Are there any sets that are not complete metric spaces under all possible metrics?












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I don't have any particular set in mind but this seemed interesthing since completeness depends on the metric.










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  • $begingroup$
    Do you really mean set here, or topological space? That is, do you want to consider any metric on a given set, or only those compatible with a given topology?
    $endgroup$
    – Alex Kruckman
    Dec 19 '18 at 18:27










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    @AlexKruckman First one but I forgot about the discrete metric and Balloon's answer wrapped things up. Now, I think it would be better to talk of a norm, rather than a metric.
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    – 2chromatic
    Dec 19 '18 at 18:31
















0












$begingroup$


I don't have any particular set in mind but this seemed interesthing since completeness depends on the metric.










share|cite|improve this question









$endgroup$












  • $begingroup$
    Do you really mean set here, or topological space? That is, do you want to consider any metric on a given set, or only those compatible with a given topology?
    $endgroup$
    – Alex Kruckman
    Dec 19 '18 at 18:27










  • $begingroup$
    @AlexKruckman First one but I forgot about the discrete metric and Balloon's answer wrapped things up. Now, I think it would be better to talk of a norm, rather than a metric.
    $endgroup$
    – 2chromatic
    Dec 19 '18 at 18:31














0












0








0





$begingroup$


I don't have any particular set in mind but this seemed interesthing since completeness depends on the metric.










share|cite|improve this question









$endgroup$




I don't have any particular set in mind but this seemed interesthing since completeness depends on the metric.







general-topology metric-spaces complete-spaces






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asked Dec 19 '18 at 14:42









2chromatic2chromatic

1829




1829












  • $begingroup$
    Do you really mean set here, or topological space? That is, do you want to consider any metric on a given set, or only those compatible with a given topology?
    $endgroup$
    – Alex Kruckman
    Dec 19 '18 at 18:27










  • $begingroup$
    @AlexKruckman First one but I forgot about the discrete metric and Balloon's answer wrapped things up. Now, I think it would be better to talk of a norm, rather than a metric.
    $endgroup$
    – 2chromatic
    Dec 19 '18 at 18:31


















  • $begingroup$
    Do you really mean set here, or topological space? That is, do you want to consider any metric on a given set, or only those compatible with a given topology?
    $endgroup$
    – Alex Kruckman
    Dec 19 '18 at 18:27










  • $begingroup$
    @AlexKruckman First one but I forgot about the discrete metric and Balloon's answer wrapped things up. Now, I think it would be better to talk of a norm, rather than a metric.
    $endgroup$
    – 2chromatic
    Dec 19 '18 at 18:31
















$begingroup$
Do you really mean set here, or topological space? That is, do you want to consider any metric on a given set, or only those compatible with a given topology?
$endgroup$
– Alex Kruckman
Dec 19 '18 at 18:27




$begingroup$
Do you really mean set here, or topological space? That is, do you want to consider any metric on a given set, or only those compatible with a given topology?
$endgroup$
– Alex Kruckman
Dec 19 '18 at 18:27












$begingroup$
@AlexKruckman First one but I forgot about the discrete metric and Balloon's answer wrapped things up. Now, I think it would be better to talk of a norm, rather than a metric.
$endgroup$
– 2chromatic
Dec 19 '18 at 18:31




$begingroup$
@AlexKruckman First one but I forgot about the discrete metric and Balloon's answer wrapped things up. Now, I think it would be better to talk of a norm, rather than a metric.
$endgroup$
– 2chromatic
Dec 19 '18 at 18:31










2 Answers
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Since every set can be given the discrete metric $d(x,y)=left{begin{array}{ll} 1 & text{if $xneq y$}\0 &text{if $x = y$}end{array}right.$, and that for this metric every Cauchy sequence is stationnary and so convergent, you can't find a such example.






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    2












    $begingroup$

    Yes, the set of rationals $mathbb{Q}$ in its usual topology is not a Baire space, so whatever compatible metric you put on it, it will be non-complete.






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    • $begingroup$
      This depends on what the question is asking, precisely. If we view $mathbb{Q}$ just as a set then obviously we can make it a complete metric space (and I think this is how the question leans, but I'm not certain).
      $endgroup$
      – Noah Schweber
      Dec 19 '18 at 14:48













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    2 Answers
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    2 Answers
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    6












    $begingroup$

    Since every set can be given the discrete metric $d(x,y)=left{begin{array}{ll} 1 & text{if $xneq y$}\0 &text{if $x = y$}end{array}right.$, and that for this metric every Cauchy sequence is stationnary and so convergent, you can't find a such example.






    share|cite|improve this answer









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      6












      $begingroup$

      Since every set can be given the discrete metric $d(x,y)=left{begin{array}{ll} 1 & text{if $xneq y$}\0 &text{if $x = y$}end{array}right.$, and that for this metric every Cauchy sequence is stationnary and so convergent, you can't find a such example.






      share|cite|improve this answer









      $endgroup$
















        6












        6








        6





        $begingroup$

        Since every set can be given the discrete metric $d(x,y)=left{begin{array}{ll} 1 & text{if $xneq y$}\0 &text{if $x = y$}end{array}right.$, and that for this metric every Cauchy sequence is stationnary and so convergent, you can't find a such example.






        share|cite|improve this answer









        $endgroup$



        Since every set can be given the discrete metric $d(x,y)=left{begin{array}{ll} 1 & text{if $xneq y$}\0 &text{if $x = y$}end{array}right.$, and that for this metric every Cauchy sequence is stationnary and so convergent, you can't find a such example.







        share|cite|improve this answer












        share|cite|improve this answer



        share|cite|improve this answer










        answered Dec 19 '18 at 14:45









        BalloonBalloon

        4,645822




        4,645822























            2












            $begingroup$

            Yes, the set of rationals $mathbb{Q}$ in its usual topology is not a Baire space, so whatever compatible metric you put on it, it will be non-complete.






            share|cite|improve this answer









            $endgroup$













            • $begingroup$
              This depends on what the question is asking, precisely. If we view $mathbb{Q}$ just as a set then obviously we can make it a complete metric space (and I think this is how the question leans, but I'm not certain).
              $endgroup$
              – Noah Schweber
              Dec 19 '18 at 14:48


















            2












            $begingroup$

            Yes, the set of rationals $mathbb{Q}$ in its usual topology is not a Baire space, so whatever compatible metric you put on it, it will be non-complete.






            share|cite|improve this answer









            $endgroup$













            • $begingroup$
              This depends on what the question is asking, precisely. If we view $mathbb{Q}$ just as a set then obviously we can make it a complete metric space (and I think this is how the question leans, but I'm not certain).
              $endgroup$
              – Noah Schweber
              Dec 19 '18 at 14:48
















            2












            2








            2





            $begingroup$

            Yes, the set of rationals $mathbb{Q}$ in its usual topology is not a Baire space, so whatever compatible metric you put on it, it will be non-complete.






            share|cite|improve this answer









            $endgroup$



            Yes, the set of rationals $mathbb{Q}$ in its usual topology is not a Baire space, so whatever compatible metric you put on it, it will be non-complete.







            share|cite|improve this answer












            share|cite|improve this answer



            share|cite|improve this answer










            answered Dec 19 '18 at 14:44









            Henno BrandsmaHenno Brandsma

            113k348123




            113k348123












            • $begingroup$
              This depends on what the question is asking, precisely. If we view $mathbb{Q}$ just as a set then obviously we can make it a complete metric space (and I think this is how the question leans, but I'm not certain).
              $endgroup$
              – Noah Schweber
              Dec 19 '18 at 14:48




















            • $begingroup$
              This depends on what the question is asking, precisely. If we view $mathbb{Q}$ just as a set then obviously we can make it a complete metric space (and I think this is how the question leans, but I'm not certain).
              $endgroup$
              – Noah Schweber
              Dec 19 '18 at 14:48


















            $begingroup$
            This depends on what the question is asking, precisely. If we view $mathbb{Q}$ just as a set then obviously we can make it a complete metric space (and I think this is how the question leans, but I'm not certain).
            $endgroup$
            – Noah Schweber
            Dec 19 '18 at 14:48






            $begingroup$
            This depends on what the question is asking, precisely. If we view $mathbb{Q}$ just as a set then obviously we can make it a complete metric space (and I think this is how the question leans, but I'm not certain).
            $endgroup$
            – Noah Schweber
            Dec 19 '18 at 14:48




















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