Let P(u) be the linear function mapping vector x ∈ Rn to the difference between x...

Let x be a vector in Rn written as a column, and define U = {Ax:A∈Mmn}....

Let x be a vector in Rn written as a column, and define U = {Ax:A∈Mmn}. Show that U is a subspace of Rm.

Let E be an n×n matrix, and letU= {xE:x∈Rn} (where x∈Rn is written as arow vector)....

Let E be an n×n matrix, and letU= {xE:x∈Rn} (where x∈Rn is written as arow vector). Show that the following are equivalent. (a) E^2 = E = E^T (T means transpose). (b) (u − uE) · (vE) = 0 for all u, v ∈ Rn. (c) projU(v) = vE for all v ∈ Rn.

Problem 3.2 Let H ∈ Rn×n be symmetric and idempotent, hence a projection matrix. Let x...

Problem 3.2 Let H ∈ Rn×n be symmetric and idempotent, hence a projection matrix. Let x ∼ N(0,In). (a) Let σ > 0 be a positive number. Find the distribution of σx. (b) Let u = Hx and v = (I −H)x and find the joint distribution of (u,v). 1 (c) Someone claims that u and v are independent. Is that true? (d) Let µ ∈ Im(H). Show that Hµ = µ. (e) Assume that 1 ∈ Im(H) and find...

Let A be an m×n matrix, x a vector in Rn, and b a vector in...

Let A be an m×n matrix, x a vector in Rn, and b a vector in Rm. Show that if x1 in Rn is a solution to Ax=b and x2 is a solution to Ax=⃗0, then x1 +x2 is a solution to Ax=b.

Linear Algebra: Given a nonzero vector x1 in X, show that there is a linear function...

Linear Algebra: Given a nonzero vector x1 in X, show that there is a linear function I such that l(x1) not equal to 0

Let T : P(R) → P(R) be the linear map defined by T(p(x)) = xp′(x) (you...

Let T : P(R) → P(R) be the linear map defined by T(p(x)) = xp′(x) (you may take it for granted that T is linear). Show that for each λ ∈ Z with λ ≥ 0, λ is an eigenvalue of T , and xλ is a corresponding eigenvector.

Consider the vector x = (3, 11). a) What is the vector representation of x using...

Consider the vector x = (3, 11). a) What is the vector representation of x using the base B1 = {(1, −1), (1, 1)}. b) What is the vector representation of x using the base B2 = {(1, 1), (0, 2)}. c) Construct a linear mapping from base B1 to base B2 (Find the matrix P^−1 associated with mapping). d) Verify that P^−1 x, where x is the vector representation of part a).

Let L : V → W be a linear transformation between two vector spaces. Show that...

Let L : V → W be a linear transformation between two vector spaces. Show that dim(ker(L)) + dim(Im(L)) = dim(V)

Let f = sin(yz) + ln(x) a) Find the derivative of F at P(1,1,Pi) in the...

Let f = sin(yz) + ln(x) a) Find the derivative of F at P(1,1,Pi) in the direction of v = i+j-k b) Find a vector u in the direction where f increases the fastest c) Find a nonzero vector w with the property that the derivative of f in the direction of w at P(1,1,pi) is 0

What is the length of the projection of the unit vector of the direction unit vector...

What is the length of the projection of the unit vector of the direction unit vector of the line x = 1 + 2t, y = 3-t, z = 5 + 2t overthe vector of the plane 2x + 3y-6z + 8 = 0? If your answer is a fraction write it in the abcd / efgh style (no spaces between what you write)