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This example demonstrates how to use the Fundamental Theorem of Calculus to evaluate the area between a function graph and the x-axis over a given interval. It also shows how to apply the substitution rule for integration.
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4.3- 4.4 Fundamental Theorem of Calculus Indefinite Integrals
Example: Evaluate A(x) Area between the graph of f(x) and the x-axis over the interval [2,x]
Fundamental Theorem of Calculus – part 1: Fundamental Theorem of Calculus – simplest form: Fundamental Theorem of Calculus – more general form:
Fundamental Theorem of Calculus - part 2: Suppose that f is bounded on the interval [a,b], and that F is an antiderivative of f, i.e., F’ = f. Then:
Example 1: Solution:
Example 2: Solution:
Example 3: Solution:
More practice problems with solutions: http://tutorial.math.lamar.edu/Classes/CalcI/ComputingDefiniteIntegrals.aspx
4.5 Substitution Rule
Find x3cos(x4 + 2) dx. Solution: We make the substitution u = x4 + 2 because its differential is du = 4x3 dx, which, apart from the constant factor 4, occurs in the integral. Thus, using x3 dx =du and the Substitution Rule, we have x3cos(x4 + 2) dx = cosudu = cosu du Example 1:
= sin u + C = sin(x4 + 2)+ C Notice that at the final stage we had to return to the original variable x. Example 1 – Solution cont’d
Evaluate . Solution: Let u = 2x + 1. Then du = 2 dx, so dx = du. So: Example 2: 4 0
