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Transformations As Functions

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Presentation on theme: "Transformations As Functions"— Presentation transcript:

1 Transformations As Functions
~ Adapted from Walch Education

2 Transformations A transformation changes the position, shape, or size of a figure on a coordinate plane. The original figure, called a preimage, is changed or moved, and the resulting figure is called an image.

3 An isometry is a transformation in which the preimage and the image are congruent.
An isometry is also referred to as a “rigid transformation” because the shape still has the same size, area, angles, and line lengths.

4 Figures are congruent if they both have the same shape, size, lines, and angles. The new image is simply moving to a new location. T(x, y) = (x + h, y + k), then would be:

5 ONE-TO-ONE Transformations are one-to-one, which means each point in the set of points will be mapped to exactly one other point and no other point will be mapped to that point.

6 More Info… The simplest transformation is the identity function I where I: (x', y' ) = (x, y). Transformations can be combined to form a new transformation that will be a new function.

7 Because the order in which functions are taken can affect the output, we always take functions in a specific order, working from the inside out. For example, if we are given the set of functions h(g(f(x))), we would take f(x) first and then g and finally h.

8 Three Isometric Transformations
A translation, or slide, is a transformation that moves each point of a figure the same distance in the same direction. A reflection, or flip, is a transformation where a mirror image is created. A rotation, or turn, is a transformation that turns a figure around a point.

9 Some transformations are not isometric
Some transformations are not isometric. Examples of non-isometric transformations are horizontal stretch and dilation. A dilation stretches or contracts both coordinates.

10 Practice #1 Given the point P(5, 3) and T(x, y) = (x + 2, y + 2), what are the coordinates of T(P)? T(P) = (x + 2, y + 2) (5 + 2, 3 + 2) (7, 5) T(P) = (7, 5)

11 Challenge Problem Given the transformation of a translation
T5, –3, and the points P (–2, 1) and Q (4, 1), show that the transformation of a translation is isometric by calculating the distances, or lengths, of and

12 Thanks for Watching!!! ~Ms. Dambreville

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