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Using Glide Reflections

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Presentation on theme: "Using Glide Reflections"— Presentation transcript:

1 Using Glide Reflections
A translation, or glide, and a reflection can be performed one after the other to produce a transformation known as a glide reflection. A glide reflection is a transformation in which every point P is mapped onto a point P  by the following steps: A translation maps P onto P . A reflection in a line k parallel to the direction of the translation maps P  onto P . As long as the line of reflection is parallel to the direction of the translation, it does not matter whether you glide first and then reflect, or reflect first and then glide.

2 Finding the Image of a Glide Reflection
Use the information below to sketch the image of ABC after a glide reflection. A(–1, –3), B(– 4, –1), C(– 6, – 4) Translation: ( x, y) (x + 10, y) Reflection: in the x-axis SOLUTION Begin by graphing ABC. Then, shift the triangle 10 units to the right to produce ABC . Finally, reflect the triangle in the x-axis to produce ABC .

3 Theorem Composition Theorem
Using Compositions When two or more transformations are combined to produce a single transformation, the result is called a composition of the transformations. THEOREM Theorem Composition Theorem The composition of two (or more) isometries is an isometry. Because a glide reflection is a composition of a translation and a reflection, this theorem implies that glide reflections are isometries. In a glide reflection, the order in which the transformations are performed does not affect the final image. For other compositions of transformations, the order may affect the final image.

4 Finding the Image of a Composition
Sketch the image of PQ after a composition of the given rotation and reflection. P (2, –2), Q (3, – 4) Rotation: 90º counterclockwise about the origin Reflection: in the y -axis SOLUTION Begin by graphing PQ. Then, rotate the segment 90º counterclockwise about the origin to produce P Q. Finally, reflect the segment in the y -axis to produce P Q .

5 Comparing Orders of Compositions
Repeat the previous example, but switch the order of the composition by performing the reflection first and the rotation second. What do you notice? SOLUTION Graph PQ. Then, reflect the segment in the y -axis to obtain P Q . Rotate P Q  90º counterclockwise about the origin to obtain P Q. Instead of being in Quadrant II, as in the previous example, the image is in Quadrant IV. The order in which the transformations are performed affects the final image.

6 Describing a Composition
Describe the composition of transformations in the diagram. SOLUTION Two transformations are shown. First, figure ABCD is reflected in the line x = 2 to produce figure ABCD. Then, figure ABC D is rotated 90º clockwise about the point (2, 0) to produce figure ABC D.

7 Describing a Composition
Puzzles The mathematical game pentominoes is a tiling game that uses twelve different types of tiles, each composed of five squares. The tiles are referred to by the letters they resemble. The object of the game is to pick up and arrange the tiles to create a given shape. Use compositions of transformations to describe how the tiles below will complete the 6  5 rectangle.

8 Describing a Composition
SOLUTION To complete part of the rectangle, rotate the F tile 90º clockwise, reflect the tile over a horizontal line, and translate it into place. To complete the rest of the rectangle, rotate the P tile 90º clockwise, reflect the tile over a vertical line, and translate it into place.

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