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Wir2.5 LESSON. 4-7 Graph Linear Functions Vocabulary Function notation Parent Linear Function Graph: f(x) = mx + b where f(x) is another name for y.

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Presentation on theme: "Wir2.5 LESSON. 4-7 Graph Linear Functions Vocabulary Function notation Parent Linear Function Graph: f(x) = mx + b where f(x) is another name for y."— Presentation transcript:

1 Wir2.5 LESSON

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3 4-7 Graph Linear Functions Vocabulary Function notation Parent Linear Function Graph: f(x) = mx + b where f(x) is another name for y - read as “the value of f at x” or “f of x” * it does NOT mean f times x! most basic linear function which is: f(x) = x

4 Family of Functions group of functions with similar characteristics g(x)=x+bg(x)=mx where m>0 g(x)=mx where m<0 same slope different y-int. = are vertical translations of f(x)=x different + slopes same y-int. = are vertical stretches/shrinks of f(x)=x different - slopes same y-int. = are vertical stretches/shrinks with reflections in the x-axis of f(x)=x - changing m or b in the general linear function g(x)=mx+b creates families of linear functions whose graphs are related to the parent linear function f(x)=x:

5 Application of Linear Functions Function Machine: Input-Output Patterns Function Transformations: Changing the Constant Animated Activity: In-Line Skating

6 SOLUTION Standardized Test Practice EXAMPLE 1 Substitute -3 for x. Write original function. f (x) 3x – 15 = = (–3) 3(–3) – 15 f ANSWER The correct answer is A. A BC D Simplify. = –24

7 GUIDED PRACTICE for Example 1 1. Evaluate the function h(x) = –7x when x = 7. –49 ANSWER

8 Find an x-value EXAMPLE 2 Write original function. Substitute 6 for f(x). 8 x = Solve for x. ANSWER When x = 8, f(x) = 6. 6 2x – 10= f(x) = 6. For the function f(x) 2x – 10, find the value of x so that = = 2x – 10 f(x)f(x)

9 Graph a function The gray wolf population in central Idaho was monitored over several years for a project aimed at boosting the number of wolves. The number of wolves can be modeled by the function f(x) = 37x + 7 where x is the number of years since 1995. Graph the function and identify its domain and range. GRAY WOLF EXAMPLE 3

10 SOLUTION To graph the function, make a table. xf(x) 037(0) + 7 = 7 137(1) + 7 = 44 237(2) + 7 = 81 The domain of the function is x  0. From the graph or table, you can see that the range of the function is f(x)  7. Graph a function EXAMPLE 3

11 EXAMPLE 5 GUIDED PRACTICE for Examples 2 and 3 2. WOLF POPULATION Use the model from Example 3 to find the value of x so that f(x) = 155. Explain what the solution means in this situation. 4 ; in 1999, 4 years after 1995, the wolf population will be 155. ANSWER

12 SOLUTION EXAMPLE 4 Graph the function. Compare the graph with the graph of f(x) x. = Compare graphs with the graph f (x) x = a.a. g(x) = x + 3 Because the graphs of g and f have the same slope, m = 1, the lines are parallel. Also, the y- intercept of the graph of g is 3 more than the y- intercept of the graph of f. SOLUTION h(x) = 2x b. Because the slope of the graph of h is greater than the slope of the graph of f, the graph of h rises faster from left to right. The y- intercept for both graphs is 0, so both lines pass through the origin.

13 Write an equation from a graph GUIDED PRACTICE for Example 4 Graph h(x) = –3x. Compare the graph with the graph of f (x) = x. 3. Since the slope of the graph of h is negative the graph of h falls from left to right. The y -intercept for both graphs is 0, so both lines pass through the origin. ANSWER

14 EXAMPLE 5 Graph real-world functions CABLE A cable company charges new customers $40 for installation and $60 per month for its service. The cost to the customer is given by the function f(x) = 60x + 40 where x is the number of months of service. To attract new customers, the cable company reduces the installation fee to $5. A function for the cost with the reduced installation fee is g(x) = 60x + 5. Graph both functions. How is the graph of g related to the graph of f ?

15 EXAMPLE 5 SOLUTION The graphs of both functions are shown. Both functions have a slope of 60, so they are parallel. The y -intercept of the graph of g is 35 less than the graph of f. So, the graph of g is a vertical translation of the graph of f. Graph real-world functions

16 Write an equation from a graph GUIDED PRACTICE for Example 5 4. WHAT IF? In Example 5, suppose the monthly fee is $70 so that the cost to the customer is given by h(x) = 70x + 40. Graph f and h in the same coordinate plane. How is the graph of h related to the graph of f ? Since the slope of the graph of h is greater than the slope of the graph of f, the graph of h rises faster from left to right. The y -intercept for both graphs is 40, so both lines pass through (0, 40). ANSWER

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18 Check Yourself Pg. 265-268 #4-12eoe, 13-15, 22-30eoe, 35, 42, 46-47 and 4.4 - 4.7 Quiz Practice Worksheet

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