connection to previews lesson… previously, we studied rigid transformations, in which the image...
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![Page 1: Connection to previews lesson… Previously, we studied rigid transformations, in which the image and preimage of a figure are congruent. In this lesson,](https://reader036.vdocuments.mx/reader036/viewer/2022062515/56649cee5503460f949bc657/html5/thumbnails/1.jpg)
Connection to previews lesson…
Previously, we studied rigid transformations, in which the image
and preimage of a figure are congruent. In this lesson, you will
study a type of nonrigid transformation called a dilation, in which the image and preimage of a
figure are similar.
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Standard: MCC9-12.G.SRT.1 Verify experimentally the properties of dilations
given by a center and a scale factor.EQ: What is a dilation and how does this
transformation affect a figure in the coordinate plane?
Dilations
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Graph:
A(4, 2)
B(2, 0)
C(6, -6)
D(0, -4)
E(-6, -6)
F(-2, 0)
G(-4, 2)
H(0, 4)
Connect and label “original”.
-15 -10 -5
-10
-5
5
10
10 155
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-10
-5
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10 155
A
B
C
D
E
F
G
H
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When dilating a figure you need to have a scale factor.
For our first dilation use a scale factor of 2.
This means you will multiply each coordinate by 2 to get the new location.
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A(4, 2) A’(42, 2 2) A’(8, 4)
B(2, 0) B’(22, 0 2) B’(4, 0)
C(6, -6) C’(62, -6 2) C’(__, __)
D(0, -4)
E(-6, -6)
F(-2, 0)
G(-4, 2)
H(0, 4)
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Graph the dilation with a scale factor of 2:
A’(8, 4)
B’(4, 0)
C’(12, -12)
D’(0, -8)
E’(-12, -12)
F’(-4, 0)
G’(-8, 4)
H’(0, 8)
![Page 8: Connection to previews lesson… Previously, we studied rigid transformations, in which the image and preimage of a figure are congruent. In this lesson,](https://reader036.vdocuments.mx/reader036/viewer/2022062515/56649cee5503460f949bc657/html5/thumbnails/8.jpg)
-15 -10 -5
-10
-5
5
10
10 155
A
B
C
D
E
F
G
H
H’
A’
B’
C’
D’
E’
F’
G’
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A(4, 2) A”( , )
B(2, 0) B”( , )
C(6, -6)
D(0, -4)
E(-6, -6)
F(-2, 0)
G(-4, 2)
H(0, 4)
Here are the original points…
Now on your graph paper calculate the coordinates for a dilation with a scale
factor of 0.5.
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-15 -10 -5
-10
-5
5
10
10 155
A
B
C
D
E
F
G
H
H’
A’
B’
C’
D’
E’
F’
G’
H’’A’’
B’’
C’’
D’’
E’’
F’’G’’
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Vocabulary:
Dilation: Transformation that changes the size of a figure, but not
the shape.
Scale factor: The ratio of any 2 corresponding lengths of the sides of 2
similar figures.
Corresponding Sides: Sides that have the same relative positions in geometric
figures.
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Vocabulary:Congruent: Having the same size, shape and measure. 2 figures are
congruent if all of their corresponding measures are equal.
Congruent figures: Figures that have the same size and shapes.
Corresponding Angles: Angles that have the same relative positions in geometric
figures.
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Vocabulary:
Parallel Lines: 2 lines are parallel if they lie in the same plane and
do not intersect.
Proportion: An equation that states that 2 ratios are equal.
Ratio: Comparison of 2 quantities by division and may be
written as r/s, r:s, or r to s.
![Page 14: Connection to previews lesson… Previously, we studied rigid transformations, in which the image and preimage of a figure are congruent. In this lesson,](https://reader036.vdocuments.mx/reader036/viewer/2022062515/56649cee5503460f949bc657/html5/thumbnails/14.jpg)
Vocabulary:
Transformation: The mapping or movement of all points of a
figure in a plane according to a common operation.
Similar Figures: Figures that have the same shape but not
necessarily the same size.
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Dilation properties•When dilating a figure in a coordinate plane, a segment in the original image (not passing through the center), is parallel to it’s corresponding segment in the dilated image.
•When given a scale factor, the corresponding sides of the dilated image become larger of smaller by the scale factor ratio given.
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CC is the center of the dilation mapping ΔXYZ onto ΔLMNY
X Z
N
M
L
The center of any dilation is where the lines through all corresponding points intersect.
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Dilation types
Contraction: reduction: the image is smaller than the preimage: scale factor is greater than 0, but less than 1.
Expansion: enlargement: the image is larger than preimage: Scale factor is greater than 1.
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Example 1
A picture is enlarged by a scale factor of 125% and then enlarged again by the same scale factor. If the original picture was 4” x 6”, how large is the final copy?
By what scale factor was the original picture enlarged?
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Example 2
A triangle has coordinates A(3,-1), B(4,3) and C(2,5). The triangle will undergo a dilation using a scale factor of 3. Determine the coordinates of the vertices of the resulting triangle.
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Example 3Triangle ABC is a dilation of triangle XYZ. Use the coordinates of the 2 triangles to determine the scale factor of the dilation.
A(-1, 1), B(-1, 0), C(3,1)X(-3, 3), Y(-3, 0), Z(9, 3)
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Similar Figures
Two figures, F and G, are similar (written F ~ G) if and only if
a.) corresponding angles are congruent and
b.)corresponding sides are proportional.
Dilations always result in similar figures!!!
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Similar Figures
If WXY ~ ABC, then:∠W ≅ ∠A ∠X ≅ ∠B
∠Y ≅ ∠C
WX XY YZAB BC CD
= = =
W
A
X Y
B C
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Example 1
D F
E B80°
A C40°
If ΔABC is similar to ΔDEF in the diagram below, then m∠D = ?
A.80°B.60°C.40°D.30°E.10°
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Example 2
Determine whether the triangles are similar. Justify your response!
129
5
3.75
13 9.75
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Example 3
Triangle ABC is similar to triangle DEF. Determine the scale factor of DEF to ABC (be careful – the order is important), then calculate the lengths of the unknown sides.
12
15
y + 3
9 x
y - 3
A
B C
D
E F
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Example 4In the figure below, ΔABC is
similar to ΔDEF. What is the length of DE?A. 12B. 11C. 10D. 7⅓E. 6⅔
A
10
B
11
C12 D F8
E