If $(X,d)$ is a metric space, prove that intersection of any collection of compact sets in $(X,d)$ is...











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  • Proving that the Intersection of any Collection of Compact Sets is Compact

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If $(X,d)$ be a compact metric space then, arbitrary intersection of compact subsets is compact.



Is it true if $(X,d)$ is a metric space, but not compact?



There is similar type of questions already have been asked before, but those are from real-analysis where any closed and bounded set is compact. But in metric space closed and bounded set may not be compact. Hence this question is different from previously asked questions.










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marked as duplicate by Nosrati, user302797, José Carlos Santos, Shailesh, Cesareo Nov 26 at 1:37


This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.















  • You may find answer here: math.stackexchange.com/questions/1447506/…
    – Aniruddha Deshmukh
    Nov 25 at 6:35












  • If you are taking arbitrary intersections of compact sets, that will be a closed set (because each of the compact sets are closed sets and arbitrary intersection of closed sets is closed). As the intersection is a subset of a compact set, it's a compact set.
    – John_Wick
    Nov 25 at 6:37















up vote
0
down vote

favorite













This question already has an answer here:




  • Proving that the Intersection of any Collection of Compact Sets is Compact

    2 answers




If $(X,d)$ be a compact metric space then, arbitrary intersection of compact subsets is compact.



Is it true if $(X,d)$ is a metric space, but not compact?



There is similar type of questions already have been asked before, but those are from real-analysis where any closed and bounded set is compact. But in metric space closed and bounded set may not be compact. Hence this question is different from previously asked questions.










share|cite|improve this question















marked as duplicate by Nosrati, user302797, José Carlos Santos, Shailesh, Cesareo Nov 26 at 1:37


This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.















  • You may find answer here: math.stackexchange.com/questions/1447506/…
    – Aniruddha Deshmukh
    Nov 25 at 6:35












  • If you are taking arbitrary intersections of compact sets, that will be a closed set (because each of the compact sets are closed sets and arbitrary intersection of closed sets is closed). As the intersection is a subset of a compact set, it's a compact set.
    – John_Wick
    Nov 25 at 6:37













up vote
0
down vote

favorite









up vote
0
down vote

favorite












This question already has an answer here:




  • Proving that the Intersection of any Collection of Compact Sets is Compact

    2 answers




If $(X,d)$ be a compact metric space then, arbitrary intersection of compact subsets is compact.



Is it true if $(X,d)$ is a metric space, but not compact?



There is similar type of questions already have been asked before, but those are from real-analysis where any closed and bounded set is compact. But in metric space closed and bounded set may not be compact. Hence this question is different from previously asked questions.










share|cite|improve this question
















This question already has an answer here:




  • Proving that the Intersection of any Collection of Compact Sets is Compact

    2 answers




If $(X,d)$ be a compact metric space then, arbitrary intersection of compact subsets is compact.



Is it true if $(X,d)$ is a metric space, but not compact?



There is similar type of questions already have been asked before, but those are from real-analysis where any closed and bounded set is compact. But in metric space closed and bounded set may not be compact. Hence this question is different from previously asked questions.





This question already has an answer here:




  • Proving that the Intersection of any Collection of Compact Sets is Compact

    2 answers








metric-spaces






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edited Nov 26 at 3:44

























asked Nov 25 at 6:14









Tamas Kanti Garai

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32




marked as duplicate by Nosrati, user302797, José Carlos Santos, Shailesh, Cesareo Nov 26 at 1:37


This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.






marked as duplicate by Nosrati, user302797, José Carlos Santos, Shailesh, Cesareo Nov 26 at 1:37


This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.














  • You may find answer here: math.stackexchange.com/questions/1447506/…
    – Aniruddha Deshmukh
    Nov 25 at 6:35












  • If you are taking arbitrary intersections of compact sets, that will be a closed set (because each of the compact sets are closed sets and arbitrary intersection of closed sets is closed). As the intersection is a subset of a compact set, it's a compact set.
    – John_Wick
    Nov 25 at 6:37


















  • You may find answer here: math.stackexchange.com/questions/1447506/…
    – Aniruddha Deshmukh
    Nov 25 at 6:35












  • If you are taking arbitrary intersections of compact sets, that will be a closed set (because each of the compact sets are closed sets and arbitrary intersection of closed sets is closed). As the intersection is a subset of a compact set, it's a compact set.
    – John_Wick
    Nov 25 at 6:37
















You may find answer here: math.stackexchange.com/questions/1447506/…
– Aniruddha Deshmukh
Nov 25 at 6:35






You may find answer here: math.stackexchange.com/questions/1447506/…
– Aniruddha Deshmukh
Nov 25 at 6:35














If you are taking arbitrary intersections of compact sets, that will be a closed set (because each of the compact sets are closed sets and arbitrary intersection of closed sets is closed). As the intersection is a subset of a compact set, it's a compact set.
– John_Wick
Nov 25 at 6:37




If you are taking arbitrary intersections of compact sets, that will be a closed set (because each of the compact sets are closed sets and arbitrary intersection of closed sets is closed). As the intersection is a subset of a compact set, it's a compact set.
– John_Wick
Nov 25 at 6:37










1 Answer
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Let $(X,d)$ be a metric space and ${C_i}_{iin I}$ be some collection of compact subsets of $(X,d)$ . Let $alphain I$ be fixed and consider the collection ${C_icap C_{alpha}}_{iin I}$ of subsets of $C_{alpha}$ . Note that for each $iin I$ we have $C_icap C_{alpha}$ is a closed subset of the compact set $C_{alpha}$.Therefore $bigcap_{iin I} C_i=bigcap_{iin I} (C_icap C_{alpha})$ is also a closed subset of $C_{alpha}$ being arbitrary intersection of closed subsets. But closed subset of compact set is compact , hence $bigcap_{iin I} C_i$ is compact subset of $(X,d)$ . Note that compactness is not relative property.






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    1 Answer
    1






    active

    oldest

    votes








    1 Answer
    1






    active

    oldest

    votes









    active

    oldest

    votes






    active

    oldest

    votes








    up vote
    0
    down vote



    accepted










    Let $(X,d)$ be a metric space and ${C_i}_{iin I}$ be some collection of compact subsets of $(X,d)$ . Let $alphain I$ be fixed and consider the collection ${C_icap C_{alpha}}_{iin I}$ of subsets of $C_{alpha}$ . Note that for each $iin I$ we have $C_icap C_{alpha}$ is a closed subset of the compact set $C_{alpha}$.Therefore $bigcap_{iin I} C_i=bigcap_{iin I} (C_icap C_{alpha})$ is also a closed subset of $C_{alpha}$ being arbitrary intersection of closed subsets. But closed subset of compact set is compact , hence $bigcap_{iin I} C_i$ is compact subset of $(X,d)$ . Note that compactness is not relative property.






    share|cite|improve this answer



























      up vote
      0
      down vote



      accepted










      Let $(X,d)$ be a metric space and ${C_i}_{iin I}$ be some collection of compact subsets of $(X,d)$ . Let $alphain I$ be fixed and consider the collection ${C_icap C_{alpha}}_{iin I}$ of subsets of $C_{alpha}$ . Note that for each $iin I$ we have $C_icap C_{alpha}$ is a closed subset of the compact set $C_{alpha}$.Therefore $bigcap_{iin I} C_i=bigcap_{iin I} (C_icap C_{alpha})$ is also a closed subset of $C_{alpha}$ being arbitrary intersection of closed subsets. But closed subset of compact set is compact , hence $bigcap_{iin I} C_i$ is compact subset of $(X,d)$ . Note that compactness is not relative property.






      share|cite|improve this answer

























        up vote
        0
        down vote



        accepted







        up vote
        0
        down vote



        accepted






        Let $(X,d)$ be a metric space and ${C_i}_{iin I}$ be some collection of compact subsets of $(X,d)$ . Let $alphain I$ be fixed and consider the collection ${C_icap C_{alpha}}_{iin I}$ of subsets of $C_{alpha}$ . Note that for each $iin I$ we have $C_icap C_{alpha}$ is a closed subset of the compact set $C_{alpha}$.Therefore $bigcap_{iin I} C_i=bigcap_{iin I} (C_icap C_{alpha})$ is also a closed subset of $C_{alpha}$ being arbitrary intersection of closed subsets. But closed subset of compact set is compact , hence $bigcap_{iin I} C_i$ is compact subset of $(X,d)$ . Note that compactness is not relative property.






        share|cite|improve this answer














        Let $(X,d)$ be a metric space and ${C_i}_{iin I}$ be some collection of compact subsets of $(X,d)$ . Let $alphain I$ be fixed and consider the collection ${C_icap C_{alpha}}_{iin I}$ of subsets of $C_{alpha}$ . Note that for each $iin I$ we have $C_icap C_{alpha}$ is a closed subset of the compact set $C_{alpha}$.Therefore $bigcap_{iin I} C_i=bigcap_{iin I} (C_icap C_{alpha})$ is also a closed subset of $C_{alpha}$ being arbitrary intersection of closed subsets. But closed subset of compact set is compact , hence $bigcap_{iin I} C_i$ is compact subset of $(X,d)$ . Note that compactness is not relative property.







        share|cite|improve this answer














        share|cite|improve this answer



        share|cite|improve this answer








        edited Nov 25 at 6:46

























        answered Nov 25 at 6:31









        UserS

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        1,344112















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