Determine the image of the following map, and determine if it is linear.
Let A =
and take T: R4 -------
> R3 by T(x) = Ax
Determine the image of the following map, and determine if it is linear. Let A =...
Let T : R3 → R2 be a linear map. Recall that the image of T, Im(T), is the set {T(i) : R*) (a) Suppose that T(v)- Av. Describe the image of T in terms of A Using this description, explain why Im(T) is a subspace of R2. (b) What are the possible dimensions of Im(T)? (c) Pick one of the possible dimensions and construct a specific map T so that Im(T) has that dimension.
Define the linear transformation T:?3??4 by T(x )=Ax . Find a
vector x whose image under T is b
(1 pt) Let 4 5 2 -2 5 -3 2 and b-10 -7 2 1 -4 Define the linear transformation T : R3 ? R4 by T(x-Ax Find a vector x whose image under T is b. x= Is the vectorx unique? choose
Let and let T : R4 → R4 be the map T(v) = v-2 proju,V-2 proju, w (a) Show that T is a linear transformation. (b) Find T] and (c) Show that T is invertible and find T-1
Let and let T : R4 → R4 be the map T(v) = v-2 proju,V-2 proju, w (a) Show that T is a linear transformation. (b) Find T] and (c) Show that T is invertible and find T-1
Question 1.2 Let T : R3 ? R2 be a linear transformation given by T (x) = Ax, where 1 0 2 -1 1 5 1) Find a basis for the kernel of T. 2) Determine the dimension of the kernel of T 3) Find a basis for the image(range) of T. 4) Determine the dimension of the image(range) of T. 5) Determine if it is a surjection or injection or both. 2 6) Determine whether or not v |0|...
Let LA be the linear map from R2 to R2 defined by LA (i) = Av, and let LB be the linear map from R2 to IR2 defined by LB(T)-Bv where A -6 36 -1 6 and B-(1 0 The composition LA O LB is again a linear map Lc determined by a (2 x 2)-matrix C, such that Calculate C C-
Let LA be the linear map from R2 to R2 defined by LA (i) = Av, and let...
LI), Let T be a linear map from R5 to R3 with i. Show that T must be surjective. ii. Show that there can be no such T from R to R2
Let T R3 R4 be the linear transformation defined by T(π1, Ο2, 73) - ( 3α1 -4 , X3, 12.x2 3.x3, 6x1-25x3, 10x2 + 10x3) (a) Determine the standard matrix representation of T (b) Find a basis for the image of T, Im(T), and determine dim(Im(T)) (c) Find a basis for the kernel of T, ker(T), and determine dim(ker(T))
Linear Algebra
Check whether the following maps are linear. Determine, in the cases that the map is linear, the null space and the range and verify the dimension theorem 1 a. A: R2R2 defined by A(r1, r2r2, xi), b. A: R2R defined by A(z,2)2 c. A: Сз-+ C2 defined by A(21,T2, x3)-(a + iT2,0), d. A: R3-R2 defined by A(r, r2, r3) (r3l,0), C 1
: 2: Let T : P1 → P2 be the linear map taking a polynomial p(t) to its antiderivative P(t) satisfying P(0) = 0 (e.g. T(5 + 2t) 5t + t2). Find two matrices A, B representing the corresponding linear map R2 + R3, the first with respect to the standard bases of P2 and P3, and the second with respect to the bases B = {1,1+t} B' = {1,1 +t, 1+t+t2}
Please put the solution in the
form of a formal proof, Thank You.
Let T: R3-R2 be the linear map given by a 2c (a) Find a basis of the range space. (Be sure to justify that it spans and is linearly independent.) (b) Find a basis of the null space. (Be sure to justify that it spans and is linearly independent.) (c) Use parts (a) and (b) to verify the rank-nullity theorem.
Let T: R3-R2 be the linear map...