1. Determine the convergence or divergence of the sequence with given ??h term (a) an=4-5/(n^2+1) (b)...

Determine the Convergence or Divergence of the sequence with the given n- th term. If the...

Determine the Convergence or Divergence of the sequence with the given n- th term. If the converges find the limit. a.) an= (-3/7)n+4 b.) an= nsin(1/n) c.) an= cos n?

For Xn given by the following, prove the convergence or divergence of the sequence (Xn) with...

For Xn given by the following, prove the convergence or divergence of the sequence (Xn) with a formal proof, clearly and neatly: a) Xn = n2/(2n2+1) b) Xn = (-1)n/(n+1) c) Xn = sin(n)/(n2+1)

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)!

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 +...

Use the Monotone Convergence Theorem to show that each sequence converges. a)an= -(2/3)^n b)an= 1+ 1/n...

Use the Monotone Convergence Theorem to show that each sequence converges. a)an= -(2/3)^n b)an= 1+ 1/n c) 2/(-n)^2

Let the nth term of a sequence be given by an = sin(n2)/n for n ≥...

Let the nth term of a sequence be given by an = sin(n2)/n for n ≥ 1. 1. Is the sequence bounded? If so, by what values? 2. Is the sequence eventually monotone? If so, for what value of N is {an}∞n=N monotone? 3. Is the sequence increasing? Decreasing?

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    

Use the Divergence Criterion to prove that the sequence an = (−1)n + 1 n diverges.

Use the Divergence Criterion to prove that the sequence an = (−1)n + 1 n diverges.