2. Study convergence of the integral + log r 00-1-sinr π (π-x) log z o log(1-sina) 2. Study convergence of the integral + log r 00-1-sinr π (π-x) log z o log(1-sina)
10. Let R > 0, Describe the arc「with parametrisation z(t)-Reit for-π/2-t-π/2 Use th is parametrisation to calculate the integral log z dz, where log z denotes the principal value of the logarithm.
Find the radius of convergence, R, of the series. (-1)"x Σ Find 00 n n = 1 R = Find the interval, I, of convergence of the series. (Enter your answer using interval notation.) I = [-/1.04 Points] DETAILS SCALCET8 11.8.014. Find the radius of convergence, R, of the series. 00 x8n n! n = 1 R= Find the interval, I, of convergence of the series. (Enter your answer using interval notation.) I = OFI Find the radius of convergence,...
Evaluate the integral Z π 0 Z π x cos(y) y dy dx. Hint: Since cos(y) y doesn’t have an elementary antiderivative in y, the integral can only be evaluated by reversing the order of integration using Fubini’s theorem.
5. Let f(z) = arctan(z) (a) (3 marks) Find the Taylor series about r)Hint: darctan( You may assume that the Taylor series for f(x) converges to f(x) for values of r in the interval of convergence (b) (3 marks) What is the radius of convergence of the Taylor series for f(z)? Show that the Taylor series converges at z = 1 (c) (3 marks) Hence, write as a series. (d) (3 marks) Go to https://teaching.smp.uq.edu.au/scims Calculus/Series.html. Use the interactive animation...
Find the radius of convergence, R, of the series. 00 2(-1)"nx" n = 1 R= Find the interval, 1, of convergence of the series. (Enter your answer using interval notation.) I =
Please use the definition of uniform convergence (the epsilon-delta property) Find the function f : [2, 00) -R 1. For each n EN let fn : [2, 0) - to which {fn} converges pointwise. Prove that the convergence is uniform R be given by fn(x) = 1+xn Find the function f : [2, 00) -R 1. For each n EN let fn : [2, 0) - to which {fn} converges pointwise. Prove that the convergence is uniform R be given...
Find a power series representation for the function. f(x) = فيه (x – 4)2 00 f(x) = Σ no Determine the radius of convergence, R. R = Evaluate the indefinite integral as a power series. Je at c+ Σ ΦΟ η = Ο What is the radius of convergence R? R = Find the radius of convergence, R, of the series. 3n Σ n! n=1 R= Find the interval, 1, of convergence of the series. (Enter your answer using interval...
n - meraymowa:)--00 [1] [ Let the vectors x, y and z be x = -2 y=1tz= -1 [3] [2] Find r. s and t such that y + z = x O (r, s, t) = (-2, -1, 1) O (r, s, t) = (-2, 1, 1) O (r, s, t) = (-2, 1,-1) (r, s, t) = (2, 1,-1) m Consider the set S = {w,x,y,z} of vectors in R3, S = { 121, Let V = span...
00 1 for convergence. It turns out that a good 7. Suppose that we want to test n(In n) test to use is the Integral Test. So, let f(x) n=2 1 Therefore, we want to consider X(In x)2" Z 1 1 dx = lim t00 dx. The next best step is which of the following? x(In x)2 x(In x) (a) Use l'Hospital's Rule. (b) Find the derivative of x(In x)2. (c) Let u = ln x. (d) Let u =...
(1 point) Consider a function f(x) that has a Taylor Series centred at z = 1 given by 00 Ż an(z - 1)" D 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 (x - 1)"? 0720 O AR 6 B. R=24 OC. R-2 OD. R = 8 O ER=4 OF. It is impossible to know what R is given this information