
Dilations are enlargements
(or reductions)! 
A dilation is a transformation that produces an image that is the same shape as the original, but is a different size.
• A dilation that creates a larger image is called an enlargement.
• A dilation that creates a smaller image is called a reduction.


• A description of a dilation includes the scale factor (or ratio) and the center of the dilation.
• The center of dilation is a fixed point in the plane.
•
If the scale factor is greater than 1, the image is an enlargement. It expands.
• If the scale factor is between 0 and 1, the image is a reduction. It contracts.
• If the scale factor is 1, the figure and the image are the exact same size (congruent).

The word "dilate" is often heard in relation to the human eye.
"The pupils of the eyes were dilated."
As light hits the eye, the pupil enlarges or contracts depending upon the amount of light.
This concept of enlarging and contracting is "dilating". 
Dilations can be seen, in a variety of situations:
Photography 
Arts and Crafts 
Graphing Calculator 
School or holiday picture packages offer the same photograph in a variety of sizes, from large to medium to small wallet size photos.

Russian nesting dolls are a set of wooden dolls of decreasing size placed inside one another. After the smallest doll, each doll is an enlargement of its inside doll.

The zoom feature will enlarge or reduce the viewing window.

Food Service 
Logos 
Grow Toys 
Soft drink containers come in a variety of sizes. While some are of different shapes, others are simply enlargements. 
Product logos can come in a variety of sizes, such as these pizza shop logos on their small, medium and large boxes. 
Grow toys are sponge/foam toys that "grow" when placed in water. Some grow quickly, while others grow over several days.

Dilations in the coordinate plane:
Most dilations in the coordinate plane use the origin, (0,0), as the center of the dilation. The center of the dilation will be indicated within the problem (or within the notation).
Dilation scale factor 2:

Starting with ΔABC, draw the dilation image of the triangle with a center at the origin and a scale factor of two.
Notice that every coordinate of the original triangle has been multiplied by the scale factor (x2).
Dilations involve multiplication!
Dilation with scale factor 2, multiply by 2.
Center at the origin.
(x, y) → (2x,2y) 

Dilation scale factor ½:

Starting with quadrilateral ABCD (blue), draw the dilation image of the quadrilateral with a center at the origin and a scale factor of ½.
Notice that every coordinate of the original ABCD has been multiplied by ½.
Dilation with scale factor ½, multiply by ½.
Center at the origin.
(x, y) → (½x, ½y ) 
REMINDER: Multiplying by ½ is the same as dividing by 2. 
In this problem, the center of the dilation is NOT at the origin.
Dilation not at origin:

Starting with rectangle ABCD (green), draw the dilation image of the rectangle with the center of dilation at point A and a scale factor of 1/3
Notice that point A and its image are the same.
You must observe the distances from the center of the dilation at point A to the other points B, C and D. The dilation image will be 1/3 of each of these distances.
AB = 6, so A'B' = 2.
AD = 9, so A'D' = 3. Now, draw the image rectangle.
FYI:
For a dilation not at the origin,
measure the distances. 

Dilations and Similarity:
The term similar (or similarity) can be defined using the language of transformations.

Two figures are similar if one is the image of the other under a transformation from the plane into itself that multiplies all distances by the same positive scale factor. That is to say, one figure
is a dilation of the other. 

( Or, ΔABC is a dilation of
ΔDEF by a scale factor of ½.)
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