1 point) Suppose that the function f(x) is equal to the convergent powers series 51+1 -(x...
(1 point) Suppose that the function f(x) is equal to the convergent powers series 71+1 -(x – 8)4n+1 n! n=0 Which of the following is equal to the value of f(21)(8)? O A. 722 OB. 0. 722 C. 21! 76 5! 76 E. -21! 5!
5+1 (1 point) Suppose that the function f(x) is equal to the convergent powers series (x - 7)3n+2 n! Which of the following is equal to the value of f(11) (7)? 54 A. 3! B.O. 512 c. 11! 54 D. 11! 3! E. 512
5+1 (1 point) Suppose that the function f(x) is equal to the convergent powers series (x - 7)3n+2 n! Which of the following is equal to the value of f(11) (7)? 54 A. 3! B.O. 512 c. 11! 54 D. 11! 3! E. 512
Problem 9. (1 point) Suppose that the function f(x) is equal to the convergent powers series Σ 3+1 n! -(x – 6) 30+2 Which of the following is equal to the value of f(14) (6)? -14! 4! B.O. 35 c. 4!" 315 D 14! E. 35 Problem 10. (1 point) Determine the Taylor Series of the function f(x) = 9x? (1 − x)2 centred at x = 0. Α. Σ(-9)",ία. 9 Β. x843 Η + c. Σ9" x2η. O D....
7+1 (1 point) Suppose that the function f(x) is equal to the convergent powers series (7) 4n+3 n! n0 Which of the following is equal to the value of f(19) (7)? O A. 720 B 75 19! 4! 720 C. 19! O D.O. 78 E
Problem 9. 6141 (1 point) Suppose that the function f(x) is equal to the convergent powers series (2-6)4n+3 n! Which of the following is equal to the value of f(19)(6)? A.0. 620 B. 19! O C. 620 O D. 19! 4! a E. 4!
1. Show the series convergent or not. (-1)" (In 2)" n=0 2. Use the root test for the series convergent or not. ~ n2 E (1-5) n=1 3. (x + 1)" 3n Examine the convergence of the power series. Find the convergence radius R and the convergence range. n=1
(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...
(1 point) Consider a function f(x) that has a Taylor Series centred at x = 1 given by Žar(2 – 1)" n0 If the radius of convergence for this Taylor series is R=2, then what can we say about the radius of convergence of the Power Series an (2 – 1)"? hins A. R= 2 5 OB. R=4 OC. R=2 OD. R=1 O ER= 10 OF. It is impossible to know what R is given this information.
(1 point) Consider a function f(x) that has a Taylor Series centred at x = 1 given by Žar(2 – 1)" n0 If the radius of convergence for this Taylor series is R=2, then what can we say about the radius of convergence of the Power Series an (2 – 1)"? hins A. R= 2 5 OB. R=4 OC. R=2 OD. R=1 O ER= 10 OF. It is impossible to know what R is given this information.