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8 pts . Answer parts a through e using the function f(x)- isd br cipah Tperpebynomia.ced0 Find th...
10. Consider f(x) = x where 8.9 < x < 9.1 a. Find the 3rd degree...
10. Consider f(x) = x where 8.9 < x < 9.1 a. Find the 3rd degree Taylor polynomial (To) at a 9.6 pts b. Use T to approximate f(9.001) and compare it to the actual value. 4 pts. c. Estimate the accuracy of the approximation in part b) by using Taylor's inequality. Compare your results to the answer in part b). 4 pts.
For parts a, b, c and d, use the following function: f(x) = e-5x a) (3...
For parts a, b, c and d, use the following function: f(x) = e-5x a) (3 points) Write the Taylor polynomial of degree four for f(x) centered at 0. b) (2 points) Use the Taylor polynomial from part a to estimate the value of e-0.5. (Hint: let find x). c) (3 points) Write the series generated by f(x) at zero in sigma notation. d) (3 points) Find the radius of convergence and state the interval of convergence. d) (3 points)...
Consider the function f(x)-e a. Differentiate the Taylor series about 0 of f(x). b. Identify the ...
Consider the function f(x)-e a. Differentiate the Taylor series about 0 of f(x). b. Identify the function represented by the differentiated series c. Give the interval of convergence of the power series for the derivative. a. Choose the correct answer belovw 213 Ос. D. 2 41 61 b. The function represented by the differentiated series is Iill c. The interval of convergence of the power series for the derivative is Simplify your answer. Type an inequality or a compound inequality...
Consider the following function. f[x) = x ln(3x), a = 1, n = 3, 0.8 lessthanorequalto...
Consider the following function. f[x) = x ln(3x), a = 1, n = 3, 0.8 lessthanorequalto x lessthanorequalto 1.2 Approximate f by a Taylor polynomial with degree n at the number a. T_3(x) = Use Taylor's Inequality to estimate the accuracy of the approximation f(x) = T_n(x) when x lies in the given Interval. (Round your answer to four decimal places.) |R_3 (x)| lessthanorequalto
Show all the work for the parts below. (Part B) Consider the function y = f(x)...
Show all the work for the parts below.
(Part B) Consider the function y = f(x) = Vx. (i) Construct the fourth degree Taylor polynomial for the cube root function centered at x = 1. How well does your polynomial approximate the value of V0.5? How well does your polynomial approximate the value of V9? (ii) Construct the fourth degree Taylor polynomial for the cube root function centered at x = 8. How well does your polynomial approximate the value...
2 1. The Taylor series for a function f about x =0 is given by k=1...
2 1. The Taylor series for a function f about x =0 is given by k=1 Ikitt (a) Find f(")(). Show the work that leads to your answer. (b) Use the ratio test to find the radius of convergence of the Taylor series for f about x=0. c) Find the interval of convergence of the Taylor series of f. (a) Use the second-degree Taylor polynomial for f about x = 0 to approximate s(4)
Consider the following function #x)-x2/5, a-1, n-3, 0.7 sxs 1.3 (a) Approximate fby a Taylor poly...
Consider the following function #x)-x2/5, a-1, n-3, 0.7 sxs 1.3 (a) Approximate fby a Taylor polynomial with degree n at the number a T3(x) (b) Use Taylor's Inequality to estimate the accuracy of the approximation x) Tn(x) when x lies in the given interval. (Round your answer to eight decimal places.)
Consider the following function #x)-x2/5, a-1, n-3, 0.7 sxs 1.3 (a) Approximate fby a Taylor polynomial with degree n at the number a T3(x) (b) Use Taylor's Inequality to...
A function f, which has derivatives for all orders for all real numbers, has a 3rd degree Taylor polynomial for f center...
A function f, which has derivatives for all orders for all real numbers, has a 3rd degree Taylor polynomial for f centered at x = 5. The 4th derivative of f satisfies the inequality f^(4)(x) ≤ 6 for all x the interval from 4.5 to 5 inclusive. Find the LaGrange error bound if the 3rd degree Taylor polynomial is used to estimate f(4.5). You must show your work but do not need to evaluate the remainder expression.
Find the Taylor series for f(x) = sin(2) centered at 3. To help express the coefficients...
Find the Taylor series for f(x) = sin(2) centered at 3. To help express the coefficients in a convenient way, it may help to define the sequence {on}no = {1,-1,-1,1,1,-1,-1,...}. What is the radius of convergence? Use Taylor's inequality to determine whether or for what values of x) the Taylor series converges to sin(x).
Consider the following function. /(x)=x-5, a= 1, n= 2, 0.8SXS 1.2 (a) Approximate f by a Taylor p...
Consider the following function. /(x)=x-5, a= 1, n= 2, 0.8SXS 1.2 (a) Approximate f by a Taylor polynomial with degree n at the number a T2(x) = (b) Use Taylor's Inequality to estimate the accuracy of the approximation x) ~ Tn(x) when x lies in the given interval. (Round your answer to six decimal places.) (c) Check your result in part (b) by graphing Rn(x) 0.6 0.4 0.2 0.6 0.4 0.2 0.9 0.9 1.2 -0.2 -0.4 -0.6 -0.2 -0.4 -0.6...
10. Consider f(x) = x where 8.9 < x < 9.1 a. Find the 3rd degree Taylor polynomial (To) at a 9.6 pts b. Use T to approximate f(9.001) and compare it to the actual value. 4 pts. c. Estimate the accuracy of the approximation in part b) by using Taylor's inequality. Compare your results to the answer in part b). 4 pts.
For parts a, b, c and d, use the following function: f(x) = e-5x a) (3 points) Write the Taylor polynomial of degree four for f(x) centered at 0. b) (2 points) Use the Taylor polynomial from part a to estimate the value of e-0.5. (Hint: let find x). c) (3 points) Write the series generated by f(x) at zero in sigma notation. d) (3 points) Find the radius of convergence and state the interval of convergence. d) (3 points)...
Consider the function f(x)-e a. Differentiate the Taylor series about 0 of f(x). b. Identify the function represented by the differentiated series c. Give the interval of convergence of the power series for the derivative. a. Choose the correct answer belovw 213 Ос. D. 2 41 61 b. The function represented by the differentiated series is Iill c. The interval of convergence of the power series for the derivative is Simplify your answer. Type an inequality or a compound inequality...
Consider the following function. f[x) = x ln(3x), a = 1, n = 3, 0.8 lessthanorequalto x lessthanorequalto 1.2 Approximate f by a Taylor polynomial with degree n at the number a. T_3(x) = Use Taylor's Inequality to estimate the accuracy of the approximation f(x) = T_n(x) when x lies in the given Interval. (Round your answer to four decimal places.) |R_3 (x)| lessthanorequalto
Show all the work for the parts below.
(Part B) Consider the function y = f(x) = Vx. (i) Construct the fourth degree Taylor polynomial for the cube root function centered at x = 1. How well does your polynomial approximate the value of V0.5? How well does your polynomial approximate the value of V9? (ii) Construct the fourth degree Taylor polynomial for the cube root function centered at x = 8. How well does your polynomial approximate the value...
2 1. The Taylor series for a function f about x =0 is given by k=1 Ikitt (a) Find f(")(). Show the work that leads to your answer. (b) Use the ratio test to find the radius of convergence of the Taylor series for f about x=0. c) Find the interval of convergence of the Taylor series of f. (a) Use the second-degree Taylor polynomial for f about x = 0 to approximate s(4)
Consider the following function #x)-x2/5, a-1, n-3, 0.7 sxs 1.3 (a) Approximate fby a Taylor polynomial with degree n at the number a T3(x) (b) Use Taylor's Inequality to estimate the accuracy of the approximation x) Tn(x) when x lies in the given interval. (Round your answer to eight decimal places.)
Consider the following function #x)-x2/5, a-1, n-3, 0.7 sxs 1.3 (a) Approximate fby a Taylor polynomial with degree n at the number a T3(x) (b) Use Taylor's Inequality to...
Find the Taylor series for f(x) = sin(2) centered at 3. To help express the coefficients in a convenient way, it may help to define the sequence {on}no = {1,-1,-1,1,1,-1,-1,...}. What is the radius of convergence? Use Taylor's inequality to determine whether or for what values of x) the Taylor series converges to sin(x).
Consider the following function. /(x)=x-5, a= 1, n= 2, 0.8SXS 1.2 (a) Approximate f by a Taylor polynomial with degree n at the number a T2(x) = (b) Use Taylor's Inequality to estimate the accuracy of the approximation x) ~ Tn(x) when x lies in the given interval. (Round your answer to six decimal places.) (c) Check your result in part (b) by graphing Rn(x) 0.6 0.4 0.2 0.6 0.4 0.2 0.9 0.9 1.2 -0.2 -0.4 -0.6 -0.2 -0.4 -0.6...
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