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KonradZuse
 3 years ago
8.5 #2In Exercise 2, find the matrix for T relative to the basis B, and use Theorem 8.5.2 to compute the matrix for T relative
to the basis B'
> T: R^(2)> R^(2) is defined by; T[[[x1],[x2]]] = [[[x1 + 7 x2,],[3 x1  4 x2,]]] ;
B = (u1, u2) and B' = (v1,u1)
> u1 =[[[2],[2]]]; u2 = [[[4],[1]]]; v1 =[[[1],[3]]]; [[[1],[1]]];
KonradZuse
 3 years ago
8.5 #2In Exercise 2, find the matrix for T relative to the basis B, and use Theorem 8.5.2 to compute the matrix for T relative to the basis B' > T: R^(2)> R^(2) is defined by; T[[[x1],[x2]]] = [[[x1 + 7 x2,],[3 x1  4 x2,]]] ; B = (u1, u2) and B' = (v1,u1) > u1 =[[[2],[2]]]; u2 = [[[4],[1]]]; v1 =[[[1],[3]]]; [[[1],[1]]];

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