Test the series for convergence using the Alternating Series Test: X∞ m=2 (−1)^m/ (m 2^m). If...

determine whether the alternating series ∑ (1 to ^ infinity) (-1)^(n+1) 3^n / (n +1)! is...

determine whether the alternating series ∑ (1 to ^ infinity) (-1)^(n+1) 3^n / (n +1)! is absolutely convergent, conditionally convergent or divergent.

For the next two series, (1) find the interval of convergence and (2) study convergence at...

For the next two series, (1) find the interval of convergence and (2) study convergence at the end points of the interval if any. Also, (3) indicate for what values of x the series converges absolutely, conditionally, or not at all. You must indicate the test you use and show the interval of convergence both analytically and graphically and summarize your results on the picture. ∑∞ n=1 ((−1)^n−1)/ (n^1/4)) *x^n

Apply the Root Test to determine convergence or divergence, or state that the Root Test is...

Apply the Root Test to determine convergence or divergence, or state that the Root Test is inconclusive. from n=1 to infinity (3n-1/4n+3)^(2n) Calculate lim n→∞ n cube root of the absolute value of an What can you say about the series using the Root Test? Determine whether the series is absolutely convergent, conditionally convergent, or divergent.

1. Test the series below for convergence using the Root Test. ∞∑n=1 (4n/10n+1)^n The limit of...

1. Test the series below for convergence using the Root Test. ∞∑n=1 (4n/10n+1)^n The limit of the root test simplifies to lim n→∞ |f(n)| where f(n)= The limit is:     Based on this, the series Diverges Converges 2. We want to use the Alternating Series Test to determine if the series: ∞∑k=4 (−1)^k+2 k^2/√k^5+3 converges or diverges. We can conclude that: The Alternating Series Test does not apply because the terms of the series do not alternate. The Alternating Series Test...

Determine whether each series is absolutely convergent, conditionally convergent, or divergent. X∞ n=1 (−1)n−1 (n /n...

Determine whether each series is absolutely convergent, conditionally convergent, or divergent. X∞ n=1 (−1)n−1 (n /n 3/2 + 1)

Say the ratio test and give an example of an alternating series that converges absolutely by...

Say the ratio test and give an example of an alternating series that converges absolutely by the ratio test.

Given the alternating series: sigma(2 to infinity): (-1)^n / ln n Determine if the series converge...

Given the alternating series: sigma(2 to infinity): (-1)^n / ln n Determine if the series converge absolutely.    (Use the fact that: ln n < n) Determine if the series converge conditionally. (Estimate the sum of the infinite series using the first 4 terms in the series and estimate the error. How many terms should we use to approximate the sum of the infinite series in question, if we want the error to be less than 0.5?

Determine whether the following series is absolutely convergent, conditionally convergent, or divergent. State the name of...

Determine whether the following series is absolutely convergent, conditionally convergent, or divergent. State the name of the test you apply, and show that the series satisfies all hypotheses of the test. Show All Work.  

Given the alternating series:    n=2∞(-1)^n/ln(n) (7 pts) Determine if the series converge absolutely.    (Use the fact...

Given the alternating series:    n=2∞(-1)^n/ln(n) (7 pts) Determine if the series converge absolutely.    (Use the fact that: ln n < n ) (7 pts) Determine if the series converge conditionally. (7 pts) Estimate the sum of the infinite series using the first 4 terms in the series and estimate the error. (7 pts) How many terms should we use to approximate the sum of the infinite series in question, if we want the error to be less than 0.5?

Determine whether the given series are absolutely convergent, conditionally convergent or divergent: a.) sigma ∞to n=0...

Determine whether the given series are absolutely convergent, conditionally convergent or divergent: a.) sigma ∞to n=0 (−3)n\(2n + 1)! b.) sigma ∞ ton=1 (2n)!\(n!)2