Use the integral test to determine the divergence or convegence of the series (1/ (ln(5))^n) )...

Consider the series: ∞∑n=21n[ln (n)]4 a) Use the integral test to show that the above series...

Consider the series: ∞∑n=21n[ln (n)]4 a) Use the integral test to show that the above series is convergent b) How many terms do we need to add to approximate the sum with in Error<0.0004.

Test the series for convergence or divergence. 1/ ln(2) − 1/ ln(3) + 1/ ln(4) −...

Test the series for convergence or divergence. 1/ ln(2) − 1/ ln(3) + 1/ ln(4) − 1 /ln(5) + 1/ ln(6) −...

Test the series for convergence or divergence. ∞ en n2 n = 1 convergent or divergent    

Test the series for convergence or divergence. ∞ en n2 n = 1 convergent or divergent    

Determine the convergence/divergence of the following series using the integral test: a.) ∑= (1)/n(In(n))^2 (Upper limit...

Determine the convergence/divergence of the following series using the integral test: a.) ∑= (1)/n(In(n))^2 (Upper limit of sigma is ∞ ,and the lower limit of sigma is n=2) b.) ∑ (n-4)/(n^2-2n+1) (Upper limit of sigma is ∞ and the lower limit of the sigma is n=2 c.)∑ (n)/(n^2+1) (Upper limit of sigma ∞ and the lower limit sigma is n=1) d.) ∑ e^-n^2 (Upper limit of sigma ∞ and the lower limit sigma is n=1)

Use the ratio test to determine convergence or divergence. If the ratio test is inconclusive, use...

Use the ratio test to determine convergence or divergence. If the ratio test is inconclusive, use another method to determine convergence or divergence. ∞ (−1)n(n!)2 / (7n)! n = 1 Its the series from 1 to infinity of (-1)^n times (n!)^2 divided by (7n)!

1. Determine whether the series is convergent or divergent. a) If it is convergent, find its...

1. Determine whether the series is convergent or divergent. a) If it is convergent, find its sum. (using only one of the THREE: telescoping, geometric series, test for divergence) summation from n=0 to infinity of [2^(n-1)+(-1)^n]/[3^(n-1)] b) Using ONLY the Integral Test. summation from n=1 to infinity of n/(e^(n/3)) Please give detailed answer.

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.

Summation from n=2 to infinity of ln(n)/n^2 * x^n a.) Let x=-1, and compute the integral...

Summation from n=2 to infinity of ln(n)/n^2 * x^n a.) Let x=-1, and compute the integral test to determine whether this it is convergent or divergent b.) Compute the ratio test to determine the interval of convergence and explain what this interval represents. I'm really confused with this problem (specifically a)- please write out all of the details of computing the integral so I can understand. Thank you!

6. Let series {an} = 1/(n2 + 1) and series {bn} = 1/n2. Use Limit Comparison...

6. Let series {an} = 1/(n2 + 1) and series {bn} = 1/n2. Use Limit Comparison Test to determine if each series is convergent or divergent. 7. Use Ratio Test to determine if series {an}= (n + 2)/(2n + 7) where n is in interval [0, ∞] is convergent or divergent. Note: if the test is inconclusive, use n-th Term Test to answer the question. 8. Use Root Test to determine if series {an} = nn/3(1 + 2n) where n...

Test the series for convergence or divergence. ∞ (−1)n 8n − 5 9n + 5 n...

Test the series for convergence or divergence. ∞ (−1)n 8n − 5 9n + 5 n = 1 Step 1 To decide whether ∞ (−1)n 8n − 5 9n + 5 n = 1 converges, we must find lim n → ∞ 8n − 5 9n + 5 . The highest power of n in the fraction is 1    1 . Step 2 Dividing numerator and denominator by n gives us lim n → ∞ 8n − 5 9n +...