1. Vocabulary Dependent Variable Independent Variable Input Output Function Linear Function

2. Definition Dependent Variable – A variable whose value depends on some other value. – Generally, y is used for the dependent variable. Independent Variable – A variable that doesn’t depend on any other value. –Generally, x is used for the independent variable. The value of the dependent variable depends on the value of the independent variable.

3. Independent and Dependent Variables On a graph; the independent variable is on the horizontal or x-axis. the dependent variable is on the vertical or y-axis. independent dependent y x

4. A veterinarian must weight an animal before determining the amount of medication. The amount of medication depends on the weight of an animal. Dependent: amount of medication Independent: weight of animal Identify the independent and dependent variables in the situation. Example:

5. A company charges $10 per hour to rent a jackhammer. Identify the independent and dependent variable in the situation. The cost to rent a jackhammer depends on the length of time it is rented. Dependent variable: cost Independent variable: time Your Turn:

6. Identify the independent and dependent variable in the situation. Camryn buys p pounds of apples at $0.99 per pound. The cost of apples depends on the number of pounds bought. Dependent variable: cost Independent variable: pounds Your Turn:

7. Definition Input – Values of the independent variable. –x – values –The input is the value substituted into an equation. Output – Values of the dependent variable. –y – values. –The output is the result of that substitution in an equation.

8. Function In the last 2 problems you can describe the relationship by saying that the perimeter (dependent variable – y value) is a function of the number of figures (independent variable – x value). A function is a relationship that pairs each input value with exactly one output value.

9. You can think of a function as an input-output machine. input 10 x output 5x5x 6 30 2 Function function y = 5x

10. Helpful Hint There are several different ways to describe the variables of a function. Independent Variable Dependent Variable x-values y-values DomainRange InputOutput xf(x)f(x)

11. A function is a set of ordered pairs (x, y) so that each x-value corresponds to exactly one y-value. Some functions can be described by a rule written in words, such as “double a number and then add nine to the result,” or by an equation with two variables. One variable (x) represents the input, and the other variable (y) represents the output. Output variable Input variable Function Rule

12. Linear Function Another method of representing a function is with a graph. A linear function is a function whose graph is a nonvertical line or part of a nonvertical line.

13. Since the data shows a ___________ difference the pattern is __________. If a pattern is linear then its graph is a straight _________. A DVD buyers club charges a $20 membership fee and $15 per DVD purchased. The table below represents this situation. Number of DVDs purchased x012345 Total cost ($) y203550658095 +15 Find the first differences for the total cost. constantlinear line Example: Representing a Linear Function

14. Relations  A relation is a mapping, or pairing, of input values with output values.  The set of input values is called the domain.  The set of output values is called the range.

15. Domain & Range Domain is the set of all x values. Range is the set of all y values. Example 1: Domain- D: {1, 2} Range- R: {1, 2, 3} {(1, 1), (1, 2), (1, 3), (2, 1), (2, 2), (2, 3)}

16. Example 2: Find the Domain and Range of the following relation: {(a,1), (b,2), (c,3), (e,2)} Domain: {a, b, c, e}Range: {1, 2, 3} Page 107

17. Every equation has solution points (points which satisfy the equation). 3x + y = 5 (0, 5), (1, 2), (2, -1), (3, -4) Some solution points: Most equations have infinitely many solution points. Page 111

18. Ex 3. Determine whether the given ordered pairs are solutions of this equation. (-1, -4) and (7, 5); y = 3x -1 The collection of all solution points is the graph of the equation.

19. 3.3 Functions Page 116 A relation as a function provided there is exactly one output for each input.A relation as a function provided there is exactly one output for each input. It is NOT a function if at least one input has more than one outputIt is NOT a function if at least one input has more than one output

20. INPUT (DOMAIN) OUTPUT (RANGE) FUNCTION MACHINE In order for a relationship to be a function… EVERY INPUT MUST HAVE AN OUTPUT TWO DIFFERENT INPUTS CAN HAVE THE SAME OUTPUT Functions ONE INPUT CAN HAVE ONLY ONE OUTPUT

21. Example 6 No two ordered pairs can have the same first coordinate (and different second coordinates). Which of the following relations are functions? R= {(9,10, (-5, -2), (2, -1), (3, -9)} S= {(6, a), (8, f), (6, b), (-2, p)} T= {(z, 7), (y, -5), (r, 7) (z, 0), (k, 0)}

22. Identify the Domain and Range. Then tell if the relation is a function. Input Output -3 3 1 3 -2 4 Domain = {-3, 1,3,4} Range = {3,1,-2} Function? Yes: each input is mapped onto exactly one output

23. Input Output -3 3 1-2 4 1 4 Identify the Domain and Range. Then tell if the relation is a function. Domain = {-3, 1,4} Range = {3,-2,1,4} Function? No: input 1 is mapped onto Both -2 & 1 Notice the set notation!!!

24. 1. {(2,5), (3,8), (4,6), (7, 20)} 2. {(1,4), (1,5), (2,3), (9, 28)} 3. {(1,0), (4,0), (9,0), (21, 0)}

25. The Vertical Line Test If it is possible for a vertical line to intersect a graph at more than one point, then the graph is NOT the graph of a function. Page 117

26. (-3,3) (4,4) (1,1) (1,-2) Use the vertical line test to visually check if the relation is a function. Function? No, Two points are on The same vertical line.

27. (-3,3) (4,-2) (1,1) (3,1) Use the vertical line test to visually check if the relation is a function. Function? Yes, no two points are on the same vertical line

28. Examples  I’m going to show you a series of graphs.  Determine whether or not these graphs are functions.  You do not need to draw the graphs in your notes.

29. #1 Function?

30. #2

31. Function? #3

32. Function? #4

33. Function? #5

34. #6 Function?

35. #7

36. Function? #8

37. #9 Function?

38. Function? #10

39. Function? #11

40. Function? #12

41. “f of x” Input = x Output = f(x) = y Function Notation

42. y = 6 – 3x -2 0 1 2 12 9 6 0 3 x y f(x) = 6 – 3x -2 0 1 2 12 9 6 0 3 x f(x) Before… Now… (x, y) (input, output) (x, f(x))