1. Lesson 9-3 Rotations or Turns

2. 5-Minute Check on Lesson 9-2 Transparency 9-3 Click the mouse button or press the Space Bar to display the answers. Find the coordinates of each figure under the given translation. 1.RS with endpoints R(1,-3) and S(-3,2) under the translation right 2 units and down 1 unit. 2.Quadrilateral GHIJ with G(2,2), H(1,-1), I(-2,-2), and J(-2,5) under the translation left 2 units and down 3 units. 3.∆ABC with vertices A(-4,3), B(-2,1), and C(0,5) under the translation (x, y)  (x + 3, y – 4) 4.Trapezoid LMNO with vertices L(2,1), M(5,1), N(1,-5), and O(0-2) under the translation (x, y)  (x – 1, y + 4) 5.Find the translation that moves AB with endpoints A(2,4) and B(-1,-3) to A’B’ with endpoints A’(5,2) and B’(2,-5) 6. Which describes the translation left 3 units and up 4 units? Standardized Test Practice: A C B D (x, y)  (x + 3, y – 4)(x, y)  (x – 3, y – 4) (x, y)  (x + 3, y + 4)(x, y)  (x – 3, y + 4) (x, y)  (x + 3, y – 2) R’(3,-4), S’(-1,1) D L’(1,5), M’(4,5), N’(0,-1), O’(-1,2) A’(-1,-1), B’(1,-3), C’(3,1) G’(-1,0), H’(-2,-3), I’(-5,-4), J’(-5,3)

3. Objectives Draw rotated images using the angle of rotation Identify figures with rotational symmetry

4. Vocabulary Rotation – transformation that turns every point of a pre-image through a specified angle and direction about a fixed point Center of rotation – fixed point of the rotation Angle of rotation – angle between a pre-image point and corresponding image point Rotational symmetry – a figure can be rotated less than 360° so that the pre-image and image look the same (indistinguishable) –Order – number of times figure can be rotated less than 360° in above –Magnitude – angle of rotation (360° / order)

5. Example 3-1a Triangle DEF has vertices D(–2, –1), E(–1, 1), and F(1, –1). Draw the image of  DEF under a rotation of 115° clockwise about the point G(–4, –2). First draw  DEF and plot point G. Use a protractor to measure a 115° angle clockwise with as one side. Use a compass to copy onto Name the segment Draw Repeat with points E and F. Draw a segment from point G to point D. D E F G R 115  D'D' F'F' E'E'

6. Example 3-1a Answer: D E F F'F' D'D' E'E'  D'E'F' is the image of  DEF under a 115° clockwise rotation about point G.

7. Example 3-1b Triangle ABC has vertices A(1, –2), B(4, –6), and C(1, –6). Draw the image of  ABC under a rotation of 70° counterclockwise about the point M(–1, –1). Answer:

8. Example 3-2a Find the image of parallelogram WXYZ under reflections in line p and then line q. First reflect parallelogram WXYZ in line p. Then label the image W'X'Y'Z'. Next, reflect the image in line q. Then label the image W''X''Y''Z''. Parallelogram W''X''Y''Z'' is the image of parallelogram WXYZ under reflections in line p and q. Answer:

9. Example 3-2b Find the image of  ABC under reflections in line m and then line n. Answer:

10. Rotation Rotation – a transformation that turns all points of a figure, through a specified angle and direction about a fixed point y x A B C angle of rotation (90°) point of rotation (origin) A’ B’ C’ Each point rotated 90° to the left (counter clockwise) around the origin In Powerpoint: the free rotate (green dot) allows rotation, but only around the figure’s center point – not an outside point 180° Rotation – reflection across the origin! A (2,7) B (8,4) C (3,3)

11. Example 3-3a QUILTS Use the quilt by Judy Mathieson shown below. Identify the order and magnitude of the symmetry in the medium star directly to the left of the large star in the center of the quilt. Answer: The medium star directly to the left of the large star in the center has rotational symmetry of order 16 and a magnitude of 22.5°.

12. Example 3-3a QUILTS Use the quilt by Judy Mathieson shown below. Identify the order and magnitude of the symmetry in the tiny star above the medium-sized star in Example 3a. Answer: The tiny star has rotational symmetry of order 8 and magnitude of 45°.

13. Example 3-3b QUILTS Use the quilt by Judy Mathieson shown below. Identify the order and magnitude of the symmetry in each part of the quilt. a. star in the upper left corner Answer: 8; 45° b. medium-sized star directly in center of quilt Answer: 20; 18°

14. Rotational Symmetry Rotational Symmetry – if a figure can be rotated less than 360° and the image and pre-image are indistinguishable (regular polygons are a great example) Order:3468 Magnitude:120°90°60°45° Remember Order = n (number of sides) and Magnitude = 360 / Order

15. Summary & Homework Summary: –A rotation turns each point in a figure through the same angle about a fixed point –An object has rotational symmetry when you can rotate it less than 360° and the pre-image and the image are indistinguishable (can’t tell them apart) Homework: –pg 479-481; 9, 10, 14, 15, 23, 41