5.3 Definite Integrals and Antiderivatives Objective: SWBAT apply rules for definite integrals and find the average value over a closed interval.

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Presentation transcript:

5.3 Definite Integrals and Antiderivatives Objective: SWBAT apply rules for definite integrals and find the average value over a closed interval

Rules for Definite Integrals

Rules for Definite Integrals(cont)

Average Value of a Function Suppose you want to find the average temperature during a 24 hour period. How could you do it?

Example 3: Using this method, write an expression for the AVERAGE temperature. Example 4: Substitute this value of n into your expression above and simplify.

Notice that the numerator is a Riemann Sum. If n goes to infinity, this Riemann Sum becomes a definite integral. Let’s write a definite integral that gives us the AVERAGE VALUE of the temperature since midnight.

Average Value of a Function Average value of the function is the “integral divided by the interval”

a) Set up a definite integral to find the average value of y on [0,3]. Then, use your calculator to evaluate the definite integral. b) Graph this value as a function on the grid to the right. Does the original function ever actually equal this value? If so, at what point(s) in the interval does the function assume its average value?

Why does that work???

The Mean Value Theorem for Definite Integrals Refresher: The MVT for derivatives told us that if we have a function that is continuous on the closed interval and differentiable on the open interval then there is a point somewhere on the interval whose derivative is the same as the slope of the secant line (there is a tangent line parallel to the secant line). See section 4.2 for a lovely refresher on this topic.

The MVT for Integrals basically says that if you are finding the area under a curve between x=a and x=b, then there is some number c between a and b whose function value you can use to form a rectangle that has an area equal to the area under the curve. In other words, at some point within the interval the function MUST equal its average value. The Mean Value Theorem for Definite Integrals

Example 6: a) Write an expression that could be used to find the area under the curve from a to b. b) What is the area of the shaded rectangle? The value f(c) is just the AVERAGE VALUE of f on the interval [a,b].

Average rate of change vs Average value On the AP test, you will be asked to find average rate of change and average value, sometimes in the same problem, using the same function. It is important that you know the difference between the two. Average rate of change is the slope between two points. Average value is the integral divided by the interval.