2. Chapter 9 9-1 Symmetry

3. Definition: Symmetry Two points P and P 1 are symmetric with respect to a line l when they are the same distance from l, measured along a perpendicular to l. Line l is known as a line or axis of symmetry. P 1 is said to be the image of P. A figure, or set of points, is symmetric with respect to a line when the image of each point in the set is also in the set.

5. Theorem 9-1 Two points are symmetric with respect to the x-axis if and only if their y-coordinates are additive inverses and they have the same x-coordinate Two points are symmetric with respect to the y-axis if and only if their x coordinates are additive inverses of each other and they have the same y value

6. Theorem 9-2: When a relation if defined by an equation A. its graph is symmetric to the y-axis if and only if replacing x by –x produces an equivalent equation B. its graph is symmetric with respect to the x-axis if and only if replacing y by –y produces an equivalent equation

7. Definition: Symmetry with respect to a point Two points P and P 1 are symmetric with respect to a point Q when they are the same distance from Q, and all three points are collinear. P 1 is said to be the image of P. A figure, or set of points, is symmetric with respect to a point when the image of each point in the set is also in the set.

8. Theorem 9-3 Two points are symmetric to the origin if and only if both their x- and y-coordinates are additive inverses of each other Theorem 9-4 A graph of a relation defined by an equation is symmetric with respect to the origin if and only if replacing x by –x and y by –y produces an equivalent equation

10. Definition A function is an even function when f(-x) = f(x) for all x in the domain of f. Definition A function is an odd function when f(-x) = -f(x) for all x in the domain of f.

11. Determine if the function is odd even or neither

12. HW #9.1 Pg 389-390 1-33 Odd 35-62

13. Chapter 9 9-2 Translations

15. Theorem 9-5 In an equation of a relation, replacing y by y – k, where k is a constant, translates the the graph vertically a distance of |k|. If k is positive, the translation is up. If k is negative, the translation is down. An alteration of a relation is called a transformation. Moving the graph of a relation without changing the shape or size is called a translation

17. Theorem 9-6 In an equation of a relation, replacing x by x – h, where h is a constant, translates the graph horizontally a distance of |h|. If h is positive, the translation is right. If h is negative, the translation is left.

18. Consider the graph of y = |x|, sketch the graphs of the following by translating

19. Given the graph of y = x 2 use transformations to sketch the graph of y = (x + 3) 2 - 5

20. The graph of a function is given, sketch the graph under the given translations (c) Q(x) = f(x – 3) + 2

21. HW #9.2 Pg 393 1-28, 29-39 Odd

22. Chapter 9 9-3 Stretching and Shrinking Goal 1 To sketch a graph showing vertical stretching or shrinking Goal 2 To sketch a graph showing horizontal stretching or shrinking

23. Multiplying the function causes the graph to stretch or shrink vertically

24. The negative causes a reflection over the x-axis

25. The negative causes a reflection over the x-axis

26. The negative causes a reflection over the x-axis

28. The graph of f(x) is given use the graph to find the graph of y = 2f(x) The graph of y = 2f(x) is obtained by multiplying each y-value by 2

31. To get the same y-values, the x-values must be smaller as in Y 2 larger as in Y 3

32. Opposite x-values have the same y-values

33. Opposite x-values have the same y-values

34. Opposite x-values have the same y-values

40. Find the function that is finally graphed after the series of transformations are applied to the graph of

41. c d c a

42. HW# 9.3 Pg 398-399 1-25 Odd, 26-53

43. 9.4

44. A quadratic function has the form y = ax 2 + bx + c where a  0.

45. The graph is “U-shaped” and is called a parabola.

46. The highest or lowest point on the parabola is called the vertex.

47. In general, the axis of symmetry for the parabola is the vertical line through the vertex.

48. Sketch the graph of the following find the vertex, line of symmetry and the maximum or minimum value: 30. y < x 2 31. y  x 2 32. y  -3(x + 3) 2

49. HW #9.4 Pg 402-403 1-25 Odd, 26-29

50. Chapter 9 9-5 Graphs of Quadratic Functions Goal 1 To analyze the graph of f(x) = a(x – h) 2 + k

51. Graphing a Quadratic Function Graph y = – (x + 3) 2 + 4 1 2 To graph the function, first plot the vertex (h, k) = (– 3, 4). ( – 3, 4) S OLUTION The function is in vertex form y = a (x – h) 2 + k. a = –, h = – 3, and k = 4 1 2 a < 0, the parabola opens down.

52. Graphing a Quadratic FunctionGraphing a Quadratic Function in Vertex Form Use symmetry to complete the graph. (– 3, 4) (1, – 4) (–1, 2) (– 7, – 4) (– 5, 2) Graph y = – (x + 3) 2 + 4 1 2 Draw the axis of symmetry x = – 3. Plot two points on one side of it, such as (–1, 2) and (1, – 4).

53. Sketch the graph of the following find the vertex, line of symmetry and the maximum or minimum value:

54. Without graphing, find the vertex, line of symmetry, and the minimum or maximum value. 1. F(x) = (x – 5) 2 + 40 2. F(x) = -3(x – 5) 2 3. F(x) = 2(x + 3) 2 - 6 4. F(x) = -4(x + 9) 2 + 3

55. Write the equation of the parabola that is a transformation of f(x) = 2x 2 and has a minimum or maximum value at the given point 1. Maximum (0, 5)2. Minimum (3, 0) 3. Minimum (3, -2)4. Maximum (-2, 5)

56. HW #9.5 Pg 406-407 1-21 Odd, 22-27

57. HW Quiz #9.5 1) Graph y = 4(x + 3) 2 - 5 2) Graph y = -5(x - 2) 2 + 4 3) Graph4) Graph y = (x + 2) 2 - 3

58. 9-6 Graphs of Quadratic Functions Goal 1 To analyze the graph of f(x) = ax 2 + bx + c

59. Graphing a Quadratic Function Ex

60. Graphing a Quadratic Function Vocab

61. Graphing a Quadratic Function Vocab

62. Graphing a Quadratic Function Vocab

63. Graphing a Quadratic Function Vocab

64. Definition A quadratic function is a function that can be described as

65. Definition A quadratic function is a function that can be described as

66. To find the x-coordinate of the vertex, substitute 1 for a and -4 for b in the formula: To find the y-coordinate of the vertex, substitute 2 for x in the original equation, and solve for y.

67. The vertex is (2, -1)

68. Graph the quadratic function.

70. Chapter 9 9-6 Graphs of Quadratic Functions Goal 1 To find the standard form of a quadratic equation Goal 2 To solve maximum and minimum problems

71. Definition Three Forms of a quadratic equation 1.Definition: f(x) = ax 2 + bx + c 2.Vertex Form: f(x) = a(x – h) 2 + k The book refers to this as Standard Form 3.Intercept Form: f(x) = a(x – p)(x – q) p and q are the x-intercepts of the graph

72. To Convert from the definition form to standard/vertex form, we complete the square.

73. Write the quadratic in standard/Vertex form and sketch the graph.

75. A rancher is fencing off a rectangular area with a fixed perimeter of 76 m. What dimensions would yield the maximum area? Find the maximum area. Beth has 3000 feet of fencing available to enclose a rectangular field. One side of the field lies along a river, so only three sides require fencing. Find the dimensions of the pen that will yield the maximum area. What is the maximum area?

77. A publisher thinks that she can sell 1000 copies of a book on sailing priced at $20 per copy. For each dollar she lowers the price she thinks she can sell an additional 500 copies. According to her thinking, at what price will her total revenue from sales be a maximum, how many copies should she expect to sell at this price, and what would be the expected revenue? Maximizing Revenue

78. Joe Blow owns a commuter airline transport business. He transports about 800 passengers a day between Chicago and Fort Wayne. A round-trip ticket is $300. Joe has figured out that for every $5.00 increase in the ticket price, 10 passengers would be lost to the competition. What ticket price should Joe charge to maximize his income and what would his maximum income be?

79. Maximizing Profit A 300 room hotel in Las Vegas is filled to capacity every night at $80 a room. For each $1 increase in rent, 3 fewer rooms are rented. If each room rented costs $10 to service per day, how much should the management charge for each room to maximize gross profit? What is the gross profit?

80. HW #9.6 Pg 410-411 1-13 Odd, 24-43

81. Chapter 9 9-7 Graphs and x-intercepts Goal 1 To find the x-intercepts of the graph of a quadratic function

82. VERTEX AND INTERCEPT FORMS OF A QUADRATIC FUNCTION FORM OF QUADRATIC FUNCTIONCHARACTERISTICS OF GRAPH Vertex form: Intercept form: y = a (x – h) 2 + k y = a (x – p )(x – q ) For both forms, the graph opens up if a > 0 and opens down if a < 0. The vertex is (h, k ). The axis of symmetry is x = h. The x -intercepts are p and q. The axis of symmetry is half- way between ( p, 0 ) and (q, 0 ).

83. THE GRAPH OF A QUADRATIC FUNCTION C ONCEPT S UMMARY The axis of symmetry is the vertical line x = –. b 2a2a The graph of y = a x 2 + b x + c is a parabola with these characteristics: The parabola opens up if a > 0 and opens down if a < 0. The parabola is wider than the graph of y = x 2 if a 1. The x-coordinate of the vertex is –. b 2a2a

84. Graph y = 2 x 2 – 8 x + 6 S OLUTION Note that the coefficients for this function are a = 2, b = – 8, and c = 6. Since a > 0, the parabola opens up. Graphing a Quadratic Function

85. Graph y = 2 x 2 – 8 x + 6 x = – = – = 2 b 2 a2 a – 8 2(2) y = 2(2) 2 – 8 (2) + 6 = – 2 So, the vertex is (2, – 2). (2, – 2) The x -coordinate is: The y -coordinate is: Find and plot the vertex.

86. (2, – 2) Graphing a Quadratic Function Graph y = 2 x 2 – 8 x + 6 Draw a parabola through the plotted points. (0, 6) (1, 0) (4, 6) (3, 0) Draw the axis of symmetry x = 2. Plot two points on one side of the axis of symmetry, such as (1, 0) and (0, 6). Use symmetry to plot two more points, such as (3, 0) and (4, 6).

87. Graphing a Quadratic Function in Intercept Form Graph y = – ( x +2)(x – 4) The quadratic function is in intercept form y = a (x – p)(x – q), where a = –1, p = – 2, and q = 4. S OLUTION

88. Graphing a Quadratic Function in Intercept Form Graph y = – ( x +2)(x – 4) The axis of symmetry lies half-way between these points, at x = 1. (– 2, 0) (4, 0) The x-intercepts occur at (– 2, 0) and (4, 0). (– 2, 0) (4, 0)

89. Graphing a Quadratic Function in Intercept Form Graph y = – ( x +2)(x – 4) So, the x -coordinate of the vertex is x = 1 and the y -coordinate of the vertex is: y = – (1 + 2) (1 – 4) = 9 (– 2, 0) (4, 0) (1, 9)

90. Graph the quadratic function. Label the vertex, axis of symmetry, y-intercepts and y-intercepts.

92. b 2 – 4ac > 0 b 2 – 4ac = 0 b 2 – 4ac < 0

93. HW #9.7 Pg 413 1-28

94. Chapter 9 9-8 Mathematical Modeling: Using Quadratic Functions Goal 1 To find a quadratic function given a graph or three data points Goal 2 To solve problems using quadratic functions

95. Find the quadratic function that fits the curve that contains the following three data points. (-2, 5), (-1, 5), and (0, 1) Find the quadratic function that fits the curve that contains the following three data points. (1, 6), (-2, 3), and (4, 18) Find the quadratic function that fits the curve that contains the following three data points. (1, 4), (-1, 6), and (-2, 16)

96. Find the equation of the graph shown

100. A rocket is fired upward. At the end of the burn it has an upward velocity of 245 m/s and is 14.1 meters high. Find the maximum height it attains and at what time will it hit the ground? It will be 3077 m high when t = 25 seconds It will hit the ground after 50.1 seconds

101. HW #9.8 Pg 418-419 1-27

102. Test Review Transformations as applied to x 2 or |x| or f(x) Symmetry over y-axis/x-axis/origin Odd/Even Functions Find the equation of a parabola Graph Parabolas and Absolute Value Max/Min

103. A long rectangular sheet of metal, 12 inches wide, is to be made into a rain gutter by turning up two sides so that they are perpendicular to the sheet. How many inches should be turned up to give the gutter its greatest capacity?

104. A person standing on the top of a building projects an object directly upward with a velocity of 144ft/sec. Its height s(t) in feet above the ground after t seconds is given by s(t) = -16t 2 + 144t + 100. a)What is its maximum height? b)What is the height of the building? c)What is the initial velocity?

105. A rocket is shot straight up into the air with an initial velocity of V o ft/sec, and its height s(t) in feet above the ground after t seconds is given by s(t) = -16t 2 + V o t. (a)The rocket hits the ground after 12 seconds. What is its initial velocity V o ? (b)What is the maximum height attained by the rocket?

106. A cable television firm presently serves 5000 households and charges $20 per month. A marketing survey indicates that each decrease of $1 in the monthly charge will result in 500 new customers. Let R(x) denote the total monthly revenue when the monthly charge is x dollars. (a)Determine the revenue function R. (b)Sketch the graph of R (c)Find the value of x that results in maximum monthly revenue.

107. One thousand feet of chain-link fence is to be used to construct six cages for a zoo exhibit. The design is shown in the figure. (a)Express the width y as a function of the length x. (b)Express the total enclosed area A of the exhibit as a function of x. (c)Find the dimensions that maximize the enclosed area.

108. 1.If a continuous function is even and the points (-2, 4), (1, 2) and (-5, 10) are on the graph, name three more points that are on the graph. (2, 4), (-1, 2), (5, 10) 2.If a continuous function is odd and the points (-2, 4), (1, 2) and (-5, 10) are on the graph, name three more points that are on the graph. (2, -4), (-1, -2), (5, -10)

109. 1.If f(x) contains the point (-2, 4) and g(x) is a transformation of f(x) such that g(x) = 3f(x-2) + 4. What point on g(x) corresponds to the point of (-2, 4) on f(x)? (0, 16) 2.If g(x) contains the point (-2, 16) and g(x) is a transformation of f(x) such that g(x) = 3f(x-2) + 4. What point on f(x) corresponds to the point of (-2, 16) on g(x)? (-4, 4)

110. A rectangle is drawn such that one of its vertices is on the origin and the other is on the graph of y = -x 2 + 4. Find the dimensions for x and y that maximize the area of the rectangle.

111. HW #R-9 Pg 424-426 1-38