%3D 14. (a) Suppose W1 and W2 are subspaces in a vector space V and that V W1 + W2. Prove that V W,eW, if and only if any vector v E V can be represented uniquely as v = v + vz where vy E W1, t2 E W2. (b) Suppose W and W2 are subspaces in a vector space V, and such that V = W1W2. If B, is a basis of W, and B, is a basis of W, prove that B, UB, is a basis of V. (c) If W, and W, are invariant subspaces for a linear transformation T: V V and V = W, eW2 prove that A1 0 A2 (a block matrix) where A, Tw, and Az-Ziv,
%3D 14. (a) Suppose W1 and W2 are subspaces in a vector space V and that V W1 + W2. Prove that V W,eW, if and only if any vector v E V can be represented uniquely as v = v + vz where vy E W1, t2 E W2. (b) Suppose W and W2 are subspaces in a vector space V, and such that V = W1W2. If B, is a basis of W, and B, is a basis of W, prove that B, UB, is a basis of V. (c) If W, and W, are invariant subspaces for a linear transformation T: V V and V = W, eW2 prove that A1 0 A2 (a block matrix) where A, Tw, and Az-Ziv,
Algebra and Trigonometry (6th Edition)
6th Edition
ISBN:9780134463216
Author:Robert F. Blitzer
Publisher:Robert F. Blitzer
ChapterP: Prerequisites: Fundamental Concepts Of Algebra
Section: Chapter Questions
Problem 1MCCP: In Exercises 1-25, simplify the given expression or perform the indicated operation (and simplify,...
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Solve all three part
Transcribed Image Text:14. (a) Suppose W, and W are subspaces in a vector space V and that V = W + W2.
Prove that V = W,eW, if and only if any vector vEV can be represented uniquely
%3D
as v = v + v2 where vy E Wi, 2 E W2.
(b) Suppose W, and W2 are subspaces in a vector space V, and such that V= W,eW2.
If 3, is a basis of W, and B, is a basis of W2 prove that B, UB, is a basis of V.
(c) If W and W, are invariant subspaces for a linear transformation T: V V and
V = W, eW2 prove that
A1
A
(a block matrix) where A, 1Tw, and A-Zv,K
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