Find the orthogonal projection of v⃗ =⎢4,−11,−36,9⎤ onto the subspace W spanned by ⎢0,0,−5,−2| , |−4,2,5,−5⎢...

Find the orthogonal projection of u onto the subspace of R4 spanned by the vectors v1,...

Find the orthogonal projection of u onto the subspace of R4 spanned by the vectors v1, v2 and v3. u = (3, 4, 2, 4) ; v1 = (3, 2, 3, 0), v2 = (-8, 3, 6, 3), v3 = (6, 3, -8, 3) Let (x, y, z, w) denote the orthogonal projection of u onto the given subspace. Then, the components of the target orthogonal projection are

Find the orthogonal projection of v =[12 -3 9 -16] onto the subspace W spanned by...

Find the orthogonal projection of v =[12 -3 9 -16] onto the subspace W spanned by {[-2 4 1 -1],[-4 0 -1 -4],[-4 1 -3 4]}

Find the orthogonal projection of v=[−2,10,−16,−19] onto the subspace W spanned by [-4,0,-2,1],[-4,-2,5,1],[3,-1,-3,4]

Find the orthogonal projection of v=[−2,10,−16,−19] onto the subspace W spanned by [-4,0,-2,1],[-4,-2,5,1],[3,-1,-3,4]

Let W be the subspace of R4 spanned by the vectors a = 3e1 − 4e2...

Let W be the subspace of R4 spanned by the vectors a = 3e1 − 4e2 and b = e2 + e3 + e4. Find the orthogonal projection of the vector v = [2, 0, 1, 0] onto W. Then calculate the distance of the point v from the subspace W.

Linear Algebra: Find the orthogonal projection of u3=[48,-12,108] onto the plane spanned by u1= [2,7,2] and...

Linear Algebra: Find the orthogonal projection of u3=[48,-12,108] onto the plane spanned by u1= [2,7,2] and u2=[5,35,15]. Answer Choices: [15,3,-3] [35,23,-34] [5,1,3] [-22,28,38] [24,21,-6] [24,0,6] [34,14,18] [21,22,-11] [57,12,27] [39,37,15]

let v1=[1,0,10], v2=[0,1,0,1] and let W be the subspace of R^4 spanned by v1 and v2....

let v1=[1,0,10], v2=[0,1,0,1] and let W be the subspace of R^4 spanned by v1 and v2. A. convert {v1,v2} into an orhonormal basis of W. Basis = B.find the projection of b=[-1,-2,-2,-1] onto W C.find two linear independent vectors in R^4 perpendicular to W. vectors =

Let W be a subspace of R^4 spanned by v1 = [1,1,2,0] and v2 = 2,-1,0,4]....

Let W be a subspace of R^4 spanned by v1 = [1,1,2,0] and v2 = 2,-1,0,4]. Find a basis for W^T = {v is in R^2 : w*v = 0 for w inside of W}

1. Find the orthogonal projection of the matrix [[3,2][4,5]] onto the space of diagonal 2x2 matrices...

1. Find the orthogonal projection of the matrix [[3,2][4,5]] onto the space of diagonal 2x2 matrices of the form lambda?I.   [[4.5,0][0,4.5]]  [[5.5,0][0,5.5]]  [[4,0][0,4]]  [[3.5,0][0,3.5]]  [[5,0][0,5]]  [[1.5,0][0,1.5]] 2. Find the orthogonal projection of the matrix [[2,1][2,6]] onto the space of symmetric 2x2 matrices of trace 0.   [[-1,3][3,1]]  [[1.5,1][1,-1.5]]  [[0,4][4,0]]  [[3,3.5][3.5,-3]]  [[0,1.5][1.5,0]]  [[-2,1.5][1.5,2]]  [[0.5,4.5][4.5,-0.5]]  [[-1,6][6,1]]  [[0,3.5][3.5,0]]  [[-1.5,3.5][3.5,1.5]] 3. Find the orthogonal projection of the matrix [[1,5][1,2]] onto the space of anti-symmetric 2x2 matrices.   [[0,-1] [1,0]]  [[0,2] [-2,0]]  [[0,-1.5] [1.5,0]]  [[0,2.5] [-2.5,0]]  [[0,0] [0,0]]  [[0,-0.5] [0.5,0]]  [[0,1] [-1,0]] [[0,1.5] [-1.5,0]]  [[0,-2.5] [2.5,0]]  [[0,0.5] [-0.5,0]] 4. Let p be the orthogonal projection of u=[40,-9,91]T onto the...

U= [2,-5,-1] V=[3,2,-3] Find the orthogonal projection of u onto v. Then write u as the...

U= [2,-5,-1] V=[3,2,-3] Find the orthogonal projection of u onto v. Then write u as the sum of two orthogonal vectors, one in span{U} and one orthogonal to U

Vectors u1= [1,1,1] and u2=[8,-7,-1] are perpendicular. Find the orthogonal projection of u3=[65,-19,-31] onto the plane...

Vectors u1= [1,1,1] and u2=[8,-7,-1] are perpendicular. Find the orthogonal projection of u3=[65,-19,-31] onto the plane spanned by u1 and u2.