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Section 16.9 Series Convergence Strategy (SQ9)

Subsection 16.9.1 Activities

Activity 16.123.

Which test for convergence is the best first test to apply to any series \(\displaystyle \sum_{k=1}^\infty a_k\text{?}\)
  1. Divergence Test
  2. Geometric Series
  3. Integral Test
  4. Direct Comparison Test
  5. Limit Comparison Test
  6. Ratio Test
  7. Root Test
  8. Alternating Series Test

Activity 16.124.

In which of the following scenarios can we successfully apply the Direct Comparison Test to determine the convergence of the series \(\displaystyle \sum a_k\text{?}\)
  1. When we find a convergent series \(\displaystyle \sum b_k\) where \(0\leq a_k\leq b_k\)
  2. When we find a divergent series \(\displaystyle \sum b_k\) where \(0\leq a_k\leq b_k\)
  3. When we find a convergent series \(\displaystyle \sum b_k\) where \(0\leq b_k\leq a_k\)
  4. When we find a divergent series \(\displaystyle \sum b_k\) where \(0\leq b_k\leq a_k\)

Activity 16.125.

Which test(s) for convergence would we use for a series \(\displaystyle \sum a_k\) where \(a_k\) involves \(k^{th}\) powers?
  1. Divergence Test
  2. Geometric Series
  3. Integral Test
  4. Direct Comparison Test
  5. Limit Comparison Test
  6. Ratio Test
  7. Root Test
  8. Alternating Series Test

Activity 16.126.

Which test(s) for convergence would we use for a series of the form \(\displaystyle \sum ar^k\text{?}\)
  1. Divergence Test
  2. Geometric Series
  3. Integral Test
  4. Direct Comparison Test
  5. Limit Comparison Test
  6. Ratio Test
  7. Root Test
  8. Alternating Series Test

Activity 16.127.

Which test(s) for convergence would we use for a series \(\displaystyle \sum a_k\) where \(a_k\) involves factorials and powers?
  1. Divergence Test
  2. Geometric Series
  3. Integral Test
  4. Direct Comparison Test
  5. Limit Comparison Test
  6. Ratio Test
  7. Root Test
  8. Alternating Series Test

Activity 16.128.

Which test(s) for convergence would we use for a series \(\displaystyle \sum a_k\) where \(a_k\) is a rational function?
  1. Divergence Test
  2. Geometric Series
  3. Integral Test
  4. Direct Comparison Test
  5. Limit Comparison Test
  6. Ratio Test
  7. Root Test
  8. Alternating Series Test

Activity 16.129.

Which test(s) for convergence would we use for a series of the form \(\displaystyle \sum (-1)^ka_k\text{?}\)
  1. Divergence Test
  2. Geometric Series
  3. Integral Test
  4. Direct Comparison Test
  5. Limit Comparison Test
  6. Ratio Test
  7. Root Test
  8. Alternating Series Test

Activity 16.131.

Consider the series \(\displaystyle \sum_{k=3}^\infty \frac{2}{\sqrt{k-2}}\text{.}\)
(a)
Which test(s) seem like the most appropriate one(s) to test for convergence or divergence?
  1. Divergence Test
  2. Geometric Series
  3. Integral Test
  4. Direct Comparison Test
  5. Limit Comparison Test
  6. Ratio Test
  7. Root Test
  8. Alternating Series Test
(b)
Apply an appropriate test to determine the convergence of this series.
  1. This series is convergent.
  2. This series is divergent.

Activity 16.132.

Consider the series \(\displaystyle \sum_{k=1}^\infty \frac{k}{1+2k}\text{.}\)
(a)
Which test(s) seem like the most appropriate one(s) to test for convergence or divergence?
  1. Divergence Test
  2. Geometric Series
  3. Integral Test
  4. Direct Comparison Test
  5. Limit Comparison Test
  6. Ratio Test
  7. Root Test
  8. Alternating Series Test
(b)
Apply an appropriate test to determine the convergence of this series.
  1. This series is convergent.
  2. This series is divergent.

Activity 16.133.

Consider the series \(\displaystyle \sum_{k=0}^\infty \frac{2k^2+1}{k^3+k+1}\text{.}\)
(a)
Which test(s) seem like the most appropriate one(s) to test for convergence or divergence?
  1. Divergence Test
  2. Geometric Series
  3. Integral Test
  4. Direct Comparison Test
  5. Limit Comparison Test
  6. Ratio Test
  7. Root Test
  8. Alternating Series Test
(b)
Apply an appropriate test to determine the convergence of this series.
  1. This series is convergent.
  2. This series is divergent.

Activity 16.134.

Consider the series \(\displaystyle \sum_{k=0}^\infty \frac{100^k}{k!}\text{.}\)
(a)
Which test(s) seem like the most appropriate one(s) to test for convergence or divergence?
  1. Divergence Test
  2. Geometric Series
  3. Integral Test
  4. Direct Comparison Test
  5. Limit Comparison Test
  6. Ratio Test
  7. Root Test
  8. Alternating Series Test
(b)
Apply an appropriate test to determine the convergence of this series.
  1. This series is convergent.
  2. This series is divergent.

Activity 16.135.

Consider the series \(\displaystyle \sum_{k=1}^\infty \frac{2^k}{5^k}\text{.}\)
(a)
Which test(s) seem like the most appropriate one(s) to test for convergence or divergence?
  1. Divergence Test
  2. Geometric Series
  3. Integral Test
  4. Direct Comparison Test
  5. Limit Comparison Test
  6. Ratio Test
  7. Root Test
  8. Alternating Series Test
(b)
Apply an appropriate test to determine the convergence of this series.
  1. This series is convergent.
  2. This series is divergent.

Activity 16.136.

Consider the series \(\displaystyle \sum_{k=1}^\infty \frac{k^3-1}{k^5+1}\text{.}\)
(a)
Which test(s) seem like the most appropriate one(s) to test for convergence or divergence?
  1. Divergence Test
  2. Geometric Series
  3. Integral Test
  4. Direct Comparison Test
  5. Limit Comparison Test
  6. Ratio Test
  7. Root Test
  8. Alternating Series Test
(b)
Apply an appropriate test to determine the convergence of this series.
  1. This series is convergent.
  2. This series is divergent.

Activity 16.137.

Consider the series \(\displaystyle \sum_{k=2}^\infty \frac{3^{k-1}}{7^k}\text{.}\)
(a)
Which test(s) seem like the most appropriate one(s) to test for convergence or divergence?
  1. Divergence Test
  2. Geometric Series
  3. Integral Test
  4. Direct Comparison Test
  5. Limit Comparison Test
  6. Ratio Test
  7. Root Test
  8. Alternating Series Test
(b)
Apply an appropriate test to determine the convergence of this series.
  1. This series is convergent.
  2. This series is divergent.

Activity 16.138.

Consider the series \(\displaystyle \sum_{k=2}^\infty \frac{1}{k^k}\text{.}\)
(a)
Which test(s) seem like the most appropriate one(s) to test for convergence or divergence?
  1. Divergence Test
  2. Geometric Series
  3. Integral Test
  4. Direct Comparison Test
  5. Limit Comparison Test
  6. Ratio Test
  7. Root Test
  8. Alternating Series Test
(b)
Apply an appropriate test to determine the convergence of this series.
  1. This series is convergent.
  2. This series is divergent.

Activity 16.139.

Consider the series \(\displaystyle \sum_{k=1}^\infty \frac{(-1)^{k+1}}{\sqrt{k+1}}\text{.}\)
(a)
Which test(s) seem like the most appropriate one(s) to test for convergence or divergence?
  1. Divergence Test
  2. Geometric Series
  3. Integral Test
  4. Direct Comparison Test
  5. Limit Comparison Test
  6. Ratio Test
  7. Root Test
  8. Alternating Series Test
(b)
Apply an appropriate test to determine the convergence of this series.
  1. This series is convergent.
  2. This series is divergent.

Activity 16.140.

Consider the series \(\displaystyle \sum_{k=2}^\infty \frac{1}{k\ln(k)}\text{.}\)
(a)
Which test(s) seem like the most appropriate one(s) to test for convergence or divergence?
  1. Divergence Test
  2. Geometric Series
  3. Integral Test
  4. Direct Comparison Test
  5. Limit Comparison Test
  6. Ratio Test
  7. Root Test
  8. Alternating Series Test
(b)
Apply an appropriate test to determine the convergence of this series.
  1. This series is convergent.
  2. This series is divergent.

Activity 16.141.

Determine which of the following series is convergent and which is divergent. Justify both choices with an appropriate test.
(a)
\(\displaystyle \sum_{n=1}^\infty \frac{4 \, \left(-1\right)^{n + 1} n^{2}}{2 \, n^{3} + 4 \, n^{2} + 5}.\)
(b)
\(\displaystyle \sum_{n=1}^\infty \frac{n!}{3 \cdot 3^{n} n^{4}}.\)

Subsection 16.9.2 Videos

Figure 240. Video: Identify appropriate convergence tests for various series

Subsection 16.9.3 Exercises

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