Integration by Substitution (4.5) February 7th, 2013.

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Presentation transcript:

Integration by Substitution (4.5) February 7th, 2013

I. Pattern Recognition & Change of Variables Thm. 4.12: Antidifferentiation of a Composite Function: Let g be a function whose range is on the interval I, and let f be a function that is continuous on I. If g is differentiable on its domain and F is an antiderivative of f on I, then. Using u-substitution, if we let u = g(x), then du = g’(x)dx and.

Guidelines for Making a Change of Variable 1. Choose a substitution u = g(x), usually choosing the inner piece of a composite function. 2. Find du = g’(x)dx. 3. Rewrite the integral in terms of u. 4. Find the integral in terms of u. 5. Replace u with g(x). 6. Check by differentiating the result.

Ex. 1: Find each indefinite integral. a. b. c. d. e. f. g. h. i.

II. The General Power Rule for Integration Thm. 4.13: The General Power Rule for Integration: If g is a differentiable function of x, then. Equivalently, if u = g(x), then.

Ex. 2: Find each indefinite integral. a. b. c. d.

Ex. 3: Find.

III. Change of Variables for Definite Integrals Thm. 4.14: Change of Variables for Definite Integrals: If the function u = g(x) has a continuous derivative on the closed interval [a, b] and f is continuous on the range of g, then.

Ex. 4: Evaluate each definite integral. a. b.

Ex. 5: Evaluate.

IV. Integration of Even & Odd Functions Thm. 4.15: Integration of Even & Odd Functions: Let f be integrable on the closed interval [-a, a]. 1. If f is an even function, then. 2. If f is an odd function, then.

*Recall that even functions, or functions in which f(-x)=f(x), are symmetric about the y- axis. Odd functions, or functions in which f(- x)=-f(x), are symmetric about the origin.

Ex. 6: Evaluate.