Write down detailed proofs of every statement you make
- Let A be a nn matrix with a eigenvalue C. Set di = dim(Ker(A I)i). Let d0 = 0 and recall that dk dk1 is the number of Jordan blocks larger or equal than k.
- If n = 4, and d1 = 2, d2 = 4 find the Jordan canonical form of A.
- If n = 6 and d1 = 3, d2 = 5 and d3 = 6, find the Jordan canonical form of A.
- If n = 5 and there is one eigenvalue = 0 with d1 = 2,d2 = 3,d3 = 4; and one eigenvalue = 1 with d1 = 1. Find the Jordan canonical form of A.
- Find all eigenvectors and the size of the Jordan blocks of
.
- Prove that for any linear transformation A : V V , with eigenvalues 1,,n and any polynomial f(t) the linear transformation f(A) will have as eigenvalues f(1),,f(n).
- Show that if A is a square matrix with zero determinant, then there exists a polynomial p(t) such that
A p(A) = 0.
- Find four 4 4 matrices A1,A2,A3,A4 with minimal polynomial of degree 1,2,3,4 respectively.
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