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Geometry Glide Reflections and Compositions. Goals Identify glide reflections in the plane. Represent transformations as compositions of simpler transformations.

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Presentation on theme: "Geometry Glide Reflections and Compositions. Goals Identify glide reflections in the plane. Represent transformations as compositions of simpler transformations."— Presentation transcript:

1 Geometry Glide Reflections and Compositions

2 Goals Identify glide reflections in the plane. Represent transformations as compositions of simpler transformations.

3 Glide Reflection A glide reflection is a transformation where a translation (the glide) is followed by a reflection. Line of Reflection

4 Glide Reflection 1.A translation maps P onto P’. 2.A reflection in a line k parallel to the direction of the translation maps P’ to P’’. Line of Reflection 3 12

5 Example Find the image of  ABC after a glide reflection. A(-4, 2), B(-2, 5), C(1, 3) Translation: (x, y)  (x + 7, y) Reflection: in the x-axis

6 Find the image of  ABC after a glide reflection. A(-4, 2), B(-2, 5), C(1, 3) Translation: (x, y)  (x + 7, y) Reflection: in the x-axis (-4, 2) (-2, 5) (1, 3)

7 Find the image of  ABC after a glide reflection. A(-4, 2), B(-2, 5), C(1, 3) Translation: (x, y)  (x + 7, y) Reflection: in the x-axis (-4, 2) (-2, 5) (1, 3) (5, 5) (3, 2) (8, 3)

8 Find the image of  ABC after a glide reflection. A(-4, 2), B(-2, 5), C(1, 3) Translation: (x, y)  (x + 7, y) Reflection: in the x-axis (-4, 2) (-2, 5) (1, 3) (5, 5) (3, 2) (8, 3) (5, -5) (3, -2) (8, -3)

9 Find the image of  ABC after a glide reflection. A(-4, 2), B(-2, 5), C(1, 3) Translation: (x, y)  (x + 7, y) Reflection: in the x-axis (-4, 2) (-2, 5) (1, 3) (5, 5) (3, 2) (8, 3) (5, -5) (3, -2) (8, -3) Glide Reflection

10 You do it. Locate these four points: M(-6, -6) N(-5, -2) O(-2, -1) P(-3, -5) Draw MNOP M N O P

11 You do it. Translate by  0, 7 . M N O P M N O P

12 You do it. Translate by  0, 7 . M N O P M’ N’ O’ P’

13 You do it. Reflect over y-axis. M N O P M’ N’ O’ P’ M’’ N’’ O’’ P’’

14 Compositions A composition is a transformation that consists of two or more transformations performed one after the other.

15 Composition Example A B 1.Reflect AB in the y-axis. 2.Reflect A’B’ in the x-axis. A’ B’ A’’ B’’

16 Try it in a different order. A B 1.Reflect AB in the x-axis. 2.Reflect A’B’ in the y-axis. A’ B’ A’’ B’’

17 The order doesn’t matter. A B A’ B’ A’’ B’’ A’ B’ This composition is commutative.

18 Commutative Property a + b = b + a 25 + 5 = 5 + 25 ab = ba 4  25 = 25  4 Reflect in y, reflect in x is equivalent to reflect in x, reflect in y.

19 Are all compositions commutative? Rotate RS 90  CW. Reflect R’S’ in x-axis. R S R’ S’ R’’ S’’

20 Reverse the order. Reflect RS in the x-axis. Rotate R’S’ 90  CW. R S R’ S’ R’’ S’’ All compositions are NOT commutative. Order matters!

21 Compositions & Isometries If each transformation in a composition is an isometry, then the composition is an isometry. A Glide Reflection is an isometry.

22 Example Reflect MN in the line y = 1. Translate using vector  3, -2 . Now reverse the order: Translate MN using  3, -2 . Reflect in the line y = 1. M N Both compositions are isometries, but the composition is not commutative.

23 Summary A Glide-Reflection is a composition of a translation followed by a reflection. Some compositions are commutative, but not all.

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