(5 pts) Consider the function f(x) = 8e7r. We want to find the Taylor series of...
(5 pts) Consider the function f(x) = 8e7x. We want to find the Taylor series of f(x) at x = -5. (a) The nth derivative of f(x) is f(n)(x) = At r = -5, we get f(n)(-5) = (c) The Taylor series at r = -5 is +00 T(x) = { (3+5)" n=0 = (d) To find the radius of convergence, we use the ratio test. an+1 L= lim n+too an and so its radius of convergence is R= |x...
1. For each function below find a formula for the nth derivative of f(x) evaluated at -a. In other words, find f (a). Then use your formula to find the associated Taylor Series for each of the functions at the given center (a) () for a 3 (b) f(x)-e for a - 1 2. Find the associated Taylor Series for the function f(x) = sin x with center a =-, as well as the radius (not interval) of convergence. You...
point) Consider a function f(x) that has a Taylor Series centred at x = 5 given by ſan(x – 5)" n=0 he radius of convergence for this Taylor series is R= 4, then what can we say about the radius of convergence of the Power Series an ( 5)"? nons A. R= 20 B.R= 8 C. R=4 D. R= E. R= 2 F. It is impossible to know what R is given this information. point) Consider the function f(x) =...
Problem 13. (1 point) Consider a function f(x) that has a Taylor Series centred at x = - 1 given by È anco an(x + 1)" no If the radius of convergence for this Taylor series is R= 8, then what can we say about the radius of convergence of the Power Series (x + 1)"? O AR= 8 5 OB. R=4 O C. R= 16 ODR = 40 O E. R=8 OF. It is impossible to know what R...
(1 point) Consider a function f(x) that has a Taylor Series centred at x = -3 given by an(x + 3)" n=0 If the radius of convergence for this Taylor series is R = 4, then what can we say about the radius of convergence of the Power Series Š an -(x + 3)" ? no n=0 A. R= 2 4 OB.R = 6 OC. R = 4 OD. R = 24 O E. R= 8 F. It is impossible...
Please answer all, be explanatory but concise. Thanks. Consider the function f(x) = e x a. Differentiate the Taylor series about 0 of f(x). b. ldentify the function represented by the differentiated series c. Give the interval of convergence of the power series for the derivative. Consider the differential equation y'(t) - 4y(t)- 8, y(0)4. a. Find a power series for the solution of the differential equation b. ldentify the function represented by the power series. Use a series to...
Solve the Taylor Series. 1. (a) Use the root test to find the interval of convergence of-1)* に0 (b) Demonstrate that the above is the taylor series of f()- by writing a formula for f via taylor's theorem at α-0. That is write f(x)-P(z) + R(x) where P(r) is the nth order taylor polynomial centered at a point a and the remainder term R(x) = ((r - a)n+1 for some c between z and a where here a 0. Show...
1. Answer the following questions. Justify your answers. a. (8pts) Find the Taylor series for f(x) = (5x centered at a = 1 using the definition of the Taylor series. Also find the radius of convergence of the series. b. (8pts) Find a power series representation for the function f(x) = 1 5+X C. (4pts) Suppose that the function F is an antiderivative of a function f. How can you obtain the Maclaurin series of F from the Maclaurin series...
(2 pts) Consider the following power series. 8(x + 5)" The radius of convergence of this series is R = The above serios converges for <r< Enter 'infinity" for and '-infinity' for -0. Note: You can earn partial credit on this problem. Preview Answers Submit Answers You have attempted this problem 0 times. You have 10 attempts remaining. Email instructor
15 Problem 12 (5 point) Assume that f(x) is a function whose nth derivative is given by (-1)"2 (2n)!(x + 1)+1 Given the Taylor series of f(x) centered at a = 2 using sigma notation and find the radius of convergence