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Let $\omega$ be a complex number such that $\omega^3=1$ , but $\omega\ne1$. If: $$A= \begin{pmatrix}1& \omega & \omega^2 \\ \omega& \omega^2&1\\\omega^2&\omega&1\end{pmatrix}$$ then which of the following are true?

  1. $A$ is invertible.
  2. $\operatorname{rank}(A)=2$.
  3. $0$ is an eigenvalue of $A$.
  4. There exist linearly independent vectors $v,w\in\mathbb{C}^3$ such that $Av=Aw=0$ .

Statement 1 is false as rank is $2$. So 2 and 3 are true, but I have no idea about 4. Please help me.

  • 3
    Do you know the rank-nullity theorem?2012-12-13
  • 0
    here nullity is 1 but if 4 gives nullity is 2.so 4 is false.is my approach is correct?2012-12-13
  • 0
    Yes is correct.2012-12-13

1 Answers 1