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Similarity and Dilation: Mapping Figures

Learn about similarity and dilation in geometry. Understand how to describe the sequence of transformations that map one figure onto another. Practice with examples and complete a worksheet.

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Similarity and Dilation: Mapping Figures

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  1. Clear everything off your desk except your notebook and pen/pencil.

  2. Similarity Module 3 Lesson 5

  3. Similarity Informal definition: same shape, not necessarily the same size Notation: ~ B B’ A A’ C’ C

  4. Similarity Two figures are said to be similar if one can be mapped onto the other using a dilation followed by a congruent transformation (rigid transformations) … or a congruent transformation followed by a dilation.

  5. Knowing that the green triangle and the purple triangle are congruent, discuss with a partner how to describe the sequence that would map (purple), onto (gray).

  6. Example 2 In the diagram below, △ABC~△A'B'C'. Describe the sequence of the dilation followed by a congruence that would prove these figures to be similar.

  7. Example 2One Possible Solution The sequence that would map △ABC onto △A'B'C' to prove the figures similar is: A dilation from the origin by scale factor , followed by the translation of 4 units down, followed by the reflection across the y-axis.

  8. Corresponding Sides We can’t use just any two sides to calculate scale factor, we need to look at corresponding sides. Corresponding sides: sides that are in the same relative position L A 16 m 10 m R 7 m 20 m 14 m B T 8 m G

  9. Scale Factor The ratio of corresponding side lengths of a figure and its image after dilation. Scale factor = ? L A 16 m 10 m R 7 m 20 m 14 m B T 8 m G

  10. Example 3 Are the two triangles similar? 4 cm 7.5 cm 5 cm 6 cm 2 cm 3 cm

  11. Example 4 Are the two polygons similar? 8 cm 3 cm 15 cm 6 cm

  12. Example 5 Would a dilation map Figure A onto Figure A'? That is, is Figure A ~ Figure A'?

  13. Example 5 Solution No. Even though two sets of sides are in proportion, there exists no single rigid motion or sequence of rigid motions that would map a four-sided figure to a three-sided figure.

  14. Complete your worksheet

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