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Warm Up 2. Consider the series: a)What is the sum of the series? b)How many terms are required in the partial sum to approximate the sum of the infinite.

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Presentation on theme: "Warm Up 2. Consider the series: a)What is the sum of the series? b)How many terms are required in the partial sum to approximate the sum of the infinite."— Presentation transcript:

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2 Warm Up 2. Consider the series: a)What is the sum of the series? b)How many terms are required in the partial sum to approximate the sum of the infinite series within 0.001?

3 Ratio and Root Tests for convergence/divergence

4 Let be a series with nonzero terms. Find the ratio: 1.If the limit is < 1, the series converges. 2.If the limit is > 1 (including infinity), the series diverges. 3.If the limit = 1, the test is inconclusive. Choose a different convergence test  The Ratio Test (Use for series with n n, n!, exponentials, etc.)

5 Example:

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7 Determine the convergence or divergence of: 1. 2. 3. 4.

8 The root test (use if every thing is raised to the n th power) Let be a series with nonzero terms. Find: 1.If limit is < 1, converges. 2.If limit is > 1 (including infinity), diverges. 3.If limit = 1, inconclusive. Choose a different test.

9 Examples: 1. 2.

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11 Guidelines for Convergence/Divergence. 1.Does the nth term approach 0? If not, the series diverges. 2.Is the series one of those special types – geometric, p-series, telescoping or alternating? 3.Can the integral test, root test, or ratio test be applied? 4.Can the series be compared directly or using a limit?

12 Putting it all together: Determine the convergence or divergence of the series below. If possible, find what the series converges to. 1. 2. 3. 4. 5. 6.

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