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  1. If $B=M^{-1} AM$, why is $\det B=\det A$? Show also that $\det A^{-1}B=1$.

  2. If the points $(x,y,z)$, $(2,1,0)$ and $(1,1,1)$ lie on a plane through the origin, what determinant is zero? Are the vectors $(1,0,-1)$, $(2,1,0)$, $(1,1,1)$ independent?

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    Are you aware of the fact that $\det(C_1 C_2) = \det(C_1) \det(C_2)$?2012-11-04
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    For the second part of problem 1, you'll need to assume that $A$ is invertible.2012-11-04
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    I know B is a diagonal matrix, but I'm not sure why detB=detA. detB=det(M−1)det(A)det(M), the lhs is "product of the pivots" but the rhs?? I'm not sure about that.2012-11-04
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    @noname Why do you think $B$ is necessarily diagonal?2012-11-04

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