Define T:R^2 -> R^2 by T(x,y) = (x+3y, -x+5y) and let B' = {(3,1)^T, (1,1)^T}. Find...

1. Define T : R 2 → R 2 by T(x, y) = (3x + 2y,...

1. Define T : R 2 → R 2 by T(x, y) = (3x + 2y, 5x + y). (a) Represent T as a matrix with respect to the standard basis for R 2 . (b) First, show that B = {(1, 1),(−2, 5)} is another basis for R 2 . Then, represent T as a matrix with respect to B. (c) Using either (a) or (b), find the kernel of T. (d) Is T an isomorphism? Justify your answer....

a. Let →u = (x, y, z) ∈ R^3 and define T : R^3 → R^3...

a. Let →u = (x, y, z) ∈ R^3 and define T : R^3 → R^3 as T( →u ) = T(x, y, z) = (x + y, 2z − y, x − z) Find the standard matrix for T and decide whether the map T is invertible. If yes then find the inverse transformation, if no, then explain why. b. Let (x, y, z) ∈ R^3 be given T : R^3 → R^2 by T(x, y, z) = (x...

y’’’(t) + 5y’’(t) + 7y’(t) + 3y(t) = u’(t) + 2u(t) Find a linear state space...

y’’’(t) + 5y’’(t) + 7y’(t) + 3y(t) = u’(t) + 2u(t) Find a linear state space model. Clearly define the matrices A, B, C, and D of the matrix form of the state space model

Let A equal the 2x2 matrix: [1 -2] [2 -1] and let T=LA R2->R2. (Notice that...

Let A equal the 2x2 matrix: [1 -2] [2 -1] and let T=LA R2->R2. (Notice that this means T(x,y)=(x-2y,2x-y), and that the matrix representation of T with respect to the standard basis is A.) a. Find the matrix representation [T]BB where B={(1,1),(-1,1)} b. Find an invertible 2x2 matrix Q so that [T]B = Q-1AQ

1. Compute∫∫R x−3y/4x−5y dA where R is the parallelogram bounded by the lines x − 3y=...

1. Compute∫∫R x−3y/4x−5y dA where R is the parallelogram bounded by the lines x − 3y= 0, x−3y= 6, 4x−5y= 1, and 4x−5y=e2.

Let T(x,y,z) = (13x − 9y + 4z,6x + 5y − 3z) and v = (1,−2,1)....

Let T(x,y,z) = (13x − 9y + 4z,6x + 5y − 3z) and v = (1,−2,1). Find the standard matrix for the linear transformation T and use it to find the image of the vector v (that is, use it to find T(v)).

Consider the subspace S = {[x, y, 2x + 3y] | x, y ∈ R} of...

Consider the subspace S = {[x, y, 2x + 3y] | x, y ∈ R} of R 3 . (a) Find a basis of S and dim (S). (b) Extend the basis of S in (a) to a basis of R 3 .

(5) Let f(x, y) = −x^2 + 2x − 3y^3 + 6y^2 − 3y. (a) Find...

(5) Let f(x, y) = −x^2 + 2x − 3y^3 + 6y^2 − 3y. (a) Find both critical points of f(x, y). (b) Compute the Hessian of f(x, y). (c) Decide whether the critical points are saddle-points, local minimums, or local maximums.

Find all functions x(t),y(t) satisfying x'(t) = y(t) - x(t) y'(t) = 3x(t) - 3y(t) Find...

Find all functions x(t),y(t) satisfying x'(t) = y(t) - x(t) y'(t) = 3x(t) - 3y(t) Find the particular pair of functions satisfying x(0) = y(0) = 1/2.

Let T: P3→P3 be given by T(p(x)) =p(2x) and consider the bases B={1, x, x2, x3}and...

Let T: P3→P3 be given by T(p(x)) =p(2x) and consider the bases B={1, x, x2, x3}and B′={1, x−1,(x−1)2,(x−1)3} of P3. (a) Find the matrix of T relative to B. (b) Find the change of basis matrix from B′ to B.