Let V be Rn with a basis B={b1,...,bn}; let W be Rn with the standard basis,...

Let V = W = R2. Choose the basis B = {x1, x2} of V ,...

Let V = W = R2. Choose the basis B = {x1, x2} of V , where x1 = (2, 3), x2 = (4,−5) and choose the basis D = {y1,y2} of W, where y1 = (1,1), y2 = (−3,4). Find the matrix of the identity linear mapping I : V → W with respect to these bases.

Let V be a three-dimensional vector space with ordered basis B = {u, v, w}. Suppose...

Let V be a three-dimensional vector space with ordered basis B = {u, v, w}. Suppose that T is a linear transformation from V to itself and T(u) = u + v, T(v) = u, T(w) = v. 1. Find the matrix of T relative to the ordered basis B. 2. A typical element of V looks like au + bv + cw, where a, b and c are scalars. Find T(au + bv + cw). Now that you know...

Let V be a vector space with ordered basis B = (b1, . . . ,...

Let V be a vector space with ordered basis B = (b1, . . . , bn). Does the basis having n elements imply that V is the coordinate space R^n?

Let V and W be vector spaces and let T:V→W be a linear transformation. We say...

Let V and W be vector spaces and let T:V→W be a linear transformation. We say a linear transformation S:W→V is a left inverse of T if ST=Iv, where ?v denotes the identity transformation on V. We say a linear transformation S:W→V is a right inverse of ? if ??=?w, where ?w denotes the identity transformation on W. Finally, we say a linear transformation S:W→V is an inverse of ? if it is both a left and right inverse of...

Suppose B = {b1,b2} is basis for linear space V and C = {⃗c1,⃗c2,⃗c3} is a...

Suppose B = {b1,b2} is basis for linear space V and C = {⃗c1,⃗c2,⃗c3} is a basis for linear space W. Let T : V → W be a linear trans- formation with the property that ⃗ T ( b 1 ) = 3 ⃗c 1 + ⃗c 2 + 4 ⃗c 3 , ⃗ T ( b 2 ) = 4 ⃗c 1 + 2 ⃗c 2 − ⃗c 3 . Find the matrix M for T relative to...

Let the linear transformation T: V--->W be such that T (u) = u2 If a, b...

Let the linear transformation T: V--->W be such that T (u) = u2 If a, b are Real. Find T (au + bv) , if u = (x, y) v = (z, w) and uv = (xz-yw, xw + yz) Let the linear transformation T: V---> W be such that T (u) = T (x, y) = (xy, 0) where u = (x, y), with 2, -3. Then, if u = ( 1.0) and v = (0.1). Find the value...

Let W be an inner product space and v1,...,vn a basis of V. Show that〈S, T...

Let W be an inner product space and v1,...,vn a basis of V. Show that〈S, T 〉 = 〈Sv1, T v1〉 + . . . + 〈Svn, T vn〉 for S,T ∈ L(V,W) is an inner product on L(V,W). Let S ∈ L(R^2) be given by S(x1, x2) = (x1 + x2, x2) and let I ∈ L(R^2) be the identity operator. Using the inner product defined in problem 1 for the standard basis and the dot product, compute 〈S,...

Find the coordinate matrix of x relative to the orthonormal basis B in Rn. x =...

Find the coordinate matrix of x relative to the orthonormal basis B in Rn. x = (20, 5, 25), B = {(3/5,4/5,0),(-4/5,3/5,0),(0,0,1)}

10 Linear Transformations. Let V = R2 and W = R3. Define T: V → W...

10 Linear Transformations. Let V = R2 and W = R3. Define T: V → W by T(x1, x2) = (x1 − x2, x1, x2). Find the matrix representation of T using the standard bases in both V and W 11 Let T :R3 →R3 be a linear transformation such that T(1, 0, 0) = (2, 4, −1), T(0, 1, 0) = (1, 3, −2), T(0, 0, 1) = (0, −2, 2). Compute T(−2, 4, −1).

Let u, v, and w be vectors in Rn. Determine which of the following statements are...

Let u, v, and w be vectors in Rn. Determine which of the following statements are always true. (i) If ||u|| = 4, ||v|| = 5, and ?||u + v|| = 8, then u?·?v = 4. (ii) If ||u|| = 2 and ||v|| = 3, ?then |u?·?v| ? 5. (iii) The expression (v?·?w)u is both meaningful and defined. (A) (ii) and (iii) only (B) (ii) only (C) none of them (D) all of them (E) (i) only (F) (i) and...