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8.2 Problem Solving in Geometry with Proportions

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Presentation on theme: "8.2 Problem Solving in Geometry with Proportions"— Presentation transcript:

1 8.2 Problem Solving in Geometry with Proportions
Mrs. Spitz Spring 2005

2 Objectives/Assignment
Use properties of proportions Use proportions to solve real-life problems such as using the scale of a map. Pp all Reminder: Quiz after 8.3. Ch. 8 Definitions due Ch. 8 Postulates/Theorems due Slide #2

3 Using the properties of proportions
In Lesson 8.1, you studied the reciprocal property and the cross product property. Two more properties of proportions, which are especially useful in geometry, are given on the next slides. You can use the cross product property and the reciprocal property to help prove these properties. Slide #3

4 Additional Properties of Proportions
IF a b a c , then = = c d b d IF a c a + b c + d , then = = b d b d Slide #4

5 Ex. 1: Using Properties of Proportions
IF p 3 p r , then = = r 5 6 10 p r Given = 6 10 p 6 a c a b = = = , then b d c d r 10 Slide #5

6 Ex. 1: Using Properties of Proportions
IF p 3 = Simplify r 5  The statement is true. Slide #6

7 Ex. 1: Using Properties of Proportions
a c Given = 3 4 a + 3 c + 4 a c a + b c + d = = = , then 3 4 b d b d Because these conclusions are not equivalent, the statement is false. a + 3 c + 4 3 4 Slide #7

8 Ex. 2: Using Properties of Proportions
In the diagram AB AC = BD CE Find the length of BD. Do you get the fact that AB ≈ AC? Slide #8

9 Cross Product Property Divide each side by 20.
Solution AB = AC BD CE 16 = 30 – 10 x 16 = 20 x 20x = 160 x = 8 Given Substitute Simplify Cross Product Property Divide each side by 20. So, the length of BD is 8. Slide #9

10 a x x b Geometric Mean =
The geometric mean of two positive numbers a and b is the positive number x such that a x If you solve this proportion for x, you find that x = √a ∙ b which is a positive number. = x b Slide #10

11 Geometric Mean Example
For example, the geometric mean of 8 and 18 is 12, because 8 12 = 12 18 and also because x = √8 ∙ 18 = x = √144 = 12 Slide #11

12 Ex. 3: Using a geometric mean
PAPER SIZES. International standard paper sizes are commonly used all over the world. The various sizes all have the same width-to-length ratios. Two sizes of paper are shown, called A4 and A3. The distance labeled x is the geometric mean of 210 mm and 420 mm. Find the value of x. Slide #12

13 Write proportion 210 x = x 420 X2 = 210 ∙ 420 X = √210 ∙ 420
Solution: The geometric mean of 210 and 420 is 210√2, or about 297mm. 210 x Write proportion = x 420 X2 = 210 ∙ 420 X = √210 ∙ 420 X = √210 ∙ 210 ∙ 2 X = 210√2 Cross product property Simplify Factor Simplify Slide #13

14 Using proportions in real life
In general when solving word problems that involve proportions, there is more than one correct way to set up the proportion. Slide #14

15 Ex. 4: Solving a proportion
MODEL BUILDING. A scale model of the Titanic is inches long and inches wide. The Titanic itself was feet long. How wide was it? Width of Titanic Length of Titanic = Width of model Length of model LABELS: Width of Titanic = x Width of model ship = in Length of Titanic = feet Length of model ship = in. Slide #15

16 Reasoning: = = = Write the proportion. Substitute.
Multiply each side by Use a calculator. Width of Titanic Length of Titanic = Width of model Length of model x feet feet = 11.25 in. 107.5 in. 11.25(882.75) x = 107.5 in. x ≈ 92.4 feet So, the Titanic was about 92.4 feet wide. Slide #16

17 Note: Notice that the proportion in Example 4 contains measurements that are not in the same units. When writing a proportion in unlike units, the numerators should have the same units and the denominators should have the same units. The inches (units) cross out when you cross multiply. Slide #17


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