Example of a continuous function that don't have a continuous extensionExtending a continuous function defined on the rationalsLet $Asubset X$; let $f:Ato Y$ be continuous; let $Y$ be Hausdorff. Is there an example where there is no continuous function for $g$?Continuity of a product of two real valued continuous function.a counter example of extension of a continuous functionInverse of a continuous functionIf $Asubseteqmathbb R$ is closed and $f:Atomathbb R$ is right-continuous, is there a right-continuous extension of $f$ to $mathbb R$?Proving Topological Equivalence without finding a functionA function that can be continuously extended is continuousContinuous Extension of Densely Defined Continuous (but not Uniformly Continuous) Function.A topological space with the Universal Extension Property which is not homeomorphic to a retract of $mathbbR^J$?

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Example of a continuous function that don't have a continuous extension


Extending a continuous function defined on the rationalsLet $Asubset X$; let $f:Ato Y$ be continuous; let $Y$ be Hausdorff. Is there an example where there is no continuous function for $g$?Continuity of a product of two real valued continuous function.a counter example of extension of a continuous functionInverse of a continuous functionIf $Asubseteqmathbb R$ is closed and $f:Atomathbb R$ is right-continuous, is there a right-continuous extension of $f$ to $mathbb R$?Proving Topological Equivalence without finding a functionA function that can be continuously extended is continuousContinuous Extension of Densely Defined Continuous (but not Uniformly Continuous) Function.A topological space with the Universal Extension Property which is not homeomorphic to a retract of $mathbbR^J$?













4












$begingroup$



Give an example of a topological space $(X,tau)$, a subset $Asubset X$ that is dense in $X$ (i.e., $overlineA = X$), and a continuous function $f:AtomathbbR$ that cannot be continually extended to $X$, that is, a $f$ for such do not exist a continuous function $g:Xto mathbbR$ such that $f(x) = g(x)$ for all $xin A$.




I just proved that if $f,g:XtomathbbR$ are continuous and agree in a dense subset $Asubset X$ then they're equal.



I thought in $X=mathbbR$ with usual topology and $A = mathbbR-0 =:mathbbR^* $, so I think $f:mathbbR^*tomathbbR, f(x) = x^-1$ is a continuous function that cannot be continually extended to $mathbbR$. I'm quite sure of this, but I'm stuck in proving it using the definition of continuity in general topological spaces.



Also, I'm quite confused on how this asked example is not a counterexample of what I proved.



Thanks in advance.










share|cite|improve this question









$endgroup$







  • 1




    $begingroup$
    The open intervals form a basis for topology on the real line. A set is open if and only if it contains an open interval around each of these points. Using this definition of open sets you can show that the two different definitions of continuity are actually the same in this case. So you're example will work. And to show it will work you can show it using the usual definition of continuity you're used to in the real numbers.
    $endgroup$
    – Melody
    2 hours ago















4












$begingroup$



Give an example of a topological space $(X,tau)$, a subset $Asubset X$ that is dense in $X$ (i.e., $overlineA = X$), and a continuous function $f:AtomathbbR$ that cannot be continually extended to $X$, that is, a $f$ for such do not exist a continuous function $g:Xto mathbbR$ such that $f(x) = g(x)$ for all $xin A$.




I just proved that if $f,g:XtomathbbR$ are continuous and agree in a dense subset $Asubset X$ then they're equal.



I thought in $X=mathbbR$ with usual topology and $A = mathbbR-0 =:mathbbR^* $, so I think $f:mathbbR^*tomathbbR, f(x) = x^-1$ is a continuous function that cannot be continually extended to $mathbbR$. I'm quite sure of this, but I'm stuck in proving it using the definition of continuity in general topological spaces.



Also, I'm quite confused on how this asked example is not a counterexample of what I proved.



Thanks in advance.










share|cite|improve this question









$endgroup$







  • 1




    $begingroup$
    The open intervals form a basis for topology on the real line. A set is open if and only if it contains an open interval around each of these points. Using this definition of open sets you can show that the two different definitions of continuity are actually the same in this case. So you're example will work. And to show it will work you can show it using the usual definition of continuity you're used to in the real numbers.
    $endgroup$
    – Melody
    2 hours ago













4












4








4





$begingroup$



Give an example of a topological space $(X,tau)$, a subset $Asubset X$ that is dense in $X$ (i.e., $overlineA = X$), and a continuous function $f:AtomathbbR$ that cannot be continually extended to $X$, that is, a $f$ for such do not exist a continuous function $g:Xto mathbbR$ such that $f(x) = g(x)$ for all $xin A$.




I just proved that if $f,g:XtomathbbR$ are continuous and agree in a dense subset $Asubset X$ then they're equal.



I thought in $X=mathbbR$ with usual topology and $A = mathbbR-0 =:mathbbR^* $, so I think $f:mathbbR^*tomathbbR, f(x) = x^-1$ is a continuous function that cannot be continually extended to $mathbbR$. I'm quite sure of this, but I'm stuck in proving it using the definition of continuity in general topological spaces.



Also, I'm quite confused on how this asked example is not a counterexample of what I proved.



Thanks in advance.










share|cite|improve this question









$endgroup$





Give an example of a topological space $(X,tau)$, a subset $Asubset X$ that is dense in $X$ (i.e., $overlineA = X$), and a continuous function $f:AtomathbbR$ that cannot be continually extended to $X$, that is, a $f$ for such do not exist a continuous function $g:Xto mathbbR$ such that $f(x) = g(x)$ for all $xin A$.




I just proved that if $f,g:XtomathbbR$ are continuous and agree in a dense subset $Asubset X$ then they're equal.



I thought in $X=mathbbR$ with usual topology and $A = mathbbR-0 =:mathbbR^* $, so I think $f:mathbbR^*tomathbbR, f(x) = x^-1$ is a continuous function that cannot be continually extended to $mathbbR$. I'm quite sure of this, but I'm stuck in proving it using the definition of continuity in general topological spaces.



Also, I'm quite confused on how this asked example is not a counterexample of what I proved.



Thanks in advance.







general-topology continuity






share|cite|improve this question













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asked 2 hours ago









AnalyticHarmonyAnalyticHarmony

694313




694313







  • 1




    $begingroup$
    The open intervals form a basis for topology on the real line. A set is open if and only if it contains an open interval around each of these points. Using this definition of open sets you can show that the two different definitions of continuity are actually the same in this case. So you're example will work. And to show it will work you can show it using the usual definition of continuity you're used to in the real numbers.
    $endgroup$
    – Melody
    2 hours ago












  • 1




    $begingroup$
    The open intervals form a basis for topology on the real line. A set is open if and only if it contains an open interval around each of these points. Using this definition of open sets you can show that the two different definitions of continuity are actually the same in this case. So you're example will work. And to show it will work you can show it using the usual definition of continuity you're used to in the real numbers.
    $endgroup$
    – Melody
    2 hours ago







1




1




$begingroup$
The open intervals form a basis for topology on the real line. A set is open if and only if it contains an open interval around each of these points. Using this definition of open sets you can show that the two different definitions of continuity are actually the same in this case. So you're example will work. And to show it will work you can show it using the usual definition of continuity you're used to in the real numbers.
$endgroup$
– Melody
2 hours ago




$begingroup$
The open intervals form a basis for topology on the real line. A set is open if and only if it contains an open interval around each of these points. Using this definition of open sets you can show that the two different definitions of continuity are actually the same in this case. So you're example will work. And to show it will work you can show it using the usual definition of continuity you're used to in the real numbers.
$endgroup$
– Melody
2 hours ago










2 Answers
2






active

oldest

votes


















3












$begingroup$

Define $f(x)=1/x$ like you did, and assume you can find a continuous extension $g : mathbbRtomathbbR$. Well this $g $ takes a real numbered value at $0$, namely $-infty < g (0) < infty $, and it agrees with $f $ at non-zero values.



One definition of continuity is that given a net of points in $X $ converging to $x_0$ and a function $g $, then the images converge to $g(x_0) $. Since $mathbbR$ is a metric space, we can use sequences instead of nets. But given a sequence of real numbers $(x_n )_n=1^infty $ converging to $0$, the sequence $(g (x_n))_n=1^infty $ converges to either positive or negative $infty $. So it does not converge to $g (0) $. So $g $ is not continuous




BTW regarding your question on the results you proved. You proved a result about two functions that were continuous on the entire space, who agree on a dense subset. But the main question of your post is regarding a function who is not assumed to be continuous on the entire space, and comparing it to one that is continuous on the entire space. So the main example is not countering your original result






share|cite|improve this answer











$endgroup$




















    1












    $begingroup$

    Using sequences is the easiest way to go, but for a more "topological" proof, to show that no extension of $f$ is continuous at $x=0,$ we suppose there is one (we still call it $f$ for convenience), and we show that there is an $epsilon>0$ so that for any $delta >0$, there is an $xin (-delta,delta$), such that$f(x)>f(0)+epsilon$ (or that $f(x)<f(0)-epsilon$). Let's do the former.



    Now, drawing a picture will make the following obvious:



    Take $epsilon=1.$ Then, if $f(0)+1le 0$, then $textany xin (0,delta)$ will do because $f(x)=1/x>0.$



    If $f(0)+1> 0$, all we need do is choose $x$ small enough so that $f(x)=1/x>f(0)+1,$ which is to say, choose $x<mindelta, frac1f(0)+1$






    share|cite|improve this answer









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      2 Answers
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      2 Answers
      2






      active

      oldest

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      active

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      active

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      3












      $begingroup$

      Define $f(x)=1/x$ like you did, and assume you can find a continuous extension $g : mathbbRtomathbbR$. Well this $g $ takes a real numbered value at $0$, namely $-infty < g (0) < infty $, and it agrees with $f $ at non-zero values.



      One definition of continuity is that given a net of points in $X $ converging to $x_0$ and a function $g $, then the images converge to $g(x_0) $. Since $mathbbR$ is a metric space, we can use sequences instead of nets. But given a sequence of real numbers $(x_n )_n=1^infty $ converging to $0$, the sequence $(g (x_n))_n=1^infty $ converges to either positive or negative $infty $. So it does not converge to $g (0) $. So $g $ is not continuous




      BTW regarding your question on the results you proved. You proved a result about two functions that were continuous on the entire space, who agree on a dense subset. But the main question of your post is regarding a function who is not assumed to be continuous on the entire space, and comparing it to one that is continuous on the entire space. So the main example is not countering your original result






      share|cite|improve this answer











      $endgroup$

















        3












        $begingroup$

        Define $f(x)=1/x$ like you did, and assume you can find a continuous extension $g : mathbbRtomathbbR$. Well this $g $ takes a real numbered value at $0$, namely $-infty < g (0) < infty $, and it agrees with $f $ at non-zero values.



        One definition of continuity is that given a net of points in $X $ converging to $x_0$ and a function $g $, then the images converge to $g(x_0) $. Since $mathbbR$ is a metric space, we can use sequences instead of nets. But given a sequence of real numbers $(x_n )_n=1^infty $ converging to $0$, the sequence $(g (x_n))_n=1^infty $ converges to either positive or negative $infty $. So it does not converge to $g (0) $. So $g $ is not continuous




        BTW regarding your question on the results you proved. You proved a result about two functions that were continuous on the entire space, who agree on a dense subset. But the main question of your post is regarding a function who is not assumed to be continuous on the entire space, and comparing it to one that is continuous on the entire space. So the main example is not countering your original result






        share|cite|improve this answer











        $endgroup$















          3












          3








          3





          $begingroup$

          Define $f(x)=1/x$ like you did, and assume you can find a continuous extension $g : mathbbRtomathbbR$. Well this $g $ takes a real numbered value at $0$, namely $-infty < g (0) < infty $, and it agrees with $f $ at non-zero values.



          One definition of continuity is that given a net of points in $X $ converging to $x_0$ and a function $g $, then the images converge to $g(x_0) $. Since $mathbbR$ is a metric space, we can use sequences instead of nets. But given a sequence of real numbers $(x_n )_n=1^infty $ converging to $0$, the sequence $(g (x_n))_n=1^infty $ converges to either positive or negative $infty $. So it does not converge to $g (0) $. So $g $ is not continuous




          BTW regarding your question on the results you proved. You proved a result about two functions that were continuous on the entire space, who agree on a dense subset. But the main question of your post is regarding a function who is not assumed to be continuous on the entire space, and comparing it to one that is continuous on the entire space. So the main example is not countering your original result






          share|cite|improve this answer











          $endgroup$



          Define $f(x)=1/x$ like you did, and assume you can find a continuous extension $g : mathbbRtomathbbR$. Well this $g $ takes a real numbered value at $0$, namely $-infty < g (0) < infty $, and it agrees with $f $ at non-zero values.



          One definition of continuity is that given a net of points in $X $ converging to $x_0$ and a function $g $, then the images converge to $g(x_0) $. Since $mathbbR$ is a metric space, we can use sequences instead of nets. But given a sequence of real numbers $(x_n )_n=1^infty $ converging to $0$, the sequence $(g (x_n))_n=1^infty $ converges to either positive or negative $infty $. So it does not converge to $g (0) $. So $g $ is not continuous




          BTW regarding your question on the results you proved. You proved a result about two functions that were continuous on the entire space, who agree on a dense subset. But the main question of your post is regarding a function who is not assumed to be continuous on the entire space, and comparing it to one that is continuous on the entire space. So the main example is not countering your original result







          share|cite|improve this answer














          share|cite|improve this answer



          share|cite|improve this answer








          edited 1 hour ago

























          answered 2 hours ago









          NazimJNazimJ

          78019




          78019





















              1












              $begingroup$

              Using sequences is the easiest way to go, but for a more "topological" proof, to show that no extension of $f$ is continuous at $x=0,$ we suppose there is one (we still call it $f$ for convenience), and we show that there is an $epsilon>0$ so that for any $delta >0$, there is an $xin (-delta,delta$), such that$f(x)>f(0)+epsilon$ (or that $f(x)<f(0)-epsilon$). Let's do the former.



              Now, drawing a picture will make the following obvious:



              Take $epsilon=1.$ Then, if $f(0)+1le 0$, then $textany xin (0,delta)$ will do because $f(x)=1/x>0.$



              If $f(0)+1> 0$, all we need do is choose $x$ small enough so that $f(x)=1/x>f(0)+1,$ which is to say, choose $x<mindelta, frac1f(0)+1$






              share|cite|improve this answer









              $endgroup$

















                1












                $begingroup$

                Using sequences is the easiest way to go, but for a more "topological" proof, to show that no extension of $f$ is continuous at $x=0,$ we suppose there is one (we still call it $f$ for convenience), and we show that there is an $epsilon>0$ so that for any $delta >0$, there is an $xin (-delta,delta$), such that$f(x)>f(0)+epsilon$ (or that $f(x)<f(0)-epsilon$). Let's do the former.



                Now, drawing a picture will make the following obvious:



                Take $epsilon=1.$ Then, if $f(0)+1le 0$, then $textany xin (0,delta)$ will do because $f(x)=1/x>0.$



                If $f(0)+1> 0$, all we need do is choose $x$ small enough so that $f(x)=1/x>f(0)+1,$ which is to say, choose $x<mindelta, frac1f(0)+1$






                share|cite|improve this answer









                $endgroup$















                  1












                  1








                  1





                  $begingroup$

                  Using sequences is the easiest way to go, but for a more "topological" proof, to show that no extension of $f$ is continuous at $x=0,$ we suppose there is one (we still call it $f$ for convenience), and we show that there is an $epsilon>0$ so that for any $delta >0$, there is an $xin (-delta,delta$), such that$f(x)>f(0)+epsilon$ (or that $f(x)<f(0)-epsilon$). Let's do the former.



                  Now, drawing a picture will make the following obvious:



                  Take $epsilon=1.$ Then, if $f(0)+1le 0$, then $textany xin (0,delta)$ will do because $f(x)=1/x>0.$



                  If $f(0)+1> 0$, all we need do is choose $x$ small enough so that $f(x)=1/x>f(0)+1,$ which is to say, choose $x<mindelta, frac1f(0)+1$






                  share|cite|improve this answer









                  $endgroup$



                  Using sequences is the easiest way to go, but for a more "topological" proof, to show that no extension of $f$ is continuous at $x=0,$ we suppose there is one (we still call it $f$ for convenience), and we show that there is an $epsilon>0$ so that for any $delta >0$, there is an $xin (-delta,delta$), such that$f(x)>f(0)+epsilon$ (or that $f(x)<f(0)-epsilon$). Let's do the former.



                  Now, drawing a picture will make the following obvious:



                  Take $epsilon=1.$ Then, if $f(0)+1le 0$, then $textany xin (0,delta)$ will do because $f(x)=1/x>0.$



                  If $f(0)+1> 0$, all we need do is choose $x$ small enough so that $f(x)=1/x>f(0)+1,$ which is to say, choose $x<mindelta, frac1f(0)+1$







                  share|cite|improve this answer












                  share|cite|improve this answer



                  share|cite|improve this answer










                  answered 1 hour ago









                  MatematletaMatematleta

                  12.1k21020




                  12.1k21020



























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                      ValueError: Expected n_neighbors <= n_samples, but n_samples = 1, n_neighbors = 6 (SMOTE) The 2019 Stack Overflow Developer Survey Results Are InCan SMOTE be applied over sequence of words (sentences)?ValueError when doing validation with random forestsSMOTE and multi class oversamplingLogic behind SMOTE-NC?ValueError: Error when checking target: expected dense_1 to have shape (7,) but got array with shape (1,)SmoteBoost: Should SMOTE be ran individually for each iteration/tree in the boosting?solving multi-class imbalance classification using smote and OSSUsing SMOTE for Synthetic Data generation to improve performance on unbalanced dataproblem of entry format for a simple model in KerasSVM SMOTE fit_resample() function runs forever with no result