The power series  ∑ an is defined as a1 = 1/2 and an+1=((4n-1)/(3n+2)) an . Determine if...

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 if the series converges conditionally, converges absolutely, or diverges. /sum(n=1 to infinity) ((-1)^n(2n^2))/(n^2+4) /sum(n=1 to...

Determine if the series converges conditionally, converges absolutely, or diverges. /sum(n=1 to infinity) ((-1)^n(2n^2))/(n^2+4) /sum(n=1 to infinity) sin(4n)/4^n

Determine if the series converges or diverges. Justify your answer by stating the test used and...

Determine if the series converges or diverges. Justify your answer by stating the test used and the conditions of the test. \sum _{n=0}^{\infty } [100+\sqrt{n}]/[4n^2-6n+1]

Determine if the series, k = 1 to ∞ , with terms (-1)k ((k - 1)/(k3/2...

Determine if the series, k = 1 to ∞ , with terms (-1)k ((k - 1)/(k3/2 + 1))2 converges absolutely, converges conditionally, or diverges. Tell which convergence test you are using.

Determine where series converges or diverges: ∑(-1)n(n!)2/(2n)!

Determine where series converges or diverges: ∑(-1)n(n!)2/(2n)!

2. Given the recurrence relation an = an−1 + n for n ≥ 2 where a1...

2. Given the recurrence relation an = an−1 + n for n ≥ 2 where a1 = 1, find a explicit formula for an and determine whether the sequence converges or diverges

Use the RATIO test to determine whether the series is convergent or divergent. a) sigma from...

Use the RATIO test to determine whether the series is convergent or divergent. a) sigma from n=1 to infinity of (1/n!) b) sigma from n=1 to infinity of (2n)!/(3n) Use the ROOT test to determine whether the series converges or diverges. a) sigma from n=1 to infinity of    (tan-1(n))-n b) sigma from n=1 to infinity of ((-2n)/(n+1))5n For each series, use and state any appropriate tests to decide if it converges or diverges. Be sure to verify all necessary...

(1 point) The three series ∑An, ∑Bn, and ∑Cn have terms An=1/n^8,Bn=1/n^5,Cn=1/n. Use the Limit Comparison...

(1 point) The three series ∑An, ∑Bn, and ∑Cn have terms An=1/n^8,Bn=1/n^5,Cn=1/n. Use the Limit Comparison Test to compare the following series to any of the above series. For each of the series below, you must enter two letters. The first is the letter (A,B, or C) of the series above that it can be legally compared to with the Limit Comparison Test. The second is C if the given series converges, or D if it diverges. So for instance,...

rewrite the geometric series 1/8+2/80+4/800+8/8000+.....with summation notation and determine if it converges or diverges if the...

rewrite the geometric series 1/8+2/80+4/800+8/8000+.....with summation notation and determine if it converges or diverges if the series converge find the value that it converges to.

Given: Sigma (infinity) (n=1) sin((2n-1)pi/2)ne^-n Question: Determine if the series converges or diverges Additional: If converges,...

Given: Sigma (infinity) (n=1) sin((2n-1)pi/2)ne^-n Question: Determine if the series converges or diverges Additional: If converges, is it conditional or absolute?