Nilpotent Matrix A = {{{021,002,000}}}: What is its index?

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SUMMARY

The matrix A = {{{021,002,000}}} is confirmed to be nilpotent with an index of 3, as A^3 equals the zero matrix. The discussion emphasizes the verification of the equation (I-A)^(-1) = I + A + A^2, which is established by demonstrating that (I-A)*(I+A+A^2) equals the identity matrix I. The inverse of (I-A) was calculated as {{{125,012,001}}}, leading to the conclusion that A^2 is {{{004,000,001}}}.

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Homework Statement


A square(nxn) matrix is called nilpotent of index k if A\neq0, A^2\neq0,...A^(k-1)\neq0, But A^k=0 for some positive integer K

Verify that A={{{021,002,000}}} is nilpotent. What is its index? Show that for this matrix (I-A)-1= I + A + A^2




The Attempt at a Solution



I am unsure how different values of k affects the matrix... but For the equation (I-A)-1= I + A + A^2, I found the inverse of (I-A) which was {{{125,012,001}}}, which then gave me A^2 as {{{004,000,001}}}.
 
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You got the inverse of (I-A) ok. I'm assuming by A2 you mean A^2 (i.e. A squared, A times A). That didn't come out right. To find the index of A just keep computing successive powers A until you get zero. What is the index? To show (I-A)^(-1)=(I+A+A^2) you just want to show (I-A)*(I+A+A^2)=I. To do that you don't even need the numerical value of A once you've found it's index.
 
Thanks a lot! I figured out A^3=0 so I am assuming the nilpotent matrix is of index 3.
I'm not sure how you managed to get the equation "(I-A)*(I+A+A^2)=I." I just did I=(I-A)^-1 -A - A^2. Would that also be suitable?
 
You've got the index too. So A^3=0. If C^(-1)=D then that just means C*D=I. So to check if (I-A)^(-1)=(I+A+A^2) just check whether (I-A)*(I+A+A^2)=I. That's where I got it. To check that just multiply that expression out. Remembering A^3=0.
 

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