Ex. 3: Why a Line Has Only One Slope

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Ex. 3: Why a Line Has Only One Slope Use the properties of similar triangles to explain why any two points on a line can be used to calculate slope. Find the slope of the line using both pairs of points shown.

Ex. 3: Why a Line Has Only One Slope By the AA Similarity Postulate, ∆BEC ~ ∆AFD, so the ratios of corresponding sides are the same. In particular, CE BE By a property of proportions, = DF AF CE DF = BE AF

Ex. 3: Why a Line Has Only One Slope The slope of a line is the ratio of the change in y to the corresponding change in x. The ratios Represent the slopes of BC and AD, respectively. and CE BE DF AF

Ex. 3: Why a Line Has Only One Slope Because the two slopes are equal, any two points on a line can be used to calculate its slope. You can verify this with specific values from the diagram. 3-0 3 = Slope of BC 4-2 2 6-(-3) 9 3 = = Slope of AD 6-0 6 2

Ex. 4: Using Similar Triangles Aerial Photography. Low-level photos can be taken using a remote-controlled camera suspended from a blimp. You want to take an aerial photo that covers a ground of g of 50 meters. Use the proportion n f h f n = h g g To estimate the altitude h that the blimp should fly at to take the photo. In the proportion, use f = 8 cm and n = 3 cm. These two variables are determined by the type of camera used.

Ex. 4: Using Similar Triangles f n = Write proportion. h g n f 8cm 3cm = Substitute values. h 50 m 3h = 400 h ≈ 133 Cross product property. h Divide each side by 3. The blimp should fly at an altitude of about 133 meters to take a photo that covers a ground distance of 50 meters. g

Note: In Lesson 8.3, you learned that the perimeters of similar polygons are in the same ratio as the lengths of the corresponding sides. This concept can be generalized as follows: If two polygons are similar, then the ratio of any two corresponding lengths (such as altitudes, medians, angle bisector segments, and diagonals) is equal to the scale factor of the similar polygons.

Ex. 5: Using Scale Factors Find the length of the altitude QS. Solution: Find the scale factor of ∆NQP to ∆TQR. NP 12+12 24 3 = = = TR 8 + 8 16 2 Now, because the ratio of the lengths of the altitudes is equal to the scale factor, you can write the following equation: QM 3 = QS 2 Substitute 6 for QM and solve for QS to show that QS = 4