grandes-ecoles 2022 Q7

grandes-ecoles · France · mines-ponts-maths2__psi Proof Proof of Set Membership, Containment, or Structural Property

In this part, $E$ denotes a $\mathbf{C}$-vector space of dimension $n$ and $u$ denotes an endomorphism of $E$. We assume that $u$ is diagonalizable. We denote by $\mathcal{B} = (v_{1}, v_{2}, \ldots, v_{n})$ a basis of $E$ formed of eigenvectors of $u$. Let $F$ be a vector subspace of $E$, different from $\{0_{E}\}$ and from $E$.
Prove that there exists $k \in \llbracket 1; n \rrbracket$ such that $v_{k} \notin F$ and that then $F$ and the vector line spanned by $v_{k}$ are in direct sum.

In this part, $E$ denotes a $\mathbf{C}$-vector space of dimension $n$ and $u$ denotes an endomorphism of $E$. We assume that $u$ is diagonalizable. We denote by $\mathcal{B} = (v_{1}, v_{2}, \ldots, v_{n})$ a basis of $E$ formed of eigenvectors of $u$. Let $F$ be a vector subspace of $E$, different from $\{0_{E}\}$ and from $E$.

Prove that there exists $k \in \llbracket 1; n \rrbracket$ such that $v_{k} \notin F$ and that then $F$ and the vector line spanned by $v_{k}$ are in direct sum.

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