Find the matrix operator T: P3 --> P2 where T [= T(a + bx + cx^2...

Let T: P3→P3 be given by T(p(x)) =p(2x) and consider the bases B={1, x, x2, x3}and...

Let T: P3→P3 be given by T(p(x)) =p(2x) and consider the bases B={1, x, x2, x3}and B′={1, x−1,(x−1)2,(x−1)3} of P3. (a) Find the matrix of T relative to B. (b) Find the change of basis matrix from B′ to B.

dX(t) = bX(t)dt + cX(t)dW(t) for contant values of X(0), b and c (a) Find E[X(t)]...

dX(t) = bX(t)dt + cX(t)dW(t) for contant values of X(0), b and c (a) Find E[X(t)] (hint: look at e ^(−bt)X(t)) (b) The Variance of X(t)

In this question we denote by P2(R) the set of functions {ax2 + bx + c...

In this question we denote by P2(R) the set of functions {ax2 + bx + c : a, b, c ∈ R}, which is a vector space under the usual addition and scalar multiplication of functions. Let p1, p2, p3 ∈ P2(R) be given by p1(x) = 1, p2(x) = x + 2x 2 , and p3(x) = αx + 4x 2 . a) Find the condition on α ∈ R that ensures that {p1, p2, p3} is a basis...

1. If x1(t) and x2(t) are solutions to the differential equation x" + bx' + cx...

1. If x1(t) and x2(t) are solutions to the differential equation x" + bx' + cx = 0 is x = x1 + x2 + c for a constant c always a solution? Is the function y= t(x1) a solution? Show the works 2. Write sown a homogeneous second-order linear differential equation where the system displays a decaying oscillation.

Suppose T: P2(R) ---> P2(R) by T(p(x)) = x^2 p''(x) + xp'(x) and U : P2(R)...

Suppose T: P2(R) ---> P2(R) by T(p(x)) = x^2 p''(x) + xp'(x) and U : P2(R) --> R by U(p(x)) = p(0) + p'(0) + p''(0). a. Calculate U composed of T(p(x)) without using matricies. b. Assuming the standard bases for P2(R) and R find matrix representations of T, U, and U composed of T. c. Show through matrix multiplication that the matrix representation of U composed of T equals the product of the matrix representations of U and T.

Prove that the following arguments are invalid. 1. (∃x) (Ax * ～Bx) 2. (∃x) (Ax *...

Prove that the following arguments are invalid. 1. (∃x) (Ax * ～Bx) 2. (∃x) (Ax * ～Cx) 3. (∃x) ( ～Bx * Dx) / (∃x) [Ax *(～Bx * Dx)]

Let A equal the 2x2 matrix: [1 -2] [2 -1] and let T=LA R2->R2. (Notice that...

Let A equal the 2x2 matrix: [1 -2] [2 -1] and let T=LA R2->R2. (Notice that this means T(x,y)=(x-2y,2x-y), and that the matrix representation of T with respect to the standard basis is A.) a. Find the matrix representation [T]BB where B={(1,1),(-1,1)} b. Find an invertible 2x2 matrix Q so that [T]B = Q-1AQ

Consider the vector space P2 := P2(F) and its standard basis α = {1,x,x^2}. 1Prove that...

Consider the vector space P2 := P2(F) and its standard basis α = {1,x,x^2}. 1Prove that β = {x−1,x^2 −x,x^2 + x} is also a basis of P2 2Given the map T : P2 → P2 defined by T(a + bx + cx2) = (a + b + c) + (a + 2b + c)x + (b + c)x2 compute [T]βα. 3 Is T invertible? Why 4 Suppose the linear map U : P2 → P2 has the matrix representation...

If x1(t) and x2(t) are solutions to the differential equation x"+bx'+cx = 0 1. Is x=...

If x1(t) and x2(t) are solutions to the differential equation x"+bx'+cx = 0 1. Is x= x1+x2+c for a constant c always a solution? (I think No, except for the case of c=0) 2. Is tx1 a solution? (t is a constant) I have to show all works of the whole process, please help me!

1) find a cubic polynomial with only one root f(x)=ax^3+bx^2+cx +d such that it had a...

1) find a cubic polynomial with only one root f(x)=ax^3+bx^2+cx +d such that it had a two cycle using Newton’s method where N(0)=2 and N(2)=0 2) the function G(x)=x^2+k for k>0 must ha e a two cycle for Newton’s method (why)? Find the two cycle