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5.1 Increasing\decreasing Functions Find critical values of a function Find increasing/decreasing intervals of a function A function is increasing when its graph rises as it goes from left to right. A function is decreasing when its graph falls as it goes from left to right. (Scary Math) DEFINITIONS: A function f is increasing over I if, for every a and b in I, if a < b, then f (a) < f (b). The graph rises from left to right. A function f is decreasing over I if, for every a and b in I, if a < b, then f (a) > f (b). The graph falls from left to right Whether a function is increasing or decreasing is related to the the slope of the tangent line. The slope of tan line positive - function increasing. The slope of tan line negative - function is decreasing. On an interval on which f is defined: If f(x) > 0 (if the derivative is positive) for all x in an interval I, then f (the function) is increasing over I. If f(x) < 0 (if the derivative is negative) for all x in an interval I, then f (the function) is decreasing over I. Find the intervals where f is increasing and decreasing Critical Value or Critical Number A critical value (or critical number) of a function f is any number c in the domain of f for which the tangent line at (c, f (c)) is horizontal or for which the derivative does not exist. That is, c is a critical value if f (c) exists and f (c) = 0 or f (c) does not exist. These are the x values where the function could change from increasing to decreasing or viceversa. Slide 2.1- 7 Copyright © 2008 Pearson Education, Inc. Publishing as Pearson Addison-Wesley Find the critical numbers for f ( x) x x 5 x 4 3 2 f ( x) 6 x 2/3 Steps For Finding Increasing and Decreasing Intervals of a Function 1) Find the derivative 2) Find numbers that make the derivative equal to 0, and find numbers that make it undefined. These are the critical numbers. 3) Put the critical numbers and any x values where f is undefined on a number line, dividing the number line into sections. 4) Choose a number in each interval to test in the first derivative. Make a note of the sign you get. 5) Intervals that have first derivatives that are positive, are increasing, and intervals that have first derivatives that are negative, are decreasing. Example 1: Find the increasing and decreasing intervals for the funtion given by f ( x) 2 x 3x 12 x 12. 3 Slide 2.1- 10 2 Copyright © 2008 Pearson Education, Inc. Publishing as Pearson Addison-Wesley Example 1 (continued): Find Derivative And set it = 0 6x 2 6x 12 0 x2 x 2 (x 2)(x 1) x2 or 0 0 x 1 These two critical values partition the number line into 3 intervals: A (– ∞, –1), B (–1, 2), and C (2, ∞). A B -1 Slide 2.1- 11 C 2 Copyright © 2008 Pearson Education, Inc. Publishing as Pearson Addison-Wesley Example 1 (continued): 3rd analyze the sign of f (x) in each interval. Interval A C B -1 x 2 Test Value x = –2 x=0 x=4 Sign of f (x) + – + Result Slide 2.1- 12 f is increasing f is decreasing on on (–∞, –1] [–1, 2] Copyright © 2008 Pearson Education, Inc. Publishing as Pearson Addison-Wesley f is increasing on [2, ∞) Find the intervals where f is increasing and decreasing. f ( x) x 5 x 6 2 Since f ’(x) = 2x+5 it follows that f is increasing when 2x+5>0 or when x>-2.5 which is the interval (2.5, ) It is decreasing on (,2.5) It is increasing on (2.5, ) Find the intervals where the function is increasing and decreasing f ( x) x 3 Determine the critical numbers for each function and give the intervals where the function is increasing or decreasing. f ( x) ( x 3) x3 f ( x) x4 2/3 x2 f ( x) 2 x 5 1 2 f ( x) x x x 19 2 3 A product has a profit function of P( x) 0.01x 60 x 500 2 for the production and sale of x units. Is the profit increasing or decreasing when 100 units have been sold? Since C(x) is the cost for producing x units, the average cost for producing x units is C(x) divided by x. C ( x) C ( x) x The marginal average cost would be found by taking the derivative. Suppose a product has a cost function given by C ( x) 500 54 x .03x where 0 x 1000 2 Find the average cost function. Over what interval is the average cost decreasing? Suppose the total cost C(x), in dollars, to manufacture a quantity x of weed killer, in hundreds of liters, is given by C ( x) x3 2 x 2 8x 50 a) Where is C(x) increasing? b) Where is C(x) decreasing? a) Nowhere b) (0, infinity) A manufacturer sells video games with the following cost and revenue functions (in dollars), where x is the number of games sold. 0 x 3300 Determine the interval on which the profit function is increasing. C( x) 0.32 x 2 0.00004 x3 R( x) 0.848 x 2 0.0002 x3 (0, 2200)