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INTEGRATION BY SUBSTITUTION. Substitution with Indefinite Integration This is the “backwards” version of the chain rule Recall … Then …

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Presentation on theme: "INTEGRATION BY SUBSTITUTION. Substitution with Indefinite Integration This is the “backwards” version of the chain rule Recall … Then …"— Presentation transcript:

1 INTEGRATION BY SUBSTITUTION

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3 Substitution with Indefinite Integration This is the “backwards” version of the chain rule Recall … Then …

4 Substitution with Indefinite Integration In general we look at the f(x) and “split” it –into a g(u) and a du/dx So that …

5 Substitution with Indefinite Integration Note the parts of the integral from our example

6 Substitution with Indefinite Integration Let u = So, du = (2x -4)dx

7 Guidelines for Making a Change of Variables

8 Theorem 4.13 The General Power Rule for Integration

9 Example 1: The variable of integration must match the variable in the expression. Don’t forget to substitute the value for u back into the problem!

10 Guildelines If something is being raised to an exponent (including a radical), that will be u. If one function is 1 degree higher than the other function, that will be u. If e is being raised to an exponent, that exponent will be u. If you have one trig function, the inside function will be u.

11 Example 2: One of the clues that we look for is if we can find a function and its derivative in the integrand. The derivative of is.Note that this only worked because of the 2x in the original. Many integrals can not be done by substitution.

12 Example 3: Solve for dx.

13 Example 4:

14 Example 5: We solve for because we can find it in the integrand.

15 Example 6:

16 Can You Tell? Which one needs substitution for integration?

17 Integration by Substitution

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23 Solve the differential equation

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25 Theorem 4.14 Change of Variables for Definite Integrals

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27 or you could convert the bound to u’s.

28 Example 7: The technique is a little different for definite integrals. We can find new limits, and then we don’t have to substitute back. new limit

29 Example 9: Don’t forget to use the new limits.

30 Theorem 4.15 Integration of Even and Odd Functions

31 Even/Odd Functions If f(x) is an even function, then If f(x) is an odd function, then

32 Even/Odd Functions If f(x) is an even function, then If f(x) is an odd function, then

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