Problem 5: Let V and W be vector spaces and let B = {V1, V2, ..., Un} CV be a basis for V. Let L :V + W be a linear transformation, and let Ker L = {2 € V: L(x)=0}. (a) If Ker L = {0}, show that C = {L(v1), L(02), ..., L(vn) } CW is a linearly independent set in W. (b) If C = {L(01), L(V2),..., L(Un)} C W is a linearly independent set in W,...
Problem 5. (10pts) Let A E Mm.n(k) be a matrix of rank 2. Prove that A can be written as B.C, where Be Mm.2(k) and CE M2.n(k).
#9. Which of the following is not necessarily a valid factorization of the given matrix M? (A) if M is any square matrix, then M = QR, where Q and R are both orthogonal matrices (B) if M has linearly independent columns, then M = QR where Q has orthonormal columns and R is an invertible upper triangular matrix (C) if M is a real symmetric matrix, then M = QDQT for some orthogonal matrix Q and diagonal matrix D...
1Hint: Use the theorem from class that any linearly independent list of vectors is contained in a basis 2Hint: Remember that we prove the equality of sets X = Y by showing X ⊂ Y and Y ⊂ X. (2 points each for (a),(b),(d)) In this problem, we will prove the following di- mension formula. Theorem. If H and H' are subspaces of a finite-dimensional vector space V, then dim(H+H') = dim(H)+dim(H') - dim(H nH'). (a) Suppose {u1;...; up} is...
For Problems C4-C11, prove or disprove the statement. C4 If V is an n-dimensional vector space and {11,...,Vk} is a linearly independent set in V, then k sn. C5 Every basis for P2(R) has exactly two vectors in it. C6 If {V1, V2} is a basis for a 2-dimensional vector space V, then {ağı + bū2, cũı + dv2} is also a basis for V for any non-zero real numbers a,b,c,d.
where V is an n × n orthogonal matrix and U is an m × m orthogonal matrix with entries σί, , , , , Ơr where r min{m, n), one can show that A 3 Computation of an SVD We will now compute the SVD of a simple 3 × 2 matrix. Let Answer the following questions to compute the SVD of A. 5, Determine a bases for the eigenspace of λ-11and λ-1. 6. Lastly normalize the vectors (mske...
(6) Let A denote an m x n matrix. Prove that rank A < 1 if and only if A = BC. Where B is an m x 1 matrix and C is a 1 xn matrix. Solution (7) Do the following: (a) Use proof by induction to find a formula for for all positive integers n and for alld E R. Solution ... 2 for all positive (b) Find a closed formula for each entry of A" where A...
Problem 1: Let W = {p(t) € Pz : p'le) = 0}. We know from Problem 1, Section 4.3 and Problem 1, Section 4.6 that W is a subspace of P3. Let T:W+Pbe given by T(p(t)) = p' (t). It is easy to check that T is a linear transformation. (a) Find a basis for and the dimension of Range T. (b) Find Ker T, a basis for Ker T and dim KerT. (c) Is T one-to-one? Explain. (d) Is...
Let A be an m x n matrix of unspecified rank. Let b e Rm, and let Prove that this infimum is attained. In other words, prove the existence of an ax for which l|Ax bll p. In this problem, the norm is an arbitrary one defined on Rm. Let A be an m x n matrix of unspecified rank. Let b e Rm, and let Prove that this infimum is attained. In other words, prove the existence of an...