13.6 and 13.7

1. 13.6 and 13.7 Rotations, Symmetry and Dilations

2. Goal Statement • will rotate figures and identify rotational symmetry • will dilate figures in a coordinate plane

3. Can you identify the following terms? • rotation: • center of rotation: • angle of rotation:

4. Can you identify the following terms? • rotation: a transformation where a figure is turned about a fixed point • center of rotation: • angle of rotation:

5. Can you identify the following terms? • rotation: a transformation where a figure is turned about a fixed point • center of rotation: the fixed point (ex. 0,0) • angle of rotation:

6. Can you identify the following terms? • rotation: a transformation where a figure is turned about a fixed point • center of rotation: the fixed point (ex. 0,0) • angle of rotation: the number of degrees a figure moves clockwise or counterclockwise about the center of rotation

7. Angle of Rotation -the number of degrees a figure moves clockwise or counterclockwiseabout the center of rotation

8. Angle of Rotation -the number of degrees a figure moves clockwise or counterclockwiseabout the center of rotation

9. Identifying Rotations

10. Identifying Rotations-OYO

11. 90º Clockwise Rotations Do you see a way to find the image coordinates if you have the original coordinates?

12. 90º Clockwise Rotations Try: Original Image A (3, -5) B (2, -4) C (4, -1) D (-1, 6) Switch the coordinates and multiply the new y-coordinate by -1. (x,y) (y,-x)

13. 90º Clockwise Rotations Try: Original Image A (3, -5) A’ (-5, -3) B (2, -4) B’ (-4, -2) C (4, -1) C’ (-1, -4) D (-1, 6) D’ (6, 1) Switch the coordinates and multiply the new y-coordinate by -1. (x,y)  (y,-x)

14. 90º Counterclockwise Rotations Do you see a way to find the image coordinates if you have the original coordinates?

15. 90º Counterclockwise Rotations Try: Original Image A (3, -5) B (2, -4) C (4, -1) D (-1, 6) Switch the coordinates and multiply the new x-coordinate by -1. (x,y) (-y,x)

16. 90º Counterclockwise Rotations Try: Original Image A (3, -5) A’ (5,3) B (2, 4) B’ (-4,2) C (-4, 1) C’ (-1,-4) D (-1, 6) D’ (-6,-1) Switch the coordinates and multiply the new x-coordinate by -1. (x,y) (-y,x)

17. Rotating a Triangle

18. Rotating a Triangle

19. Rotating a Triangle

20. 180º Rotations To rotate a figure 180º about the origin, multiply each coordinate by -1. (x, y) → (-x, -y)

21. Rotating a Triangle 180º

22. Rotating a Triangle 180º

23. Rotating a Triangle 180º

24. Rotational Symmetry

25. A family crest has rotational symmetry for 90º and 180º clockwise (or counterclockwise) rotation. Rotational Symmetry

26. A family crest has rotational symmetry for 90º and 180º clockwise (or counterclockwise) rotation. Rotational Symmetry

27. A family crest has rotational symmetry for 90º and 180º clockwise (or counterclockwise) rotation. Rotational Symmetry

28. A family crest has rotational symmetry for 90º and 180º clockwise (or counterclockwise) rotation. Rotational Symmetry

29. Dilations -a transformation where a figure stretches or shrinks with respect to a fixed point (center of dilation – ex. 0,0) -in a dilation, a figure and its image are similar

30. What do you notice about the original and image coordinate points?

31. What do you notice about the original and image coordinate points? You can multiply the coordinates by a scale factor of 2.

32. What do you notice about the original and image coordinate points? You can multiply the coordinates by a scale factor of 2. ie. (x,y) (2x,2y)

33. Or the thing you are multiplying by. If your scale factor is 2, you multiply each coordinate by 2. If it is 0.5, you multiply by 0.5

34. Dilating a Quadrilateral

35. Dilating a Quadrilateral

36. Dilating a Quadrilateral

37. How do you think we could shrink a dilation?

38. LET’S TRY

39. LET’S TRY

40. LET’S TRY

41. OYO Draw quadrilateral ABCD with vertices A(-1, 2), B(1, 2), C(3, 0), and D(-1, -1). Then find the coordinates of the vertices of the image after a dilation having a scale factor of 2, and draw the image.

42. OYO Solution Draw quadrilateral ABCD with vertices A(-1, 2), B(1, 2), C(3, 0), and D(-1, -1). Then find the coordinates of the vertices of the image after a dilation having a scale factor of 2, and draw the image. SOLUTION A’ (-2, 4) B’ (2, 4) C’ (6, 0) D’ (-2, -2)

43. OYO Solution (cont.) Draw quadrilateral ABCD with vertices A(-1, 2), B(1, 2), C(3, 0), and D(-1, -1). Then find the coordinates of the vertices of the image after a dilation having a scale factor of 2, and draw the image. SOLUTION A’ (-2, 4) B’ (2, 4) C’ (6, 0) D’ (-2, -2)

44. Finding a Scale Factor To find a scale factor, divide the larger photo coordinates by the smaller photo coordinates (since it was an enlargement). 5/2 = 2.5 2.5/1 = 2.5 12.5/5 = 2.5 2.5/1 = 2.5 The scale factor is 2.5

45. Try: Find the scale factor. Solution: A’ to A is 3 / 0.5 = 6 and B’ to B is 6/1 = 6. The scale factor is 6. The image (the enlarged line) is 6 times larger than the original line.

46. Homework Green Challenge: p.744 – 745 # 3 – 5 all, 8 – 13all, 15, 17 *3 graphs needed* p.749 – 750 # 1, 5 – 10 all *4 graphs needed* Blue Challenge: p.744 – 746 # 9 – 19 (odd), 20 – 22 all *5 graphs needed* p.749 – 751 # 1, 5 – 13all, 17, 18 *8 graphs needed*