A question about closure and linear transformation












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$begingroup$


I use the following definition of closure:
begin{equation}
text{cl}~C = bigcap_{varepsilon>0}(C + varepsilon B),
end{equation}

where $B$ is Euclidean unit ball: $B = {boldsymbol{x} mid |boldsymbol{x}| leq 1}$.



Suppose that $C$ is subset of $boldsymbol{R}^n$, and linear transformation $mathcal{A}: boldsymbol{R}^n rightarrow boldsymbol{R}^m$.
Hence, is the following formula true?
begin{equation}
mathcal{A}(text{cl}~C) = bigcap_{varepsilon}(mathcal{A}C + varepsilon mathcal{A}B).
end{equation}

I know that $mathcal{A}(C_1 cap C_2) neq mathcal{A}C_1 cap mathcal{A}C_2$ (Intersection of linear Transformation.).
Therefore in this special situation, could i prove it or provide an counter example? Thanks.










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$endgroup$

















    0












    $begingroup$


    I use the following definition of closure:
    begin{equation}
    text{cl}~C = bigcap_{varepsilon>0}(C + varepsilon B),
    end{equation}

    where $B$ is Euclidean unit ball: $B = {boldsymbol{x} mid |boldsymbol{x}| leq 1}$.



    Suppose that $C$ is subset of $boldsymbol{R}^n$, and linear transformation $mathcal{A}: boldsymbol{R}^n rightarrow boldsymbol{R}^m$.
    Hence, is the following formula true?
    begin{equation}
    mathcal{A}(text{cl}~C) = bigcap_{varepsilon}(mathcal{A}C + varepsilon mathcal{A}B).
    end{equation}

    I know that $mathcal{A}(C_1 cap C_2) neq mathcal{A}C_1 cap mathcal{A}C_2$ (Intersection of linear Transformation.).
    Therefore in this special situation, could i prove it or provide an counter example? Thanks.










    share|cite|improve this question











    $endgroup$















      0












      0








      0





      $begingroup$


      I use the following definition of closure:
      begin{equation}
      text{cl}~C = bigcap_{varepsilon>0}(C + varepsilon B),
      end{equation}

      where $B$ is Euclidean unit ball: $B = {boldsymbol{x} mid |boldsymbol{x}| leq 1}$.



      Suppose that $C$ is subset of $boldsymbol{R}^n$, and linear transformation $mathcal{A}: boldsymbol{R}^n rightarrow boldsymbol{R}^m$.
      Hence, is the following formula true?
      begin{equation}
      mathcal{A}(text{cl}~C) = bigcap_{varepsilon}(mathcal{A}C + varepsilon mathcal{A}B).
      end{equation}

      I know that $mathcal{A}(C_1 cap C_2) neq mathcal{A}C_1 cap mathcal{A}C_2$ (Intersection of linear Transformation.).
      Therefore in this special situation, could i prove it or provide an counter example? Thanks.










      share|cite|improve this question











      $endgroup$




      I use the following definition of closure:
      begin{equation}
      text{cl}~C = bigcap_{varepsilon>0}(C + varepsilon B),
      end{equation}

      where $B$ is Euclidean unit ball: $B = {boldsymbol{x} mid |boldsymbol{x}| leq 1}$.



      Suppose that $C$ is subset of $boldsymbol{R}^n$, and linear transformation $mathcal{A}: boldsymbol{R}^n rightarrow boldsymbol{R}^m$.
      Hence, is the following formula true?
      begin{equation}
      mathcal{A}(text{cl}~C) = bigcap_{varepsilon}(mathcal{A}C + varepsilon mathcal{A}B).
      end{equation}

      I know that $mathcal{A}(C_1 cap C_2) neq mathcal{A}C_1 cap mathcal{A}C_2$ (Intersection of linear Transformation.).
      Therefore in this special situation, could i prove it or provide an counter example? Thanks.







      real-analysis convex-analysis






      share|cite|improve this question















      share|cite|improve this question













      share|cite|improve this question




      share|cite|improve this question








      edited Dec 18 '18 at 10:29







      Ze-Nan Li

















      asked Dec 18 '18 at 5:15









      Ze-Nan LiZe-Nan Li

      286




      286






















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