please circle the answer! (1 point) Let P be the vector space of all polynomials (of...
Let V = R3[x] be the vector space of all polynomials with real coefficients and degress not exceeding 3. Let V-R3r] be the vector space of all polynomials with real coefficients and degress not exceeding 3. For 0Sn 3, define the maps dn p(x)HP(x) do where we adopt the convention thatp(x). Also define f V -V to be the linear map dro (a) Show that for O S n 3, T, is in the dual space V (b) LetTOs Show...
(1 point) Let P, be the vector space of all polynomials of degree 2 or less, and let 7 be the subspace spanned by 43x - 32x' +26, 102° - 13x -- 7 and 20.x - 15c" +12 a. The dimension of the subspace His b. Is {43. - 32" +26, 10x - 13.-7,20z - 150 +12) a basis for P2? choose ✓ Be sure you can explain and justify your answer. c. Abasis for the subspace His { }....
Q3. Consider the vector space P, consisting of all polynomials of degree at most two together with the zero polynomial. Let S = {p.(t), p2(t)} be a set of polynomials in P, where: pi(t) = -4 +5, po(t) = -3° - 34+5 (a) Determine whether the set S = {P1(t).pz(t)} is linearly independent in Py? Provide a clear justification for your solution. (8 pts) (b) Determine whether the set S = {p(t),p2(t)} spans the vector space P ? Provide a...
Let V be the vector space of all polynomials of degree at most 2 equipped with the inner product defined by (p,q) = p(-1)q (-1) + p (0)g(0) +p(1)q(1),p(x),g(x) E V Find a nonzero polynomial that is orthogonal to both p(x) = 1 + x + x2, and q(x) = 1-2x + x2
8. (20 points) Consider the vector space V = P of polynomials in one variable. Consider the operator L: VV given by d L(p(x)) = (22p(x)) - xp(x). (a) (10 points) Prove that this operator is a linear operator. (b) (10 points) Given that L(.) = 2x2, find all other polynomial solutions p(x) to the equation L(p(x)) = 2x², if there are any.
3. P. is the vector space of all polynomials of degree n or less and the zero polynomial Define a derivative transformation T as follow: T. +P, T(+241 +0,2%) = 41 + 2121 (a) (10 Puan) Find the corresponding matrix for T. (b) (10 Puan) Choose your polynomial in P, and find the derivative of your polynomial by using the matrix in (a).
15 5. Let P2 and Pz denote the vector space of polynomials of degrees atmost 2 and 3 respectively. Let T:P2 P3 be the transformation that maps a polynomial p(t) to the polynomial (t - 2)p(t). (a) Find the image of p(t) = t2, that is, find T(t2). (b) Show that T is a linear transformation. (c) Find the matrix of T relative to the bases B = {1,t, tº} and C = {1,t, t², tº}. (d) Is T onto?...
Q3. Recall that P, is the vector space of all real polynomials of degree at most n. Determine whether the following subset of P, is a subspace: H = {p(t) € Pn such that p' (t)=0}, where p' (t) is the derivative of the polynomial p(t).
Q3. Recall that P, is the vector space of all real polynomials of degree at most n. Determine whether the following subset of P, is a subspace: H = {p(t) € Pn such that p'(t)=0}, where p' (t) is the derivative of the polynomial p(t).
2. Let P3 stand for the vector space of all polynomials in x with real coefficients and of the degree at most 3. (a) (1 mark) Show that the set E = {p(x) € P3 : p(3)=0}, is a subspace of P3. (b) (2 marks) Show that the collection of polynomials {(x - 3), (x – 3), (x-3)3} is a basis of E.