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5.6 – Graphing Inequalities in Two Variables. Ex. 1 From the set {(1,6),(3,0),(2,2),(4,3)}, which ordered pairs are part of the solution set for 3x +

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Presentation on theme: "5.6 – Graphing Inequalities in Two Variables. Ex. 1 From the set {(1,6),(3,0),(2,2),(4,3)}, which ordered pairs are part of the solution set for 3x +"— Presentation transcript:

1 5.6 – Graphing Inequalities in Two Variables

2 Ex. 1 From the set {(1,6),(3,0),(2,2),(4,3)}, which ordered pairs are part of the solution set for 3x + 2y < 12?

3

4 (x, y)

5 Ex. 1 From the set {(1,6),(3,0),(2,2),(4,3)}, which ordered pairs are part of the solution set for 3x + 2y < 12? (x, y)3x + 2y < 12

6 Ex. 1 From the set {(1,6),(3,0),(2,2),(4,3)}, which ordered pairs are part of the solution set for 3x + 2y < 12? (x, y)3x + 2y < 12True or False

7 Ex. 1 From the set {(1,6),(3,0),(2,2),(4,3)}, which ordered pairs are part of the solution set for 3x + 2y < 12? (x, y)3x + 2y < 12True or False (1,6)

8 Ex. 1 From the set {(1,6),(3,0),(2,2),(4,3)}, which ordered pairs are part of the solution set for 3x + 2y < 12? (x, y)3x + 2y < 12True or False (1,6)(1,6)3(1) + 2(6) < 12

9 Ex. 1 From the set {(1,6),(3,0),(2,2),(4,3)}, which ordered pairs are part of the solution set for 3x + 2y < 12? (x, y)3x + 2y < 12True or False (1,6)3(1) + 2(6) < 12False

10 Ex. 1 From the set {(1,6),(3,0),(2,2),(4,3)}, which ordered pairs are part of the solution set for 3x + 2y < 12? (x, y)3x + 2y < 12True or False (1,6)3(1) + 2(6) < 12False (3,0)3(3) + 2(0) < 12True (2,2)3(2) + 2(2) < 12True (4,3)3(4) + 2(3) < 12False

11 Ex. 1 From the set {(1,6),(3,0),(2,2),(4,3)}, which ordered pairs are part of the solution set for 3x + 2y < 12? (3,0) & (2,2) (x, y)3x + 2y < 12True or False (1,6)3(1) + 2(6) < 12False (3,0)3(3) + 2(0) < 12True (2,2)3(2) + 2(2) < 12True (4,3)3(4) + 2(3) < 12False

12 Ex. 2 Graph y > 3

13

14 1) Go to where y = 3

15 Ex. 2 Graph y > 3 1) Go to where y = 3

16 Ex. 2 Graph y > 3 1) Go to where y = 3 2) Horizontal

17 Ex. 2 Graph y > 3 1) Go to where y = 3 2) Horizontal, Dashed

18 Ex. 2 Graph y > 3 1) Go to where y = 3 2) Horizontal, Dashed

19 Ex. 2 Graph y > 3 1) Go to where y = 3 2) Horizontal, Dashed 3) Shade inequality

20 Ex. 2 Graph y > 3 1) Go to where y = 3 2) Horizontal, Dashed 3) Shade inequality

21 Ex. 2 Graph y > 3 1) Go to where y = 3 2) Horizontal, Dashed 3) Shade inequality

22 Ex. 2 Graph y > 3 1) Go to where y = 3 2) Horizontal, Dashed 3) Shade inequality Ex. 3 Graph x < -1

23 Ex. 2 Graph y > 3 1) Go to where y = 3 2) Horizontal, Dashed 3) Shade inequality Ex. 3 Graph x < -1 1) Go to where x = -1

24 Ex. 2 Graph y > 3 1) Go to where y = 3 2) Horizontal, Dashed 3) Shade inequality Ex. 3 Graph x < -1 1) Go to where x = -1

25 Ex. 2 Graph y > 3 1) Go to where y = 3 2) Horizontal, Dashed 3) Shade inequality Ex. 3 Graph x < -1 1) Go to where x = -1 2) Vertical

26 Ex. 2 Graph y > 3 1) Go to where y = 3 2) Horizontal, Dashed 3) Shade inequality Ex. 3 Graph x < -1 1) Go to where x = -1 2) Vertical, Solid

27 Ex. 2 Graph y > 3 1) Go to where y = 3 2) Horizontal, Dashed 3) Shade inequality Ex. 3 Graph x < -1 1) Go to where x = -1 2) Vertical, Solid

28 Ex. 2 Graph y > 3 1) Go to where y = 3 2) Horizontal, Dashed 3) Shade inequality Ex. 3 Graph x < -1 1) Go to where x = -1 2) Vertical, Solid 3) Shade inequality

29 Ex. 2 Graph y > 3 1) Go to where y = 3 2) Horizontal, Dashed 3) Shade inequality Ex. 3 Graph x < -1 1) Go to where x = -1 2) Vertical, Solid 3) Shade inequality

30 Ex. 2 Graph y > 3 1) Go to where y = 3 2) Horizontal, Dashed 3) Shade inequality Ex. 3 Graph x < -1 1) Go to where x = -1 2) Vertical, Solid 3) Shade inequality

31 Ex. 4 Graph y – 2x < -4

32 y – 2x < -4

33 Ex. 4 Graph y – 2x < -4 y – 2x < -4 +2x +2x

34 Ex. 4 Graph y – 2x < -4 y – 2x < -4 +2x +2x y < 2x – 4

35 Ex. 4 Graph y – 2x < -4 y – 2x < -4 +2x +2x y < 2x – 4 GRAPH: y = 2x – 4

36 Ex. 4 Graph y – 2x < -4 y – 2x < -4 +2x +2x y < 2x – 4 GRAPH: y = 2x – 4 m = 2, b = -4

37 Ex. 4 Graph y – 2x < -4 y – 2x < -4 +2x +2x y < 2x – 4 GRAPH: y = 2x – 4 m = 2, b = -4

38 Ex. 4 Graph y – 2x < -4 y – 2x < -4 +2x +2x y < 2x – 4 GRAPH: y = 2x – 4 m = 2, b = -4

39 Ex. 4 Graph y – 2x < -4 y – 2x < -4 +2x +2x y < 2x – 4 GRAPH: y = 2x – 4 m = 2, b = -4

40 Ex. 4 Graph y – 2x < -4 y – 2x < -4 +2x +2x y < 2x – 4 GRAPH: y = 2x – 4 m = 2, b = -4

41 Ex. 4 Graph y – 2x < -4 y – 2x < -4 +2x +2x y < 2x – 4 GRAPH: y = 2x – 4 m = 2, b = -4 LINE: Solid b/c includes “equal to”

42 Ex. 4 Graph y – 2x < -4 y – 2x < -4 +2x +2x y < 2x – 4 GRAPH: y = 2x – 4 m = 2, b = -4 LINE: Solid b/c includes “equal to”

43 Ex. 4 Graph y – 2x < -4 y – 2x < -4 +2x +2x y < 2x – 4 GRAPH: y = 2x – 4 m = 2, b = -4 LINE: Solid b/c includes “equal to” SHADE: Since < shade below the line.

44 Ex. 4 Graph y – 2x < -4 y – 2x < -4 +2x +2x y < 2x – 4 GRAPH: y = 2x – 4 m = 2, b = -4 LINE: Solid b/c includes “equal to” SHADE: Since < shade below the line.

45 Ex. 5 Suppose a theatre can seat a maximum of 250 people. Write an inequality to represent the number of adult and childrens tickets that can be sold.

46 Ex. 5 Suppose a theatre can seat a maximum of 250 people. Write an inequality to represent the number of adult and childrens tickets that can be sold.Let x = # of adult tickets.

47 Let y = # of child tickets.

48 Ex. 5 Suppose a theatre can seat a maximum of 250 people. Write an inequality to represent the number of adult and childrens tickets that can be sold.Let x = # of adult tickets. Let y = # of child tickets.

49 Ex. 5 Suppose a theatre can seat a maximum of 250 people. Write an inequality to represent the number of adult and childrens tickets that can be sold.Let x = # of adult tickets. Let y = # of child tickets. Total number of people cannot exceed 250.

50 Ex. 5 Suppose a theatre can seat a maximum of 250 people. Write an inequality to represent the number of adult and childrens tickets that can be sold.Let x = # of adult tickets. Let y = # of child tickets. Total number of people cannot exceed 250. So,x + y

51 Ex. 5 Suppose a theatre can seat a maximum of 250 people. Write an inequality to represent the number of adult and childrens tickets that can be sold.Let x = # of adult tickets. Let y = # of child tickets. Total number of people cannot exceed 250. So,x + y < 250

52 Ex. 5 Suppose a theatre can seat a maximum of 250 people. Write an inequality to represent the number of adult and childrens tickets that can be sold.Let x = # of adult tickets. Let y = # of child tickets. Total number of people cannot exceed 250. So,x + y < 250 OR

53 Ex. 5 Suppose a theatre can seat a maximum of 250 people. Write an inequality to represent the number of adult and childrens tickets that can be sold.Let x = # of adult tickets. Let y = # of child tickets. Total number of people cannot exceed 250. So,x + y < 250

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