Test the series below for convergence using the Ratio Test.∞n=13n°0.7"The limit of the ratio test simplifies to lim f(n)| wheren→∞f(n)=The limit is:(enter oo for infinity if needed)Based on this, the series Select an answer ✓

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Answered: Test the series below for convergence…

Advanced Engineering Mathematics

10th Edition

ISBN:9780470458365

Author:Erwin Kreyszig

Publisher:Erwin Kreyszig

Chapter2: Second-order Linear Odes

Section: Chapter Questions

Problem 1RQ

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2" n! Consider the series Evaluate the the following limit. If it is infinite, type "infinity" or "inf". If it 5. 8. 11 · · (3n + 2) ... .. n=1 does not exist, type "DNE". an+1 lim = L An Answer: L = What can you say about the series using the Ratio Test? Answer "Convergent", "Divergent", or "Inconclusive".
To test this series for convergence ∞ n=1 3n 4 6n You could use the Limit Comparison Test, comparing it to the series Σ n=1 Completing the test, it shows the series: O Converges O Diverges r where r

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Test the series below for convergence using the Ratio Test. n=1 3 nº 0.7" The limit of the ratio test simplifies to lim f(n) where n → ∞ f(n) = The limit is: (enter oo for infinity if needed) Based on this, the series Select an answer