Minimal polynomial?












0












$begingroup$


Let $K$ a field, $p,nin mathbb{N}$, $Bin mathcal{M}_p({K})$ and let denote $S_B={Xin mathcal{M}_p(K) mid X^n=B}$.



If $Xin S_B$, I have to prove that $mu_X$ (the minimal polynomial of $X$) divides $mu_B(xi^n)$.



If $Xin S_B$ then we can deduce that $X^n-B=0$ but after I do not know how to link this with $mu_X$ or $mu_B$...



Thanks in advance !










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$endgroup$

















    0












    $begingroup$


    Let $K$ a field, $p,nin mathbb{N}$, $Bin mathcal{M}_p({K})$ and let denote $S_B={Xin mathcal{M}_p(K) mid X^n=B}$.



    If $Xin S_B$, I have to prove that $mu_X$ (the minimal polynomial of $X$) divides $mu_B(xi^n)$.



    If $Xin S_B$ then we can deduce that $X^n-B=0$ but after I do not know how to link this with $mu_X$ or $mu_B$...



    Thanks in advance !










    share|cite|improve this question











    $endgroup$















      0












      0








      0





      $begingroup$


      Let $K$ a field, $p,nin mathbb{N}$, $Bin mathcal{M}_p({K})$ and let denote $S_B={Xin mathcal{M}_p(K) mid X^n=B}$.



      If $Xin S_B$, I have to prove that $mu_X$ (the minimal polynomial of $X$) divides $mu_B(xi^n)$.



      If $Xin S_B$ then we can deduce that $X^n-B=0$ but after I do not know how to link this with $mu_X$ or $mu_B$...



      Thanks in advance !










      share|cite|improve this question











      $endgroup$




      Let $K$ a field, $p,nin mathbb{N}$, $Bin mathcal{M}_p({K})$ and let denote $S_B={Xin mathcal{M}_p(K) mid X^n=B}$.



      If $Xin S_B$, I have to prove that $mu_X$ (the minimal polynomial of $X$) divides $mu_B(xi^n)$.



      If $Xin S_B$ then we can deduce that $X^n-B=0$ but after I do not know how to link this with $mu_X$ or $mu_B$...



      Thanks in advance !







      linear-algebra matrices polynomials minimal-polynomials






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      share|cite|improve this question













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      share|cite|improve this question








      edited Jan 11 at 19:09









      Omnomnomnom

      128k791186




      128k791186










      asked Jan 11 at 19:07









      MamanMaman

      1,196722




      1,196722






















          1 Answer
          1






          active

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          2












          $begingroup$

          Hint: It suffices to note that if $X in S_B$, then $mu_B(X^n) = 0$






          share|cite|improve this answer









          $endgroup$













          • $begingroup$
            Does it come from the fact that $mu_B(B)=0$ by definition ?
            $endgroup$
            – Maman
            Jan 11 at 19:15










          • $begingroup$
            @Maman exactly.
            $endgroup$
            – Omnomnomnom
            Jan 11 at 19:16










          • $begingroup$
            Then I think we have : $mu_{X^n}(X^N)=0$ ? What is the link with $xi^n$ ?
            $endgroup$
            – Maman
            Jan 12 at 21:27












          • $begingroup$
            If $p(A)=0$, then the minimal polynomial of $A$ divides $p$.
            $endgroup$
            – Omnomnomnom
            Jan 13 at 1:49










          • $begingroup$
            @Maman $xi$ is used to emphasize the polynomial itself. That is, $p(xi) = mu_B(xi^n)$ is a polynomial satisfying $p(X) = 0$
            $endgroup$
            – Omnomnomnom
            Jan 13 at 16:54











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          1 Answer
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          active

          oldest

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          1 Answer
          1






          active

          oldest

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          active

          oldest

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          active

          oldest

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          2












          $begingroup$

          Hint: It suffices to note that if $X in S_B$, then $mu_B(X^n) = 0$






          share|cite|improve this answer









          $endgroup$













          • $begingroup$
            Does it come from the fact that $mu_B(B)=0$ by definition ?
            $endgroup$
            – Maman
            Jan 11 at 19:15










          • $begingroup$
            @Maman exactly.
            $endgroup$
            – Omnomnomnom
            Jan 11 at 19:16










          • $begingroup$
            Then I think we have : $mu_{X^n}(X^N)=0$ ? What is the link with $xi^n$ ?
            $endgroup$
            – Maman
            Jan 12 at 21:27












          • $begingroup$
            If $p(A)=0$, then the minimal polynomial of $A$ divides $p$.
            $endgroup$
            – Omnomnomnom
            Jan 13 at 1:49










          • $begingroup$
            @Maman $xi$ is used to emphasize the polynomial itself. That is, $p(xi) = mu_B(xi^n)$ is a polynomial satisfying $p(X) = 0$
            $endgroup$
            – Omnomnomnom
            Jan 13 at 16:54
















          2












          $begingroup$

          Hint: It suffices to note that if $X in S_B$, then $mu_B(X^n) = 0$






          share|cite|improve this answer









          $endgroup$













          • $begingroup$
            Does it come from the fact that $mu_B(B)=0$ by definition ?
            $endgroup$
            – Maman
            Jan 11 at 19:15










          • $begingroup$
            @Maman exactly.
            $endgroup$
            – Omnomnomnom
            Jan 11 at 19:16










          • $begingroup$
            Then I think we have : $mu_{X^n}(X^N)=0$ ? What is the link with $xi^n$ ?
            $endgroup$
            – Maman
            Jan 12 at 21:27












          • $begingroup$
            If $p(A)=0$, then the minimal polynomial of $A$ divides $p$.
            $endgroup$
            – Omnomnomnom
            Jan 13 at 1:49










          • $begingroup$
            @Maman $xi$ is used to emphasize the polynomial itself. That is, $p(xi) = mu_B(xi^n)$ is a polynomial satisfying $p(X) = 0$
            $endgroup$
            – Omnomnomnom
            Jan 13 at 16:54














          2












          2








          2





          $begingroup$

          Hint: It suffices to note that if $X in S_B$, then $mu_B(X^n) = 0$






          share|cite|improve this answer









          $endgroup$



          Hint: It suffices to note that if $X in S_B$, then $mu_B(X^n) = 0$







          share|cite|improve this answer












          share|cite|improve this answer



          share|cite|improve this answer










          answered Jan 11 at 19:11









          OmnomnomnomOmnomnomnom

          128k791186




          128k791186












          • $begingroup$
            Does it come from the fact that $mu_B(B)=0$ by definition ?
            $endgroup$
            – Maman
            Jan 11 at 19:15










          • $begingroup$
            @Maman exactly.
            $endgroup$
            – Omnomnomnom
            Jan 11 at 19:16










          • $begingroup$
            Then I think we have : $mu_{X^n}(X^N)=0$ ? What is the link with $xi^n$ ?
            $endgroup$
            – Maman
            Jan 12 at 21:27












          • $begingroup$
            If $p(A)=0$, then the minimal polynomial of $A$ divides $p$.
            $endgroup$
            – Omnomnomnom
            Jan 13 at 1:49










          • $begingroup$
            @Maman $xi$ is used to emphasize the polynomial itself. That is, $p(xi) = mu_B(xi^n)$ is a polynomial satisfying $p(X) = 0$
            $endgroup$
            – Omnomnomnom
            Jan 13 at 16:54


















          • $begingroup$
            Does it come from the fact that $mu_B(B)=0$ by definition ?
            $endgroup$
            – Maman
            Jan 11 at 19:15










          • $begingroup$
            @Maman exactly.
            $endgroup$
            – Omnomnomnom
            Jan 11 at 19:16










          • $begingroup$
            Then I think we have : $mu_{X^n}(X^N)=0$ ? What is the link with $xi^n$ ?
            $endgroup$
            – Maman
            Jan 12 at 21:27












          • $begingroup$
            If $p(A)=0$, then the minimal polynomial of $A$ divides $p$.
            $endgroup$
            – Omnomnomnom
            Jan 13 at 1:49










          • $begingroup$
            @Maman $xi$ is used to emphasize the polynomial itself. That is, $p(xi) = mu_B(xi^n)$ is a polynomial satisfying $p(X) = 0$
            $endgroup$
            – Omnomnomnom
            Jan 13 at 16:54
















          $begingroup$
          Does it come from the fact that $mu_B(B)=0$ by definition ?
          $endgroup$
          – Maman
          Jan 11 at 19:15




          $begingroup$
          Does it come from the fact that $mu_B(B)=0$ by definition ?
          $endgroup$
          – Maman
          Jan 11 at 19:15












          $begingroup$
          @Maman exactly.
          $endgroup$
          – Omnomnomnom
          Jan 11 at 19:16




          $begingroup$
          @Maman exactly.
          $endgroup$
          – Omnomnomnom
          Jan 11 at 19:16












          $begingroup$
          Then I think we have : $mu_{X^n}(X^N)=0$ ? What is the link with $xi^n$ ?
          $endgroup$
          – Maman
          Jan 12 at 21:27






          $begingroup$
          Then I think we have : $mu_{X^n}(X^N)=0$ ? What is the link with $xi^n$ ?
          $endgroup$
          – Maman
          Jan 12 at 21:27














          $begingroup$
          If $p(A)=0$, then the minimal polynomial of $A$ divides $p$.
          $endgroup$
          – Omnomnomnom
          Jan 13 at 1:49




          $begingroup$
          If $p(A)=0$, then the minimal polynomial of $A$ divides $p$.
          $endgroup$
          – Omnomnomnom
          Jan 13 at 1:49












          $begingroup$
          @Maman $xi$ is used to emphasize the polynomial itself. That is, $p(xi) = mu_B(xi^n)$ is a polynomial satisfying $p(X) = 0$
          $endgroup$
          – Omnomnomnom
          Jan 13 at 16:54




          $begingroup$
          @Maman $xi$ is used to emphasize the polynomial itself. That is, $p(xi) = mu_B(xi^n)$ is a polynomial satisfying $p(X) = 0$
          $endgroup$
          – Omnomnomnom
          Jan 13 at 16:54


















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