Looking for a certain function with compact support












0














can someone help me with the following doubt?



I know that if we consider a function $f$ with compact support and $C^infty(mathbb{R^2})$ such that $f(x)=1$ if $|x|leq{1}$ and $f(x)=0$ if $|x|geq{3}$. Then $f_s(x)=f(frac{x}{s})$ with $s>0$ verifies $$lim_{srightarrowinfty}{f_s(x)}=1$$



How can we define $f_s(x)$ to get $lim_{srightarrowinfty}{f_s(x)}=|x|^2$?



I thought of considering $f(x)=|x|^2$ if $|x|leq{1}$ and $f(x)=0$ if $|x|geq{3}$ and using $f_s$ as before, but it doesn't work.



Thanks.










share|cite|improve this question





























    0














    can someone help me with the following doubt?



    I know that if we consider a function $f$ with compact support and $C^infty(mathbb{R^2})$ such that $f(x)=1$ if $|x|leq{1}$ and $f(x)=0$ if $|x|geq{3}$. Then $f_s(x)=f(frac{x}{s})$ with $s>0$ verifies $$lim_{srightarrowinfty}{f_s(x)}=1$$



    How can we define $f_s(x)$ to get $lim_{srightarrowinfty}{f_s(x)}=|x|^2$?



    I thought of considering $f(x)=|x|^2$ if $|x|leq{1}$ and $f(x)=0$ if $|x|geq{3}$ and using $f_s$ as before, but it doesn't work.



    Thanks.










    share|cite|improve this question



























      0












      0








      0


      1





      can someone help me with the following doubt?



      I know that if we consider a function $f$ with compact support and $C^infty(mathbb{R^2})$ such that $f(x)=1$ if $|x|leq{1}$ and $f(x)=0$ if $|x|geq{3}$. Then $f_s(x)=f(frac{x}{s})$ with $s>0$ verifies $$lim_{srightarrowinfty}{f_s(x)}=1$$



      How can we define $f_s(x)$ to get $lim_{srightarrowinfty}{f_s(x)}=|x|^2$?



      I thought of considering $f(x)=|x|^2$ if $|x|leq{1}$ and $f(x)=0$ if $|x|geq{3}$ and using $f_s$ as before, but it doesn't work.



      Thanks.










      share|cite|improve this question















      can someone help me with the following doubt?



      I know that if we consider a function $f$ with compact support and $C^infty(mathbb{R^2})$ such that $f(x)=1$ if $|x|leq{1}$ and $f(x)=0$ if $|x|geq{3}$. Then $f_s(x)=f(frac{x}{s})$ with $s>0$ verifies $$lim_{srightarrowinfty}{f_s(x)}=1$$



      How can we define $f_s(x)$ to get $lim_{srightarrowinfty}{f_s(x)}=|x|^2$?



      I thought of considering $f(x)=|x|^2$ if $|x|leq{1}$ and $f(x)=0$ if $|x|geq{3}$ and using $f_s$ as before, but it doesn't work.



      Thanks.







      real-analysis functional-analysis analysis






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      edited Dec 26 at 11:34









      Julián Aguirre

      67.5k24094




      67.5k24094










      asked Dec 26 at 9:06









      mathlife

      619




      619






















          1 Answer
          1






          active

          oldest

          votes


















          1














          Nothing will work.
          $$
          lim_{stoinfty}f_s(x)=f(0)
          $$

          is a constant.






          share|cite|improve this answer























          • And $f_s(x)=f(frac{x}{s})|x|^2$?
            – mathlife
            Dec 26 at 13:53










          • The limit will be $f(0),|x|^2$.
            – Julián Aguirre
            Dec 26 at 13:54










          • But un muy cuestión $f(0)=1$
            – mathlife
            Dec 26 at 13:57










          • Then $f(0),|x|^2=|x|^2$.
            – Julián Aguirre
            Dec 26 at 13:58










          • In that definition $f_s(x)$ has also compact support and is infinite derivable?
            – mathlife
            Dec 26 at 14:02











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          1 Answer
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          oldest

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          1 Answer
          1






          active

          oldest

          votes









          active

          oldest

          votes






          active

          oldest

          votes









          1














          Nothing will work.
          $$
          lim_{stoinfty}f_s(x)=f(0)
          $$

          is a constant.






          share|cite|improve this answer























          • And $f_s(x)=f(frac{x}{s})|x|^2$?
            – mathlife
            Dec 26 at 13:53










          • The limit will be $f(0),|x|^2$.
            – Julián Aguirre
            Dec 26 at 13:54










          • But un muy cuestión $f(0)=1$
            – mathlife
            Dec 26 at 13:57










          • Then $f(0),|x|^2=|x|^2$.
            – Julián Aguirre
            Dec 26 at 13:58










          • In that definition $f_s(x)$ has also compact support and is infinite derivable?
            – mathlife
            Dec 26 at 14:02
















          1














          Nothing will work.
          $$
          lim_{stoinfty}f_s(x)=f(0)
          $$

          is a constant.






          share|cite|improve this answer























          • And $f_s(x)=f(frac{x}{s})|x|^2$?
            – mathlife
            Dec 26 at 13:53










          • The limit will be $f(0),|x|^2$.
            – Julián Aguirre
            Dec 26 at 13:54










          • But un muy cuestión $f(0)=1$
            – mathlife
            Dec 26 at 13:57










          • Then $f(0),|x|^2=|x|^2$.
            – Julián Aguirre
            Dec 26 at 13:58










          • In that definition $f_s(x)$ has also compact support and is infinite derivable?
            – mathlife
            Dec 26 at 14:02














          1












          1








          1






          Nothing will work.
          $$
          lim_{stoinfty}f_s(x)=f(0)
          $$

          is a constant.






          share|cite|improve this answer














          Nothing will work.
          $$
          lim_{stoinfty}f_s(x)=f(0)
          $$

          is a constant.







          share|cite|improve this answer














          share|cite|improve this answer



          share|cite|improve this answer








          edited Dec 26 at 13:56

























          answered Dec 26 at 11:35









          Julián Aguirre

          67.5k24094




          67.5k24094












          • And $f_s(x)=f(frac{x}{s})|x|^2$?
            – mathlife
            Dec 26 at 13:53










          • The limit will be $f(0),|x|^2$.
            – Julián Aguirre
            Dec 26 at 13:54










          • But un muy cuestión $f(0)=1$
            – mathlife
            Dec 26 at 13:57










          • Then $f(0),|x|^2=|x|^2$.
            – Julián Aguirre
            Dec 26 at 13:58










          • In that definition $f_s(x)$ has also compact support and is infinite derivable?
            – mathlife
            Dec 26 at 14:02


















          • And $f_s(x)=f(frac{x}{s})|x|^2$?
            – mathlife
            Dec 26 at 13:53










          • The limit will be $f(0),|x|^2$.
            – Julián Aguirre
            Dec 26 at 13:54










          • But un muy cuestión $f(0)=1$
            – mathlife
            Dec 26 at 13:57










          • Then $f(0),|x|^2=|x|^2$.
            – Julián Aguirre
            Dec 26 at 13:58










          • In that definition $f_s(x)$ has also compact support and is infinite derivable?
            – mathlife
            Dec 26 at 14:02
















          And $f_s(x)=f(frac{x}{s})|x|^2$?
          – mathlife
          Dec 26 at 13:53




          And $f_s(x)=f(frac{x}{s})|x|^2$?
          – mathlife
          Dec 26 at 13:53












          The limit will be $f(0),|x|^2$.
          – Julián Aguirre
          Dec 26 at 13:54




          The limit will be $f(0),|x|^2$.
          – Julián Aguirre
          Dec 26 at 13:54












          But un muy cuestión $f(0)=1$
          – mathlife
          Dec 26 at 13:57




          But un muy cuestión $f(0)=1$
          – mathlife
          Dec 26 at 13:57












          Then $f(0),|x|^2=|x|^2$.
          – Julián Aguirre
          Dec 26 at 13:58




          Then $f(0),|x|^2=|x|^2$.
          – Julián Aguirre
          Dec 26 at 13:58












          In that definition $f_s(x)$ has also compact support and is infinite derivable?
          – mathlife
          Dec 26 at 14:02




          In that definition $f_s(x)$ has also compact support and is infinite derivable?
          – mathlife
          Dec 26 at 14:02


















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