. [...]



        The general consensus among set theorists was that the restriction to regular cardinals was due to a weakness in the proof and that a slight improvement in the methods for constructing models would show that, even for powers of singular cardinals, there are no deep theorems provable in ZFC.




        They go on to explain how Shelah's pcf theory (and its precursors) in fact show that there are many nontrivial theorems about inequalities of cardinals provable in ZFC.



        So arguably the earlier independence results impeded the discovery of these provable inequalities, although I don't know how strongly anyone would argue that.







        share|cite












        share|cite



        share|cite










        answered 54 secs ago









        Sam HopkinsSam Hopkins

        4,99212557




        4,99212557



























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