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Rates of Change and Tangent Lines Section 2.4. Average Rates of Change The average rate of change of a quantity over a period of time is the amount of.

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Presentation on theme: "Rates of Change and Tangent Lines Section 2.4. Average Rates of Change The average rate of change of a quantity over a period of time is the amount of."— Presentation transcript:

1 Rates of Change and Tangent Lines Section 2.4

2 Average Rates of Change The average rate of change of a quantity over a period of time is the amount of change divided by the time it takes. Example: Find the average rate of change of f(x) = x 3 – x over the interval [1, 3]

3 A line through two points on a curve is a secant to the curve. The average rate of change is the slope of the secant line.

4 Use the points (2, 0.368) and (5, 2.056) to compute the average rate of change and the slope of the secant line.

5 A line through one point on a curve is a tangent to the curve. The slope of the tangent line is the rate of change at a particular point. See p.83

6 Defining Slopes & Tangents of Curves Find the slope of a secant through two points P and Q on a curve. Find the limiting value of the secant slope as Q approaches P along the curve. Define the slope of the curve at P to be this number and define the tangent to the curve at P to be the line through P with this slope.

7 Find the slope of the parabola y = x 2 at the point P (2, 4). Write an equation for the tangent to the parabola at this point.

8 The slope of the curve y = f(x) at the point P(a, f(a)) is the number provided the limit exists. The tangent line to the curve at P is the line through P with this slope.

9 Let f(x) = 1/x. Find the slope of the curve at x = a. Where does the slope equal -1/4? What happens to the tangent to the curve at the point (a, 1/a) for different values of a?

10 Difference quotient of f at a

11 The normal line to a curve at a point is the line perpendicular to the tangent at that point.

12 Write an equation for the normal to the curve f(x) = 4 – x 2 at x = 1.

13 Speed Revisited Position function: y = f(t) Average rate of change of position: average speed along a coordinate axis for a given period of time Instantaneous speed: instantaneous rate of change of position with respect to time at time t, or

14 Position function: y = f(t) = 16t 2 Find the speed of the falling rock at t = 1 sec

15 pages 87-89 (2-32 even) ======================== pages 87-89 (3, 7, 9, 11, 13, 17, 21, 25, 27, 29) ======================== pages 91-93 (2-24 even, 25-30, 32-40 even, 43, 44, 46-50, 52)

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