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Section 16.2: Proving Figures are Similar Using Transformations

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1 Section 16.2: Proving Figures are Similar Using Transformations

2 Objective: By following instructions, students will be able to: Explain how similarity transformations can be used to show two figures are similar.

3 A similarity transformation is a transformation in which an image has the same shape as its pre-image. Similarity transformations can include: 1. Reflections 2. Rotations 3. Translations 4. Dilations

4 Reflection (Flip)

5 Translation (Slide) 5

6 Rotation (Turn) 6

7 Dilation 7

8 You can represent dilations using the coordinate notation (x,y)(kx, ky) where k is a scale factor and the center of dilation is the origin. If 0<k<1, the dilation is a reduction. If k>1, the dilation is an enlargement.

9 explain 1A Determine whether the two figures are similar using similarity transformations. Explain.

10 explain 1B Determine whether the two figures are similar using similarity transformations. Explain.

11 Your-Turn #1 Determine whether the two figures are similar using similarity transformations. Explain. LMNO and GHJK

12 explain 2A Find a sequence of similarity transformations that maps the first figure to the second figure. Write the coordinate notation for each transformation. ABDC to EFHG

13 explain 2B Find a sequence of similarity transformations that maps the first figure to the second figure. Write the coordinate notation for each transformation. triangle JKL to triangle PQR

14 Your-Turn #2 Find a sequence of similarity transformations that maps the first figure to the second figure. Write the coordinate notation for each transformation.

15 Revisit Objective: Did we… Explain how similarity transformations can be used to show two figures are similar?

16 HW: Sec 16.2 page 644 #s 1-10, 18-20

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