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AP Calculus Mrs. Mongold. The Fundamental Theorem of Calculus, Part 1 If f is continuous on, then the function has a derivative at every point in, and.

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Presentation on theme: "AP Calculus Mrs. Mongold. The Fundamental Theorem of Calculus, Part 1 If f is continuous on, then the function has a derivative at every point in, and."— Presentation transcript:

1 AP Calculus Mrs. Mongold

2 The Fundamental Theorem of Calculus, Part 1 If f is continuous on, then the function has a derivative at every point in, and

3 First Fundamental Theorem: 1. Derivative of an integral.

4 2. Derivative matches upper limit of integration. First Fundamental Theorem: 1. Derivative of an integral.

5 2. Derivative matches upper limit of integration. 3. Lower limit of integration is a constant. First Fundamental Theorem:

6 1. Derivative of an integral. 2. Derivative matches upper limit of integration. 3. Lower limit of integration is a constant. New variable. First Fundamental Theorem:

7 1. Derivative of an integral. 2. Derivative matches upper limit of integration. 3. Lower limit of integration is a constant. The long way: First Fundamental Theorem:

8 1. Derivative of an integral. 2. Derivative matches upper limit of integration. 3. Lower limit of integration is a constant.

9 The upper limit of integration does not match the derivative, but we could use the chain rule.

10 The lower limit of integration is not a constant, but the upper limit is. We can change the sign of the integral and reverse the limits.

11 Neither limit of integration is a constant. It does not matter what constant we use! (Limits are reversed.) (Chain rule is used.) We split the integral into two parts.

12 The Fundamental Theorem of Calculus, Part 2 If f is continuous at every point of, and if F is any antiderivative of f on, then (Also called the Integral Evaluation Theorem) We already know this! To evaluate an integral, take the anti-derivatives and subtract. 

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