Problem 1 (hand-calculation): Given f(x) - ze for z e [0,0.5], apply Taylor's theorem using zo...
Problem 1 (hand-calculation): Given f(!)-ze" for z є о.05], apply Taylor's theorem using 10-0 in the following exercises. (a) Construct the Taylor polynomials of degree 4, p(x) (b) Estimate the error associated with the polynomial in part (a) by computing an upper bound of the absolute value of the remainder Problem 1 (hand-calculation): Given f(!)-ze" for z є о.05], apply Taylor's theorem using 10-0 in the following exercises. (a) Construct the Taylor polynomials of degree 4, p(x) (b) Estimate the...
Problem 3 (hand-calculation): Given f(x) = In (5-z) for x E [0,2], apply Taylor's theorem with zo = 1 in the following (a) Find the lowest-order Taylor polynomial approximation that is accurate to within (b) Find the actual errors at x = 0, 1 and 2. exercises. 10-3 Take a photo of your work. Include all pages in a single photo named problem3.jpg. Set the following in your homework script: figure(3); imshow (imread('problem3.jpg'); p3 = 'See figure 3'. Problem 3...
Given f(z) = In(5 + 2r) forz є [-1/2, 1/2), apply Taylor's theorern with 10-0 in the following exercises. (a) Construct the Taylor polynomial of degree 2, p2() (b) Find upper bounds on the absolute error associated with the polynomial in part (a) (i.e., the absolute value of the remainder) at x =-1/2, 0 and 1/2· (c) what are the actual errors at x =-1/2, 0 and 1 /2? Given f(z) = In(5 + 2r) forz є [-1/2, 1/2), apply...
Problem 2 (35 points): Consider function f(x)-1/1) around zo 0 on the interval (0,0.5). (a) Find the Taylor polynomial of third-order, pa(x), to approximate the function. (b) Find the minimum order, n, of the Taylor polynomial such that the absolute error never exceeds 0.001 anywhere on the interval. Problem 2 (35 points): Consider function f(x)-1/1) around zo 0 on the interval (0,0.5). (a) Find the Taylor polynomial of third-order, pa(x), to approximate the function. (b) Find the minimum order, n,...
Complete all, especially part c and d (a) Glive the second-order Taylor polynomial T2 ( for the function () about a 16. 4+((X-16)/8)-(1/512) (X-16M2 b) Use Taylor's Theorem to give the Error Term E2(-f()T2) as a function of z and some z between 16 and az (((3/8) Z(-5/2)) (X-16) 3)/6 c) Estimate the domain of values z for which the error E2 () is less than 0.01. Enter a value p for which E2 ()I 0.01 for all 16 16+p,...
(1 point) Taylor's Remainder Theorem: Consider the function 1 f(x) = The third degree Taylor polynomial of f(x) centered at a = 2 is given by 1 3 12 60 P3(x) = -(x-2) + -(x - 2)2 – -(x - 2) 23 22! 263! Given that f (4)(x) = how closely does this polynomial approximate f(x) when x = 2.4. That is, if R3(x) = f(x) – P3(x), how large can |R3 (2.4) be? |R3(2.4) 360 x (1 point) Taylor's...
The nth-order Taylor polynomial for a function f(x) using the h notation is given as: Pa (x + h) = f(x) + f'(a)h + salt) 12 + () +...+ m (s) n." The remainder of the above nth-order Taylor polynomial is defined as: R( +h) = f(n+1)(C) +1 " hn+1, where c is in between x and c+h (n+1)! A student is using 4 terms in the Taylor series of f(x) = 1/x to approximate f(0.7) around x = 1....
1. Consider the polynonial Pl (z) of degree 4 interpolating the function f(x) sin(x) on the interval n/4,4 at the equidistant points r--r/4, xi =-r/8, x2 = 0, 3 π/8, and x4 = π/4. Estimate the maximum of the interpolation absolute error for x E [-r/4, π/4 , ie, give an upper bound for this absolute error maxsin(x) P(x) s? Remark: you are not asked to give the interpolation polynomial P(r). 1. Consider the polynonial Pl (z) of degree 4...
Find Ts(x): Taylor polynomial of degree 5 of the function f(z) -cos( at a0 Preview Using the Taylor Remainder Theorem, find all values of x for which this approximation is within 0.002412 of the right answer Preview Find Ts(x): Taylor polynomial of degree 5 of the function f(z) -cos( at a0 Preview Using the Taylor Remainder Theorem, find all values of x for which this approximation is within 0.002412 of the right answer Preview
3. (30 points) Let f(x) = 1/x and data points Zo = 2, x,-3 and x2 = 4. Note that you can use the abscissae to find the corresponding ordinates (a) (8 points) Find by hand the Lagrange form, the standard form, and the Newton form of the interpolating polynomial p2(x) of f(x) at the given points. State which is which! Then, expand out the Newton and Lagrange form to verify that they agree with the standard form of p2...