Let me discuss this problem part by part--->
Calculations of all definite integrations associated with 3rd part of this problem can be checked easily .
Please attempt all 3. Perform the marquis de Laplace process on the basis {f(x) = =...
Perform the marquis de Laplace process on the basis {f(x) = x2 - 4x +1, g(x) = 2x + 4, h(x) = x2 + +3} + to create an orthogonal basis for the space of polynomial functions of degree 5 2.
Please attempt both. 1. Perform the marquis de Laplace process in both possible ways (remember, you choose the lead vector) on the basis 3 to create an orthogonal basis for R2. Geometrically represent each process in 3 plots: The first two vectors, the projection and perpendicular, and finally the new basis. 2. Perform the marquis de Laplace process on the basis 3 -2 1 3 -1 3 5 -1 to create an orthogonal basis for R3.
Please attempt both.
1. Perform the marquis de Laplace process in both possible ways (remember, you choose the lead vector) on the basis 3 -2 -1 to create an orthogonal basis for R2. Geometrically represent each process in 3 plots: The first two vectors, the projection and perpendicular, and finally the new basis. 2. Perform the marquis de Laplace process on the basis 3 -2 1 3 -1 3 5 to create an orthogonal basis for R3.
Perform the marquis de Laplace process on the basis 3 ll -1 5 to create an orthogonal basis for R3.
Please attempt all questions.
2. Use the polynomial inner product to find the projection of f(*) onto g(x). (a) f(x) = -12 -1, 9(20) = ? (b) f(x) = 2x2, g(x) = 2+1 (C) f(c) = -1-1, g(x) = r2 +3 3. Use the continuous function on the interval [0,1) inner product to find the projection of f(x) onto g(2). (Feel free to use an integral calculator. I use wolfram alpha. Just make sure to type the problem in carefully)....
Determine if each basis is orthogonal. Further, is the basis orthonormal? (a) In the vector space R3 (i.e. column vectors in 3-space): -1 1 ( 2 5 3 -3 (b) In the vector space that consists of polynomial functions of degree less than or equal to 2: {f(x) = x2 – 3, g(x) = 4, h(x) = x2 +2} (c) In the vector space that consists of 2x2 matrices: (You'd decided what the inner product was on a previous math...
Let h(x) = 14), where f(x) = –2x – 3 and g(x) = x2 – x + 2. What is h' (x)? Select the correct answer below: 2x2 +6x–7 *4–2x3 +5x2–4x+4 -6x2–2x-1 x+-2x3 +5x2-4x+4 2x2+6x–7 x-x+2 O za
For the function f(x) = e 2x, which of the following polynomials is the 2nd degree Taylor polynomial for f(2') at the point I = 0? 1) P(x) = 1-2+x2 2) P2 (3)=1-23 +22 3) P3(x) = 1 - 2.c + 2x2 4) P4(x) = 1 + 2x + 2x2 O Polynomial in 3) Polynomial in 1) O Polynomial in 2) O Polynomial in 4)
Question 5 Is the set of functions linearly dependent or linearly independent? f(x) = 7, g(x) = 5x +1, h(x) = 3x2 - 4x + 5 Linearly dependent Linearly independent Have no clue... Question 6 Given a solution to the DE below, find a second solution by using reduction of order. r’y' – 3xy + 5y = 0; y1 = r* cos(In x) y2 = xsin(In x) y2 = x2 sin Y2 = 2 * sin(In) . . y2 =...
Please attempt both questions.
5. Find an orthonormal basis for the plane viewed as a subspace of R3. Z (-1,0,2) (0,-1,0) (0,1,0) X 6. Determine if each basis is orthogonal. Further, is the basis orthonormal? (a) In the vector space R3 (i.e. column vectors in 3-space): 1 2 5 -3 (b) In the vector space that consists of polynomial functions of degree less than or equal to 2: {f(x) = 22 - 3, 9() = 4, h(x) = 2² +2}...