Consider the Mapping T: R2 -->P1 where T(a,b) = (a-b)x + 2a Find Ker(T) Show that...

Consider the Mapping T: R2 -->P1 where T(a,b) = (a-b)x + 2a Show T is a...

Consider the Mapping T: R2 -->P1 where T(a,b) = (a-b)x + 2a Show T is a linear transformation Find T-1 Compute T-1 of T[(a,b)]

L(x, y) = ((4x − 2y)/5, (−2x + y)/5) 1.) What is the basis of Ker(L)...

L(x, y) = ((4x − 2y)/5, (−2x + y)/5) 1.) What is the basis of Ker(L) and Range(L)? Is it subjective and/or injective? 2.) Is the linear mapping L a rotation, a reflection, or a projection? Why?

Consider the transformation, T : P1 → P2 defined by T(ax + b) = ax2 +...

Consider the transformation, T : P1 → P2 defined by T(ax + b) = ax2 + ax + a (a) Find the image of 2x + 1. (b) Find another element of P1 that has the same image. (c) Is T a one-to-one transformation? Why or why not? (d) Find ker(T) and determine the basis for ker(T). What is the dimension of kernel(T)? (e) Find range(T) and determine a basis for range(T). What is the dimension of range(T)?

Show that U = {T : R2 → R2: T is linear and is NOT injective.}...

Show that U = {T : R2 → R2: T is linear and is NOT injective.} ⊂ L(R2, R2) is not a subspace.

Consider the mapping R^3 to R^3 T[x,y,z] = [x-2z, x+y-z, 2y] a) Show that T is...

Consider the mapping R^3 to R^3 T[x,y,z] = [x-2z, x+y-z, 2y] a) Show that T is a linear Transformation b) Find the Kernel of T Note: Step by step please. Much appreciated.

Consider W = Span{p1(t),p2(t)} where p1(t) = 1−t^2 and p2(t) = 3+2t are the polynomials defined...

Consider W = Span{p1(t),p2(t)} where p1(t) = 1−t^2 and p2(t) = 3+2t are the polynomials defined on the interval [−1,1]. Find the orthogonal projection of q(t) = t^2−t−1 onto W.

(1) Consider the linear operator T : R2 ! R2 defined by T x y =...

(1) Consider the linear operator T : R2 ! R2 defined by T x y = 117x + 80y ??168x ?? 115y : Compute the eigenvalues of this operator, and an eigenvector for each eigen-

Consider the transformation T: R2 -> R3 defined by T(x,y) = (x-y,x+y,x+2y) Answer the Following a)Find...

Consider the transformation T: R2 -> R3 defined by T(x,y) = (x-y,x+y,x+2y) Answer the Following a)Find the Standard Matrix A for the linear transformation b)Find T([1 -2]) c) determine if c = [0 is in the range of the transformation T 2 3] Please explain as much as possible this is a test question that I got no points on. Now studying for the final and trying to understand past test questions.

Consider the Contraction Mapping Fixed Point Theorem,CMFP Show that cos(x) satisfies the conditions of the theorem...

Consider the Contraction Mapping Fixed Point Theorem,CMFP Show that cos(x) satisfies the conditions of the theorem on the interval [.6,.9]. In the process show that Abs[cos'[x]]<=4/5<1 on this interval.

(12) (after 3.3) (a) Find a linear transformation T : R2 → R2 such that T...

(12) (after 3.3) (a) Find a linear transformation T : R2 → R2 such that T (x) = Ax that reflects a vector (x1, x2) about the x2-axis. (b) Find a linear transformation S : R2 → R2 such that T(x) = Bx that rotates a vector (x1, x2) counterclockwise by 135 degrees. (c) Find a linear transformation (with domain and codomain) that has the effect of first reflecting as in (a) and then rotating as in (b). Give the...