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Chapter 7 Similarity and Proportion Express a ratio in simplest form. State and apply the properties of similar polygons. Use the theorems about similar.

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Presentation on theme: "Chapter 7 Similarity and Proportion Express a ratio in simplest form. State and apply the properties of similar polygons. Use the theorems about similar."— Presentation transcript:

1 Chapter 7 Similarity and Proportion Express a ratio in simplest form. State and apply the properties of similar polygons. Use the theorems about similar triangles.

2 Warm –up In complete sentences, explain what a ratio is. Create a real-life example of a ratio being used. In complete sentences, explain what a proportion is.

3 7.1 Ratio and Proportion Objectives Express a ratio in simplest form Solve for an unknown in a proportion

4 Ratio A ratio of one number to another is the quotient when the first number is divided by the second. A comparison between numbers There are 3 different ways to express a ratio 1212 3535 abab 1 : 2 3 : 5a : b 1 to 23 to 5a to b

5 Ratio Always reduce ratios to the simplest form The ratio of 8 to 12 is = 8_ 12 2_ 3 O I Z D 14 6b Find the ratio of OI TO ZD - Put the answer in your notes. - make sure to reduce Angle ratio on whiteboard 60 110 70 Find the ratio of L D to L O

6 Additional Elements of Ratios What is the ratio of 100cm to 10m ? 100 10 10 1 =? WHY?? –To find the ratio of two lengths, they must always be measured in the terms of the same unit.

7 100cm 1m 10m 10m = or 100cm 10m 1000cm = **Both ways give you the same ratio which is 1 to 10. Unit Conversions

8 Comparing 3 or more numbers We use the following form to represent three or more numbers that are in ratio to each other… Reads as.. “ 3 to 5 to 7" 3 : 5 : 7

9 Comparing 3 or more numbers The measures of three angles of a triangle are in the ratio 2:2:5. Find the measure of each angle. Partners: Set up the problem… –X represents a “part” of each angle –2x + 2x + 5x = 180 SO WHAT’S EACH MEASURE?

10 Proportion An equation stating to ratios are equal. 5 : 8 = a : b In both instances you read the proportion as….. “5 is to 8 as a is to b.” WHAT WOULD BE AN EXAMPLE OF A TRUE PROPORTION?

11 White Board Practice ABCD is a parallelogram. Find the value of each ratio. A D C B 10 6

12 White Board Practice AB : BC –5 : 3 BC : AD –1 : 1 m  A : m  C –1 : 1 AB : perimeter of ABCD –5 : 16 A D C B 10 6

13 White Board Practice Express the ratio in simplest form IS : DI : IT D IST 10412

14 White Board Practice Express the ratio in simplest form IS : DI : IT 4 : 10 : 16  ----------To reduce, find GCF 2 : 5 : 8 D IST 10412

15 Whiteboard Practice The ratio of the measures of two complementary angles is 4:5. Find the measure of each angle. 4x + 5x = 90 9x = 90 X = 10 40, 50

16 7.2 Properties of Proportions Objectives Express a given proportion in an equivalent form.

17 Warm - up 1.Come up with an example of a true proportion 2.How do you solve for a proportion that has a missing variable?

18 Means and Extremes The extremes of a proportion are the first and last terms The means of a proportion are the middle terms = a b c d a : b = c : d

19 Means-Extremes property of proportions The product of the extremes equals the product of the means. = a b c d ad = cb

20 Properties of Proportion [AKA – Different ways to say the same thing] is equivalent to a. d. c.b. Bottom Line: When I cross multiply any of these, I will always end up back at ad=bc.

21 Rewrite the following in 4 different ways… As any of these 1. 4. 3.2. 2(x + y) = y (5+2) 2x + 2y = 7y 2x = 5y

22 Another Property call it the “addition property” Show whiteboard example

23 Solving a Proportion First, cross-multiply Next, divide by 5

24 White Board Practice If, then 2x = _______

25 White Board Practice If, then 2x = 28

26 White Board Practice If 2x = 3y, then

27 White Board Practice If 2x = 3y, then

28 White Board Practice If, then

29 White Board Practice If, then

30 White Board Practice If, then

31 White Board Practice If, then

32 White Board Practice X9X9 2323 = 2_ x-6 8__ x+3 = X = 6 X = 9 Solve for x Brightstorm link

33 Whiteboard practice Page 246 –#2 –#11

34 WARM UP In order for 2 polys to be congruent, 2 rules must be satisfied… 1.All _______________________________ 2.All________________________________ In a complete sentence, what do you think the difference is between 2 polys that are congruent and 2 polys that are similar?

35 7.3 Similar Polygons Objectives State and apply the properties of similar polygons.

36 Similarity Coaching Football –When I need to show my players the diagram of a play, I am not going to use a piece of paper that is 50 yards wide and 100 yards long… –So what do I do??? –Draw the same shape of the field but with a length and width that is drawn to a smaller scale.

37 Similar Polygons Same shape Not the same size  Why?

38 Similar Polygons (~) 1.All corresponding angles congruent  A   A’  B   B’  C   C’ A B C A’ B’ C’ A’ Read as “A prime”, “B prime, and so on.. ORDER MATTERS!! Just like congruent polys you must make sure to name the vertices in the correct order.

39 Similar Polygons (~) 2. All corresponding sides are in proportion AB = BC = CA A’B’ B’C’ C’A’ A BC A’ B’ C’ All sides have equivalent ratios Partners: Come up with side lengths and angle measures for the two triangles that would make them similar.

40 The Scale Factor If two polygons are similar, then they have a scale factor The reduced ratio between any pair of corresponding sides or the perimeters. 12:3  scale factor of 4:1 12 3

41 Using the Scale factor to find Missing Pieces You have to know the scale factor first to find missing pieces. 12 3 y 10 Solve for y by cross-multiplication What could I do to make the math easier before I try cross-multiplying?

42 White Board Practice Quadrilateral ABCD ~ Quadrilateral A’B’C’D’. Find their scale factor 5:3 A D C B A’ D’ C’ B’ 50 y 30 20 12 x z 30 The first # in the scale factor will come from ABCD

43 White Board Practice Quadrilateral ABCD ~ Quadrilateral A’B’C’D’. Find the values of x, y, and z A D C B A’ D’ C’ B’ 50 y 30 20 12 x z 30 x = 18 y = 20 z = 12

44 White Board Practice Quadrilateral ABCD ~ Quadrilateral A’B’C’D’. Find the ratio of the perimeters 5:3 A D C B A’ D’ C’ B’ 50 y 30 20 12 x z 30

45 Additional Problems Example Page 250 –Classroom ex. –#1 –#10

46 Quiz Review Section 7.1 Putting ratios into simplest form Find the measure of each angle based on a ratio –i.e. Pg. 244 #24 – 29 Section 7.2 Properties of proportions ( purple box pg. 245) –i.e. how can the proportion be changed around and still be equal to the original (i.e. pg. 247 # 1-8) Find the value of X ( Cross multiply and solve) –i.e. Pg. 247 #9 – 20 Section 7.3 Understand the definition of similar polygons (~) Finding the scale factor of similar polys –Compare the lengths of corresponding sides (reduce) Use the scale factor to find unknown lengths –i.e. Pg. 251 #15 - 26

47 Warm – Up Using the book or notes… Write down the definitions for the following –Ratio –Proportion –Scale factor –Similar Polygons

48 7.4 A Postulate for Similar Triangles Objectives Learn to prove triangles are similar.

49 What we have learned… Two polygons are similar by showing that they satisfy the definition of similar polygons (~) –3 pair of corresponding angles are congruent –3 pair of corresponding sides are in proportion Why does this whole 3 pair thing sound so familiar?

50 Index Card Experiment Supplies: Index card, Scissors, Ruler 1.Cut out a triangle using a 3x5 index card 2.Label the vertices A, B, C 3.Take side BC of your triangle

51 Index Card Experiment 4.Draw a line that is twice the length of BC and label the endpoints B’ and C’ 5.At B’ line up angle B of your triangle and trace it on the paper. Then do the same thing for C’.

52 ▲ABC ~ ▲A’B’C’ Why? –Corresponding angles are congruent –The sides are in proportion with a scale factor of 1:2 How was ▲A’B’C’ created? –By using 2 of the corresponding angles from ▲ABC

53 AA Similarity Postulate (AA~ Post) If two angles of one triangle are congruent to two angles of another triangle, then the triangles are similar. A B C D E F

54 Applying AA Similarity in Proofs The key to using this postulate is to first prove two corresponding angles of two triangles congruent and then using it

55 Remote Time T – Similar Triangles F – Not Similar

56 T – Similar Triangles F – Not Similar

57

58

59 Whiteboards Page 256 –#11 –#13

60 brightstorm Example

61 7-5: Theorems for Similar Triangles Objectives Learn about 2 additional ways to prove triangles are similar.

62 WARM-UP What we have learned… SAS Congruency – Write down in your own words what this means. SSS Congruency – Write down in your own words what this means.

63 SAS Postulate If two sides and the included angle are congruent to the corresponding parts of another triangle, then the triangles are congruent. B E CD F

64 SAS Similarity Theorem (SAS~) If an angle of a triangle is congruent to an angle of another triangle and the sides including those angles are proportional, then the triangles are similar. A B C D E F 4 2 2 1 Partners: Based on what you now know about similarity compared to congruency, come up with the wording for this theorem.

65 C E 3 A B 6 D 10 5 Scale Factor = 2/3 ▲CDE ~ ▲CAB by SAS ~ Included angle - What is the scale factor of the ~ triangles - Name the triangles - Name the postulate or theorem

66 SSS Postulate If three sides of one triangle are congruent to the corresponding parts of another triangle, then the triangles are congruent. A B E CD F

67 SSS Similarity Theorem (SSS~) If the three sides of one triangle are proportional to the three sides of another triangle, then the triangles are similar. A B C D E F A B C D E F 4 2 2 1 3 6 Partners: Based on what you now know about similarity compared to congruency, come up with the wording this theorem.

68 Example The measures of the sides of ▲ABC are 4, 5, 7 The measures of the sides of ▲XYZ are 16, 20, 28 Are the two triangles similar? Why? ▲ABC ~ ▲XYZ by SSS ~

69 4 Ways to Prove Triangles Similar 1.Definition of similarity 2.AA ~ 3.SAS ~ 4.SSS ~ **PROOFS: Once we have proven that 2 triangles are similar. We can then say what about … 1.The corresponding angles? 2.The corresponding sides?

70 White Board Practice Name the similar triangles and give the postulate or theorem that justifies your answer…

71 80◦ B C E A D ▲ADE ~ ▲ABC by AA ~

72 A C B E D F 4.5 3 9 6 9 18 ▲ABC ~ ▲DEF by SSS ~

73 T S Z D R25 15 20 12 ▲TRS ~ ▲ZRD by SAS ~

74 You want to prove ▲RST ~ ▲ XYZ by SSS ~ –State the ratios that you know have to be equal to one another You want to prove ▲RST ~ ▲ XYZ by SAS ~ –If you know L R congruent L X, what else do you need to prove?

75 7-6: Proportional Lengths Objectives Apply the Triangle Proportionality Theorem and its corollary State and apply the Triangle Angle-bisector Theorem

76 Billy and Bob  Billy and Bob want a foot-long sub from Subway that costs $4  Billy has $1 and Bob has $3  They combine their money and buy the sub  How much of the sub should each person get based on the amount of money they paid?

77 12in $1 $2 $3 $4 Billy Bob Divided Proportionally

78 If points are placed on segments AB and CD so that, then we say that these segments are divided proportionally. A X B C Y D

79 Example A X B C Y D 2 4 2 1 AX CY XB YD = 2 1 4 2 = AX XB CY YD = 2 4 1 2 = AX CY AB CD = 2 1 6 3 = *Partners: determine another correct proportion as well as one that wouldn’t work*

80 Theorem If a line parallel to one side of a triangle intersects the other two sides, it divides them proportionally. X Y Z A B Just think of these 2 sides as lines that have been divided proportionally

81 What can we conclude based on the diagram? X Y Z A B ▲AYB ~ ▲XYZ by AA ~ AY BY XY ZY = The sides are divided into proportional segments by TH. 7-3 1 2 4 2 *Find 2 proportions that can be justified by TH. 7-3

82 White Board Practice Are the following proportions possible? Answer True or False. j y x b c d

83 True or False j y x b c d b d y c = c d j x = y j b x = c b y x = T T T F

84 Corollary If three parallel lines intersect two transversals, then they divide the transversals proportionally. R S T W X Y RS WX ST XY = What theorem does this diagram remind you of?

85 Solve for Y 14 y 15 10

86 Theorem If a ray bisects an angle of a triangle, then it divides the opposite side into segments proportional to the other two sides. X Y Z W WX XY WZ ZY = Y has been bisected into congruent angles

87 White Board Practice Find X 24 12 10 X X = 20

88 White Board Practice Find X 20 10 5 X X = 15

89 Ch. 7 Test Review Section 7.1 Putting ratios into simplest form Find the measure of each angle based on a ratio –i.e. Pg. 244 #24 – 29 Section 7.2 Properties of proportions ( purple box pg. 245) –i.e. how can the proportion be changed around and still be equal to the original (i.e. pg. 247 # 1-8) Find the value of X ( Cross multiply and solve) –i.e. Pg. 247 #9 - 20

90 Ch. 7 Test Review Section 7.3 Understand the definition of similar polygons (~) Finding the scale factor of similar polys –Compare the lengths of corresponding sides (reduce) Use the scale factor to find unknown lengths –i.e. Pg. 251 #15 - 26 Section 7.4 and 7.5 **pg. 258 #16** Proving 2 triangles similar –AA ~, SAS ~, SSS ~ –i.e. pg. 266 # 1 – 6 –**REMEMBER ORDER MATTERS WHEN NAMING THE SIMILAR TRIANGLES!!!

91 Ch. 7 Test Review Section 7.6 Understand the 2 theorems and the corollary –i.e. P. 272 # 3- 9 and 20 – 23 PROOFS Study the following – Understand why a certain statement was given and its reason for it. i.e. p 255 proof example P. 266 # 11 - 16


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