the linear transformation, L(p(x))=d/dx p(x)+p(0). maps a polynomial p(x) of degree<= 2 into a polynomial of...

Determine whether or not the transformation T is linear. If the transformation is linear, find the...

Determine whether or not the transformation T is linear. If the transformation is linear, find the associated representation matrix (with respect to the standard basis). (a) T ( x , y ) = ( y , x + 2 ) (b) T ( x , y ) = ( x + y , 0 )

The equation of a degree 3 polynomial P(x) given that P(0)=1 , P'(1)=3 , P''(2)= -3

The equation of a degree 3 polynomial P(x) given that P(0)=1 , P'(1)=3 , P''(2)= -3

The polynomial of degree 4, P(x) has a root of multiplicity 2 at x=2 and roots...

The polynomial of degree 4, P(x) has a root of multiplicity 2 at x=2 and roots of multiplicity 1 at x=0 and x=-4 It goes through the point (5,324). Find a formula for P(x)

The polynomial of degree 5, P(x), has leading coefficient 1, has roots of multiplicity 2 at...

The polynomial of degree 5, P(x), has leading coefficient 1, has roots of multiplicity 2 at x=5 and x=0, and a root of multiplicity 1 at x=−1. Find a possible formula for P(x).

Find the Taylor polynomial of degree 4, p4(x), about 0 for the function y = e^[x^(2)]....

Find the Taylor polynomial of degree 4, p4(x), about 0 for the function y = e^[x^(2)]. Find the precision for with which p4(x) approximates e^[x^(2)], for values of x, -1/4 ≤ x ≤ 1/4.

solve for y: 1. dy/dx= xe^y separable 2. x(dy/dx)+3y=x^2 when y(5)=0 1st order linear

solve for y: 1. dy/dx= xe^y separable 2. x(dy/dx)+3y=x^2 when y(5)=0 1st order linear

Let D be the quadrilateral with vertices at (0, 0), (1, 1), (1, −1), and (2,...

Let D be the quadrilateral with vertices at (0, 0), (1, 1), (1, −1), and (2, 2). (a) Find a transformation which maps the unit square into D. (b) Use that transformation to compute RR D x 2 − y 2 dA.

Decide whether or not the following equations are linear: (a) d^2/dx^2y(x) = -8(y(x))^2 is a -...

Decide whether or not the following equations are linear: (a) d^2/dx^2y(x) = -8(y(x))^2 is a - linear equation - non-linear equation (b) d/dx(yx) + sin(4y) = 0 is a - linear equation - non-linear equation (c) sin(8x)*d/dxy(x) + y(x) = 7x is a - linear equation - non-linear equation (d) d/dtx(t) +3x = -8t^3 is a - linear equation - non-linear equation (e) sin(5y(x))d/dxy(x) + y(x) = 9x is a - linear equation - non-linear equation

Find the exact solution(s) to the equation: 17x2=1720−x17x2=1720-x x=x= The polynomial P(x)P(x) of degree 4 has...

Find the exact solution(s) to the equation: 17x2=1720−x17x2=1720-x x=x= The polynomial P(x)P(x) of degree 4 has a root of multiplicity 2 at x = 4 a root of multiplicity 1 at x = 0 and at x = -3 It goes through the point (5, 12) Find a formula for P(x)P(x). Leave your answer in factored form. P(x)=P(x)=

We have a linear transformation f:V-> V. The minimal polynomial is m(x)=(x-λ1)p1(x-λ2)p2. (i) Prove that V=V1+V2,(direct...

We have a linear transformation f:V-> V. The minimal polynomial is m(x)=(x-λ1)p1(x-λ2)p2. (i) Prove that V=V1+V2,(direct Sum) with V1=Ker(f-λ1Iv) and V2=Ker(f-λ2Iv) , λ1 non equal with λ2 (ii) Prove that V1 and V2 is invariant from f.