If $|langle f, g rangle| = | f |_2 |g|_2$ then $exists alpha, beta in mathbb{R} $ s.t. $alpha f = beta g $












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$begingroup$



Show the following are equivalent, for $f, g in L^2[a,b]$



a. $|langle f, g rangle| = |f|_2 |g|_2$



b. $exists alpha, beta in mathbb{R} $ s.t. $alpha f = beta g $




where $langle cdot , cdot rangle$ : inner product.





Try



(b $Rightarrow$ a) If $alpha=0$, things are trivial. Otherwise, note $f = frac{beta}{alpha} g$



$|langle f, g rangle| = |frac{beta}{alpha}| langle g, g rangle = |frac{beta}{alpha}| |g|_2 cdot|g|_2 = |f|_2 |g|_2 $



But I'm stuck at (a $Rightarrow$ b).










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    0












    $begingroup$



    Show the following are equivalent, for $f, g in L^2[a,b]$



    a. $|langle f, g rangle| = |f|_2 |g|_2$



    b. $exists alpha, beta in mathbb{R} $ s.t. $alpha f = beta g $




    where $langle cdot , cdot rangle$ : inner product.





    Try



    (b $Rightarrow$ a) If $alpha=0$, things are trivial. Otherwise, note $f = frac{beta}{alpha} g$



    $|langle f, g rangle| = |frac{beta}{alpha}| langle g, g rangle = |frac{beta}{alpha}| |g|_2 cdot|g|_2 = |f|_2 |g|_2 $



    But I'm stuck at (a $Rightarrow$ b).










    share|cite|improve this question











    $endgroup$















      0












      0








      0





      $begingroup$



      Show the following are equivalent, for $f, g in L^2[a,b]$



      a. $|langle f, g rangle| = |f|_2 |g|_2$



      b. $exists alpha, beta in mathbb{R} $ s.t. $alpha f = beta g $




      where $langle cdot , cdot rangle$ : inner product.





      Try



      (b $Rightarrow$ a) If $alpha=0$, things are trivial. Otherwise, note $f = frac{beta}{alpha} g$



      $|langle f, g rangle| = |frac{beta}{alpha}| langle g, g rangle = |frac{beta}{alpha}| |g|_2 cdot|g|_2 = |f|_2 |g|_2 $



      But I'm stuck at (a $Rightarrow$ b).










      share|cite|improve this question











      $endgroup$





      Show the following are equivalent, for $f, g in L^2[a,b]$



      a. $|langle f, g rangle| = |f|_2 |g|_2$



      b. $exists alpha, beta in mathbb{R} $ s.t. $alpha f = beta g $




      where $langle cdot , cdot rangle$ : inner product.





      Try



      (b $Rightarrow$ a) If $alpha=0$, things are trivial. Otherwise, note $f = frac{beta}{alpha} g$



      $|langle f, g rangle| = |frac{beta}{alpha}| langle g, g rangle = |frac{beta}{alpha}| |g|_2 cdot|g|_2 = |f|_2 |g|_2 $



      But I'm stuck at (a $Rightarrow$ b).







      real-analysis measure-theory






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      edited Dec 20 '18 at 13:53









      Nathanael Skrepek

      1,7231615




      1,7231615










      asked Dec 20 '18 at 12:53









      MoreblueMoreblue

      9151317




      9151317






















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          $begingroup$

          One can consider the function $f:mathbb{R}rightarrow mathbb{R},xmapsto ||f-xg||^2$. Since we have $||f-xg||^2=langle f-xg,f-xgrangle=||f||^2-2xlangle f,grangle + x^2||g||^2$, this gives rise to a quadratic function, which has a real root, because the discriminant is $left(2langle f,grangleright)^2-4||u||^2||v||^2=4langle f,grangle^2-4langle f,grangle^2=0$.
          Hence there is some $xin mathbb{R}$, s.t. $f-xg=0$, or equivalently $f=xg$.






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            $begingroup$

            One can consider the function $f:mathbb{R}rightarrow mathbb{R},xmapsto ||f-xg||^2$. Since we have $||f-xg||^2=langle f-xg,f-xgrangle=||f||^2-2xlangle f,grangle + x^2||g||^2$, this gives rise to a quadratic function, which has a real root, because the discriminant is $left(2langle f,grangleright)^2-4||u||^2||v||^2=4langle f,grangle^2-4langle f,grangle^2=0$.
            Hence there is some $xin mathbb{R}$, s.t. $f-xg=0$, or equivalently $f=xg$.






            share|cite|improve this answer











            $endgroup$


















              3












              $begingroup$

              One can consider the function $f:mathbb{R}rightarrow mathbb{R},xmapsto ||f-xg||^2$. Since we have $||f-xg||^2=langle f-xg,f-xgrangle=||f||^2-2xlangle f,grangle + x^2||g||^2$, this gives rise to a quadratic function, which has a real root, because the discriminant is $left(2langle f,grangleright)^2-4||u||^2||v||^2=4langle f,grangle^2-4langle f,grangle^2=0$.
              Hence there is some $xin mathbb{R}$, s.t. $f-xg=0$, or equivalently $f=xg$.






              share|cite|improve this answer











              $endgroup$
















                3












                3








                3





                $begingroup$

                One can consider the function $f:mathbb{R}rightarrow mathbb{R},xmapsto ||f-xg||^2$. Since we have $||f-xg||^2=langle f-xg,f-xgrangle=||f||^2-2xlangle f,grangle + x^2||g||^2$, this gives rise to a quadratic function, which has a real root, because the discriminant is $left(2langle f,grangleright)^2-4||u||^2||v||^2=4langle f,grangle^2-4langle f,grangle^2=0$.
                Hence there is some $xin mathbb{R}$, s.t. $f-xg=0$, or equivalently $f=xg$.






                share|cite|improve this answer











                $endgroup$



                One can consider the function $f:mathbb{R}rightarrow mathbb{R},xmapsto ||f-xg||^2$. Since we have $||f-xg||^2=langle f-xg,f-xgrangle=||f||^2-2xlangle f,grangle + x^2||g||^2$, this gives rise to a quadratic function, which has a real root, because the discriminant is $left(2langle f,grangleright)^2-4||u||^2||v||^2=4langle f,grangle^2-4langle f,grangle^2=0$.
                Hence there is some $xin mathbb{R}$, s.t. $f-xg=0$, or equivalently $f=xg$.







                share|cite|improve this answer














                share|cite|improve this answer



                share|cite|improve this answer








                edited Dec 20 '18 at 15:13









                BigbearZzz

                9,04221653




                9,04221653










                answered Dec 20 '18 at 13:11









                Student7Student7

                1839




                1839






























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