1. Chapter 4
Integration

2. Definition of an Antiderivative
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3. Theorem 4.1 Representation of Antiderivatives
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4. Basic Integration Rules
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5. Sigma Notation
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6. Theorem 4.2 Summation Formulas
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7. Figure 4.5
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8. Figure 4.6
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9. Figure 4.7
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10. Figure 4.8
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11. Figure 4.10
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12. Figure 4.11
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13. Figure 4.12
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14. Theorem 4.3 Limits of the Lower and Upper Sums
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15. Definition of the Area of a Region in the Plane
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16. Definition of a Riemann Sum
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17. Definition of a Definite Integral
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18. Theorem 4.4 Continuity Implies Integrability
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19. Theorem 4.5 The Definite Integral as the Area of a Region
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20. Definitions of Two Special Definite Integrals
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21. Theorem 4.6 Additive Interval Property
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22. Theorem 4.7 Properties of Definite Integrals
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23. Theorem 4.8 Preservation of Inequality
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24. Figure 4.27
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25. Theorem 4.9 The Fundamental Theorem of Calculus
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26. Guidelines for Using the Fundamental Theorem of Calculus
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27. Theorem 4.10 Mean Value Theorem for Integrals and Figure 4.30
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28. Definition of the Average Value of a Function on an Interval and Figure 4.32
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29. Definite Integral diagrams
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30. Figure 4.35
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31. Theorem 4.11 The Second Fundamental Theorem of Calculus
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32. Theorem 4.12 Antidifferentiation of a Composite Function
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33. Guidelines for Making a Change of Variables
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34. Theorem 4.13 The General Power Rule for Integration
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35. Theorem 4.14 Change of Variables for Definite Integrals
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36. Theorem 4.15 Integraion of Even and Odd Functions and Figure 4.39
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37. Figure 4.41
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38. Theorem 4.16 The Trapezoidal Rule
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39. Theorem 4.17 Integral of p(x) =Ax2 + Bx + C
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40. Theorem 4.18 Simpson's Rule (n is even)
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41. Theorem 4.19 Errors in the Trapezoidal Rule and Simpson's Rule
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