T1 4r . Find a orthonormal basis for the following subspace of R*: x2: T2 2...
Find an orthonormal basis for the subspace of R3
spanned by
Extend the basis you found to an orthonormal basis for R 3 (by
adding a new vector or vectors). Is there a unique way to extend
the basis you found to an orthonormal basis of R3 ?
Explain.
3. Use the Gram-Schmidt process to find an orthonormal basis for the subspace of R' spanned by the vectors u; = (1,0,0,0), 12 = (1,1,0,0), uz = (0,1,1,1).
The set x1, x2} is a basis for a subspace W. Use the Gram-Schmidt process to produce an orthonormal basis for W exactly as described in the book. Instructions: You must perform the process by using the first vector in the list as X1 and the second vector as x2. The answer is unique! Round your answer to three decimal places. 3 2 1 -1 -9 X1 X2= -6 -6 0.309 0.154 V1 V2 -0.154 -0.926
The set x1, x2}...
Exercise 25. Let , be an orthonormal basis of a two-dimensional subspace S of R" and A xyT + (i) Show that x+y and x -y are eigenvectors of A. What are their corresponding eigenvalues? (ii) Show that 0 is an eigenvalue of R" with n - 2 linearly independent eigenvectors. (iii) Explain why A is diagonalizable.
Exercise 25. Let , be an orthonormal basis of a two-dimensional subspace S of R" and A xyT + (i) Show that x+y...
(a) Find an orthonormal basis for the linear subspace V of R4 generated by the vectors 1 1 1 1 2 (b) What is the projection of the vector on the linear subspace V?
(a) Find an orthonormal basis for the subspace U = span ((1, −1, 0, 1, 1),(3, −3, 2, 5, 5),(5, 1, 3, 2, 8)) of R 5 . (b) Express the vectors (0, −6, −1, 5, −1) as linear combinations of the orthonormal basis obtained in part (a). (c) Which of the standard basis vectors lie in U?
Exercise 20 Let fr,y} be an orthonormal basis of a two-dimensional subspace S of R" and T A= xx SL (i) Show that N(A (ii) Show that the rank of A is 2 (iii Show that x and y are eigenvectors of A for an eigenvalue X of A. What is A?
Exercise 20 Let fr,y} be an orthonormal basis of a two-dimensional subspace S of R" and T A= xx SL (i) Show that N(A (ii) Show that the...
The set of vectors {x1, x2} spans a subspace W of R’, where x1 = 4 2 5 and x2 ܕ ܩ ܟ 6 -7 (a) Use the Gram-Schmidt process to find an orthogonal basis for W. (b) Then normalize this new basis, so that it is an orthonormal basis. (c) Once you've found an orthonormal basis, demonstrate that it is indeed orthogonal after normalization. (d) For a bonus 2 points, calculate a third vector orthogonal to your basis and...
The set of vectors {x1, x2} spans a subspace W of R’, where x1 = 4 2 5 and x2 ܕ ܩ ܟ 6 -7 (a) Use the Gram-Schmidt process to find an orthogonal basis for W. (b) Then normalize this new basis, so that it is an orthonormal basis. (c) Once you've found an orthonormal basis, demonstrate that it is indeed orthogonal after normalization. (d) For a bonus 2 points, calculate a third vector orthogonal to your basis and...
4. Use the Gram-Schmidt Process to find an orthonormal basis for the subspace of R5 defined by 2 S-span 0 2