3. Let T : P2(R) → P2(R) be defined by T(f(x)) = f'(x). Find an element v ∈ P2(R) such that v, T v, T^2 v is a basis of generalized eigenvectors of T.
3. Let T : P2(R) → P2(R) be defined by T(f(x)) = f'(x). Find an element...
Let V P2(R) and let T V-V be a linear transformation defined by T(p)-q, where (x)(r p (r Let B = {x, 1 + x2, 2x-1} be a basis of V. Compute [TIB,B, and deduce if it is eigenvectors basis of
2. Consider the inner product space V = P2(R) with (5,9) = . - f(t)g(t) dt, and let T:V + V be the linear operator defined by T(F) = xf'(x) + 2f (x). (i) Compute T*(1 + x + x2). (ii) Determine whether or not there is an orthonormal basis of eigenvectors ß for which [T]2 is diagonal. If such a basis exists, find one.
Let T. M2(R) →P2(R) be defined by T.(Iga)-(+b) + (b+c) Let T2: P2 (R) → Pl (R) be defined by Tap(x))-p' (x) (c+ d)x2 2. Find Ker(T2 . T) and find a basis for Ker(T2。T).
Consider the inner product space V = P2(R) with (5,9) = { $(0)g(t) dt, and let T:VV be the linear operator defined by T(f) = x f'(x) +2f (x) +1. (i) Compute T*(1 + x + x2). (ii) Determine whether or not there is an orthonormal basis of eigenvectors ß for which [T]k is diagonal. If such a basis exists, find one.
a. 6. Let T: R* → P2(R)be defined as T 2) = (a - 2d) + (c + 3b)x + (a - 2c)x Ld] I Find a basis for the Ker(T). (3pts) b. Find a basis for the Range(T) (3pts) c. Determine whether T is one-to-one. (2pts) d. Determine whether T is onto. (2pts)
let T: P2 --> R be the linear transformation defined by T(p(x))=p(2) a) What is the rank of T? b)what is the nullity of T? c)find a basis for Ker(T)
(Generalized Riccati Equation) Let po, p1, p2 : I -> R be continuous functions defined on an interval I of R. Then the 1st-order differential equations of the type Not sure how to solve y using the Ansatz v(x) := y(x)p2(x) Help is greatly appreciated :D (Generalized Riccati Equation) Let po, p1, p2 I -R be continous functions defined on an interval T of R. Then the 1st-order differential equations of the type is called generalized Riccati equations. It is...
2. Consider the inner product space V = P2(R) with (5.9) = £ 5(0)9(e) dt, and let T:V V be the linear operator defined by T(f) = xf'(2) +2f(x). (i) Compute T*(1+2+x²). (ii) Determine whether or not there is an orthonormal basis of eigenvectors 8 for which [T], is diagonal. If such a basis exists, find one.
(11) Let the linear transformation T : M2x2(R) + P2 (R) be defined by T (+ 4) = a +d+(6–c)n +(a–b+c+d)a? (1-1) (i) (3 marks) Find a basis for the T-cyclic subspace generated by (ii) (3 marks) Determine rank(T).
3. Let f(r) be defined by and let F(x) be defined by F(x) = Í f() dt, a. Find F(x). 0 x 2. For what value of b in the definition of f is F(x) differentiable for all x E [0, 2)?