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Introduction to Transformations / Translations. By the end of this lesson, you will know… Transformations in general: A transformation is a change in.

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Presentation on theme: "Introduction to Transformations / Translations. By the end of this lesson, you will know… Transformations in general: A transformation is a change in."— Presentation transcript:

1 Introduction to Transformations / Translations

2 By the end of this lesson, you will know… Transformations in general: A transformation is a change in the position, size, or shape of a geometric figure. There are two types of transformations, rigid and non-rigid motions. The pre-image is the original figure and the image is the transformed figure. Congruent figures have the same size and shape. Rigid motions preserve the size and shape (or distance and angle measure) of a figure. (They are sometimes called congruence motions.) Rigid motions include translations, reflections, and rotations. Translations: A translation is a transformation where a figure slides without turning. Lines that connect the corresponding points of a pre-image and its translated image are parallel. Corresponding segments of a pre-image and its translated image are parallel. A translation does not change the orientation of a figure.

3 What is a transformation? a change in the position, size, or shape of a geometric figure 2 types of transformations 1.rigid motion  translations  reflections  rotations 2.non-rigid motion

4 Rigid motions preserve the size and shape (or distance & angle measure) of a figure  they are sometimes called congruence motions since figures with the same size and shape are congruent

5 Transformations are functions that take points in the plane as inputs and give other points as outputs we will discuss & use “rules” that go with these transformations

6 With transformations, the pre-image is the original figure (input) the image is the transformed figure (output) to distinguish the pre-image from the image, prime notation is used points A, B, and C are inputs points A’, B’, and C’ are outputs

7 Function “Rule” If we are given a pre-image and its transformed image on a coordinate plane, we can give a function rule for the horizontal and vertical change To give a function rule, we can use…

8 Coordinate Notation coordinate notation is a way to write a function rule for a transformation in the coordinate plane example: (x,y)  (x+2, y-3) (x+2, y-3) is our function rule written in coordinate notation the pre-image is moving 2 units right and 3 units down applying this rule if (6,12) is a point on our pre-image, then (6,12) becomes (6+2,12-3), which is point (8,9) so point (6,12) on our pre-image transformed to point (8,9) on our image

9 Is this transformation a rigid motion? (x,y)  (x-4,y+3) pre-image points (0,0) (2,0) (0,4)

10 Is this transformation a rigid motion? (x,y)  (-x,y) pre-image points (0,0) (2,0) (0,4)

11 YES this transformation is a rigid motion because the size and shape of the pre-image is preserved

12 Is this transformation a rigid motion? (x,y)  (2x,2y) pre-image points (0,0) (2,0) (0,4)

13 Is this transformation a rigid motion? (x,y)  (2x,y) pre-image points (0,0) (2,0) (0,4)

14 Is this transformation a rigid motion? (x,y)  (x,.5y) pre-image points (0,0) (2,0) (0,4)

15 Translations a translation is a transformation that slides all points of a figure the same distance in the same direction

16 Translations lines that connect the corresponding points of a pre-image and its translated image are parallel. corresponding segments of a pre-image and its translated image are also parallel it is convenient to describe translations using the language of vectors

17 Vector a quantity that has both direction and magnitude (size) the initial point of a vector is the starting point the terminal point of a vector is the ending point

18 Component Form of Vectors denoted by specifies the horizontal change a and the vertical change b from the initial point to the terminal point  a is negative if moved left  b is negative if moved down

19 Translations and Vectors The translation below shows a vector (in red) translating the top triangle 4 units to the right and 9 units downward. The notation for such vector movement may be written as.

20 Draw the image of the pre-image shown below under the given translation vector:

21 Determining the translation vector given a pre-image and its translated image, determine the translation vector. Give a verbal description of the translation vector.

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