Determine whether the given series are convergent using the Ratio Test.
14. Sequences & Series
Convergence Tests
- Multiple Choice168views1rank
- Multiple Choice
Use the divergence test to determine if the following series diverge or state that the test is inconclusive.
273views5rank - Multiple Choice
Use the Alternating Series Test to determine if the following series is conditionally convergent, absolutely convergent, or divergent.
227views2rank - Multiple Choice
Determine whether the given series is convergent.
206views6rank - Multiple Choice
Use the divergence test to determine if the following series diverge or state that the test is inconclusive.
241views6rank - Multiple Choice
Determine if the following series converges, diverges, or is inconclusive.
198views1rank - Multiple Choice
Determine whether the given series is convergent.
177views1rank - Multiple Choice
Confirm that the integral test applies and then use the integral test to determine convergence of the series.
(A) (B)
230views2rank1comments - Multiple Choice
Determine the convergence or divergence of the series.
169views1rank - Multiple Choice
Use the divergence test to determine if the following series diverge or state that the test is inconclusive.
289views3rank - Multiple Choice
Determine whether the given series is convergent using the Ratio Test.
182views1rank1comments - Multiple Choice
Use the Alternating Series Test to approximate the sum of the series using the first five terms.
199views1rank - Multiple Choice
Explain why the integral test does not apply to the series.
222views4rank - Multiple Choice
Use the Direct Comparison Test to determine whether the series converges.
249views4rank - Multiple Choice
Use the Limit Comparison Test to determine whether the series converges.
161views4rank