The nth-order Taylor polynomial for a function f(x) using the h notation is given as: Pa...
9) Generate the 2nd order Taylor polynomial for f(x)= Vx at a=8 10) Determine an upper bound on the error in using e* = 1+x to approximate e
Find the second Taylor polynomial P2(x) for the function f(x) = ex cos x about xo = 0. Using 4-digit rounding arithmatic. (a). Use P2(0.7) to approximate f(0.7). (b). Find the actual error. (c). Find a bound for the error |f(x) – P2(x) in using P2(x) to approximate f(x) on the interval [0, 1].
Question 1 (20 Points) Find the second Taylor polynomial P2(x) for the function f(x) = ex cos x about Xo = 0. Using 4-digit rounding arithmatic. (a). Use P2(0.7) to approximate f(0.7). (b). Find the actual error. (c). Find a bound for the error f(x) - P2(x) in using P2(x) to approximate f(x) on the interval [0, 1].
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,...
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 1 (hand-calculation): Given f(x) - ze for z e [0,0.5], apply Taylor's theorem using zo 0 in the following exercises (a) Construct the Taylor polynomials of degree 4, p4(x) (b) Estimate the error associated with the polynomial in part (a) by computing an upper bound of the absolute value of the remainder.
.. Use the given Taylor polynomial P2 to approximate the given quantity. . Compute the absolute error in the approximation assuming the exact value is given by a calculator Approximate V1.05 using f(x) = 11+ and P2(x) = 1 + - a. Using the Taylor polynomial P2. 11.05 . (Do not round until the final answer. Then round to four decimal places as needed.) b. absolute error (Use scientific notation. Use the multiplication symbol in the math palette as needed....
Consider the function f(x) := v/x= x1/2. 6. (a) Give the Taylor polynomial P(x) of degree 5 about a1 of this function (b) Give the nested representation of the polynomial Qs()Ps((t)) where t -1 ((t)+1). (c) Using the nested multiplication method (also called Horner's algorithm), compute the approximation Ps (1.2) to V (give at least 12 significant digits of P(1.2)) (d) Without using the exact value of 12, compute by hand an upper bound on the absolute error V1.2 A(1.21...
1. (Taylor Polynomial for cos(ax)) For f(x)cos(ar) do the following. (a) Find the Taylor polynomials T(x) about 0 for f(x) for n 1,2,3,4,5 (b) Based on the pattern in part (a), if n is an even number what is the relation between Tn (x) and TR+1()? (c) You might want to approximate cos(az) for all in 0 xS /2 by a Taylor polynomial about 0. Use the Taylor polynomial of order 3 to approximate f(0.25) when a -2, i.e. f(x)...
[2 marks] Using the Taylor Remainder Theorem, what is the upper bound on f(x) – T3(x)], for x E [2, 10] if f(x) = 3 cos x and T3(x) is the Taylor polynomial centered on 6. SH