Are $left{ (x,y) in mathbb{R^2} | |y| > x^2 , |y| x^4 , |y| < 10 right} $ homeomorphic?











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Are spaces $left{ (x,y) in mathbb{R^2} | |y| > x^2 , |y| < 10 right} $ and $left{(x,y) in mathbb{R^2} | |y| > x^4 , |y| < 10 right} $ homeomorphic? I think they might be but can't construct a homeomorphism because one is a subset of the other.










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  • Can you construct a homeomorphism between e.g. ${(x,y)mid x^2+y^2leq1}$ and ${(x,y)mid x^2+y^2leq4}$? Also here one is a subset of the other. I don't see why that should be an obstacle.
    – drhab
    Nov 18 at 14:46










  • What is (x,y)(x,y)?
    – William Elliot
    Nov 19 at 2:41










  • sorry I corrected it
    – user15269
    Nov 19 at 9:19















up vote
0
down vote

favorite












Are spaces $left{ (x,y) in mathbb{R^2} | |y| > x^2 , |y| < 10 right} $ and $left{(x,y) in mathbb{R^2} | |y| > x^4 , |y| < 10 right} $ homeomorphic? I think they might be but can't construct a homeomorphism because one is a subset of the other.










share|cite|improve this question
























  • Can you construct a homeomorphism between e.g. ${(x,y)mid x^2+y^2leq1}$ and ${(x,y)mid x^2+y^2leq4}$? Also here one is a subset of the other. I don't see why that should be an obstacle.
    – drhab
    Nov 18 at 14:46










  • What is (x,y)(x,y)?
    – William Elliot
    Nov 19 at 2:41










  • sorry I corrected it
    – user15269
    Nov 19 at 9:19













up vote
0
down vote

favorite









up vote
0
down vote

favorite











Are spaces $left{ (x,y) in mathbb{R^2} | |y| > x^2 , |y| < 10 right} $ and $left{(x,y) in mathbb{R^2} | |y| > x^4 , |y| < 10 right} $ homeomorphic? I think they might be but can't construct a homeomorphism because one is a subset of the other.










share|cite|improve this question















Are spaces $left{ (x,y) in mathbb{R^2} | |y| > x^2 , |y| < 10 right} $ and $left{(x,y) in mathbb{R^2} | |y| > x^4 , |y| < 10 right} $ homeomorphic? I think they might be but can't construct a homeomorphism because one is a subset of the other.







general-topology continuity






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edited Nov 19 at 9:15

























asked Nov 18 at 14:31









user15269

1588




1588












  • Can you construct a homeomorphism between e.g. ${(x,y)mid x^2+y^2leq1}$ and ${(x,y)mid x^2+y^2leq4}$? Also here one is a subset of the other. I don't see why that should be an obstacle.
    – drhab
    Nov 18 at 14:46










  • What is (x,y)(x,y)?
    – William Elliot
    Nov 19 at 2:41










  • sorry I corrected it
    – user15269
    Nov 19 at 9:19


















  • Can you construct a homeomorphism between e.g. ${(x,y)mid x^2+y^2leq1}$ and ${(x,y)mid x^2+y^2leq4}$? Also here one is a subset of the other. I don't see why that should be an obstacle.
    – drhab
    Nov 18 at 14:46










  • What is (x,y)(x,y)?
    – William Elliot
    Nov 19 at 2:41










  • sorry I corrected it
    – user15269
    Nov 19 at 9:19
















Can you construct a homeomorphism between e.g. ${(x,y)mid x^2+y^2leq1}$ and ${(x,y)mid x^2+y^2leq4}$? Also here one is a subset of the other. I don't see why that should be an obstacle.
– drhab
Nov 18 at 14:46




Can you construct a homeomorphism between e.g. ${(x,y)mid x^2+y^2leq1}$ and ${(x,y)mid x^2+y^2leq4}$? Also here one is a subset of the other. I don't see why that should be an obstacle.
– drhab
Nov 18 at 14:46












What is (x,y)(x,y)?
– William Elliot
Nov 19 at 2:41




What is (x,y)(x,y)?
– William Elliot
Nov 19 at 2:41












sorry I corrected it
– user15269
Nov 19 at 9:19




sorry I corrected it
– user15269
Nov 19 at 9:19










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Let's disect those sets. Both of them consist of two connected components: when $y<0$ and when $y>0$. It is enough that we show that those components are pairwise homeomorphic. And since each upper half component is a reflection of the lower half then it is enough to show that $A={(x,y) | y>x^2; y< 10}$ and $B={(x,y) | y>x^4; y< 10}$ are homeomorphic.



To do that you have to realize that both $f(x)=x^2$ and $f(x)=x^4$ are convex functions. A bit of work has to be done to make sure that these conditions together with $y<10$ imply that both $A$ and $B$ are open and convex subsets of $mathbb{R}^2$. And it is well known that every open and convex subset of $mathbb{R}^n$ is homeomorphic to a $n$-ball.






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    Let's disect those sets. Both of them consist of two connected components: when $y<0$ and when $y>0$. It is enough that we show that those components are pairwise homeomorphic. And since each upper half component is a reflection of the lower half then it is enough to show that $A={(x,y) | y>x^2; y< 10}$ and $B={(x,y) | y>x^4; y< 10}$ are homeomorphic.



    To do that you have to realize that both $f(x)=x^2$ and $f(x)=x^4$ are convex functions. A bit of work has to be done to make sure that these conditions together with $y<10$ imply that both $A$ and $B$ are open and convex subsets of $mathbb{R}^2$. And it is well known that every open and convex subset of $mathbb{R}^n$ is homeomorphic to a $n$-ball.






    share|cite|improve this answer

























      up vote
      1
      down vote













      Let's disect those sets. Both of them consist of two connected components: when $y<0$ and when $y>0$. It is enough that we show that those components are pairwise homeomorphic. And since each upper half component is a reflection of the lower half then it is enough to show that $A={(x,y) | y>x^2; y< 10}$ and $B={(x,y) | y>x^4; y< 10}$ are homeomorphic.



      To do that you have to realize that both $f(x)=x^2$ and $f(x)=x^4$ are convex functions. A bit of work has to be done to make sure that these conditions together with $y<10$ imply that both $A$ and $B$ are open and convex subsets of $mathbb{R}^2$. And it is well known that every open and convex subset of $mathbb{R}^n$ is homeomorphic to a $n$-ball.






      share|cite|improve this answer























        up vote
        1
        down vote










        up vote
        1
        down vote









        Let's disect those sets. Both of them consist of two connected components: when $y<0$ and when $y>0$. It is enough that we show that those components are pairwise homeomorphic. And since each upper half component is a reflection of the lower half then it is enough to show that $A={(x,y) | y>x^2; y< 10}$ and $B={(x,y) | y>x^4; y< 10}$ are homeomorphic.



        To do that you have to realize that both $f(x)=x^2$ and $f(x)=x^4$ are convex functions. A bit of work has to be done to make sure that these conditions together with $y<10$ imply that both $A$ and $B$ are open and convex subsets of $mathbb{R}^2$. And it is well known that every open and convex subset of $mathbb{R}^n$ is homeomorphic to a $n$-ball.






        share|cite|improve this answer












        Let's disect those sets. Both of them consist of two connected components: when $y<0$ and when $y>0$. It is enough that we show that those components are pairwise homeomorphic. And since each upper half component is a reflection of the lower half then it is enough to show that $A={(x,y) | y>x^2; y< 10}$ and $B={(x,y) | y>x^4; y< 10}$ are homeomorphic.



        To do that you have to realize that both $f(x)=x^2$ and $f(x)=x^4$ are convex functions. A bit of work has to be done to make sure that these conditions together with $y<10$ imply that both $A$ and $B$ are open and convex subsets of $mathbb{R}^2$. And it is well known that every open and convex subset of $mathbb{R}^n$ is homeomorphic to a $n$-ball.







        share|cite|improve this answer












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        share|cite|improve this answer










        answered Nov 19 at 9:29









        freakish

        10.9k1527




        10.9k1527






























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