(10) 5. (a) Find Ker(T) and Rng(T), dimensions, bases, and give a geometrical description of each...
[10] 5. (a) Find Ker(T) and Rng(T), dimensions, bases, and give a geometrical description of each if T:R +R, T(x) = Ax, and A= 24-1 -1 -2 1/2 4 8 - 2 State the Rank-Nullity Theorem and verify it in case (a).
[10] 5. (a) Find Ker(T) and Rng(T), dimensions, bases, and give a geometrical description of each if T:R3 +R3, T(x) = Ax, and A= -41 1 2 2 -3 2 1-2
(10) 5. (a) Find Ker(T) and Rng(T), dimensions, bases, and give a geometrical description of each if T: R → R3, T(x) = Ax, and A = -41 1 2 2 -3 2 1 - 2
[10] 5. (a) Find Ker(T) and Rng(T), dimensions, bases, and give a geometrical description of each if T : R3 + R3, T(x) = Ax, and A 2 4 -1 -1 -2 1/2 4 8 -2
(10) 5. (a) Find Ker(T) and Rng(T), dimensions, bases, and give a geometrical description of each if T:R3 R3, T(x) = Ax, and 24-1 A = -1 -2 1/2 4 8-2
Define the linear transformation T by T(x) - Ax. Find ker(T), nullity(T), range(T), and rank(T). 7-5 1 -1 (a) ker(T) (0.0) 0 (c) range() O R3 (6s, 6t, s - t): s, t are any real number) O (s, t, s-6): s, t are any real number) O ((s, t, o): s, t are any real number) (d) rank(T) 2 Need Help? Read It Talk to a Tutor Suomit Answer Save gssPracice Another Version Practice Another Version Define the linear...
5. Let 7(x) = Ax, find ker(7), Nullity(7), Range(T) and Rank (7) [101] A = 0 1 0 (101)
Linear Algebra: For each linear transformation, find a basis for Rng(T), find dim[Rng(T], and state whether or not T is onto. H.W in a basis for Rng (T), find dim [Rng(T)), and state for For each each linear transformation, find Whether or not. T is onto? OT:M, M, cletined by TCA) = A+AT © T: P2P, clefined by TC ax'sbarc) = (5a-464/00) A++ Carb-c)x+ (56-40). T: RR defined by Tlx,y,z) = (x - 2y + 2 , 32-23 +72 ,...
2. [& marks] Consider the line ar transformation T: R – R? T(x,y,z) = (x +y-2, -1-y+z). (a) Show that the matrix [T]s, representing T in the standard bases of Rand R' is of the form [7|6,6= ( +1 -1 1). -1 -1 1 (b) Find a basis of the null space of T and determine the dimension of this space. (c) Find a basis of the range of T and determine the dimension of the range of T. (d)...
2. (8 marks] Consider the linear transformation T:R3 R2 TX,Y, 2) = (+y-2, -1-y+z). (a) Show that the matrix (TE.Es representing T in the standard bases of R3 and R² is of the form TEE 1 -1 1 -1 -1 1 (b) Find a basis of the null space of T and determine the dimension of this space. (c) Find a basis of the range of T and determine the dimension of the range of T. (d) Is T Onto?...