Download - Transformations and the Coordinate Plane Eleanor Roosevelt High School Geometry Mr. Chin-Sung Lin
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Transformations and the Coordinate Plane
Eleanor Roosevelt High School
Geometry
Mr. Chin-Sung Lin
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The Coordinates of a Point in a Plane
ERHS Math Geometry
Mr. Chin-Sung Lin
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Coordinate Plane
ERHS Math Geometry
Mr. Chin-Sung Lin
Two intersecting lines determine a plane. The coordinate plane is determined by a horizontal line, the x-axis, and a vertical line, the y-axis, which are perpendicular and intersect at a point called the origin
X
Y
O
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Coordinate Plane
ERHS Math Geometry
Mr. Chin-Sung Lin
Every point on a plane can be described by two numbers, called the coordinates of the point, usually written as an ordered pair (x, y)
X
(x, y)Y
O
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Coordinate Plane
ERHS Math Geometry
Mr. Chin-Sung Lin
The x-coordinate or the abscissa, is the distance from the point to the y-axis. The y-coordinate or the ordinate is the distance from the point to the x-axis. Point O, the origin, has the coordinates (0, 0)
X
(x, y)Y
O (0, 0)x
y
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Postulates of Coordinate Plane
ERHS Math Geometry
Mr. Chin-Sung Lin
Two points are on the same horizontal line if and only if they have the same y-coordinates
X
(x2, y)Y
O
(x1, y)
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Postulates of Coordinate Plane
ERHS Math Geometry
Mr. Chin-Sung Lin
The length of a horizontal line segment is the absolute value of the difference of the x-coordinates
d = |x2 – x1|
X
(x2, y)Y
O
(x1, y)
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Postulates of Coordinate Plane
ERHS Math Geometry
Mr. Chin-Sung Lin
Two points are on the same vertical line if and only if they have the same x-coordinates
X
(x, y2)
Y
O
(x, y1)
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Postulates of Coordinate Plane
ERHS Math Geometry
Mr. Chin-Sung Lin
The length of a vertical line segment is the absolute value of the difference of the y-coordinates
d = |y2 – y1|
X
(x, y2)
Y
O
(x, y1)
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Postulates of Coordinate Plane
ERHS Math Geometry
Mr. Chin-Sung Lin
Each vertical line is perpendicular to each horizontal line
X
Y
O
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Locating a Point in the Coordinate Plane
ERHS Math Geometry
Mr. Chin-Sung Lin
1. From the origin, move to the right if the x-coordinate is positive or to the left if the x-coordinate is negative. If it is 0, there is no movement
2. From the point on the x-axis, move up if the y-coordinate is positive or down if the y-coordinate is negative. If it is 0, there is no movement
X
(x, y)Y
Ox
y
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Finding the Coordinates of a Point
ERHS Math Geometry
Mr. Chin-Sung Lin
1. From the point, move along a vertical line to the x-axis.The number on the x-axis is the x-coordinate of the point
2. From the point, move along a horizontal line to the y-axis.The number on the y-axis is the y-coordinate of the point
X
(x, y)Y
O x
y
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Graphing on the Coordinate Plane
ERHS Math Geometry
Mr. Chin-Sung Lin
Graph the following points: A(4, 1), B(1, 5), C(-2,1). Then draw ∆ ABC and find its area
X
Y
O
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Graphing on the Coordinate Plane
ERHS Math Geometry
Mr. Chin-Sung Lin
Graph the following points: A(4, 1), B(1, 5), C(-2,1). Then draw ∆ ABC and find its area
A (4, 1)C (-2, 1)
B (1, 5)
D (1, 1)X
Y
O
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Graphing on the Coordinate Plane
ERHS Math Geometry
Mr. Chin-Sung Lin
Graph the following points: A(4, 1), B(1, 5), C(-2,1). Then draw ∆ ABC and find its area
AC = | 4 – (-2) | = 6
BD = | 5 – 1 | = 4
Area = ½ (AC)(BD)
= ½ (6)(4) = 12
A (4, 1)C (-2, 1)
B (1, 5)
D (1, 1)X
Y
O
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Line Reflections
ERHS Math Geometry
Mr. Chin-Sung Lin
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Line Reflections
ERHS Math Geometry
Mr. Chin-Sung Lin
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Line Reflections
ERHS Math Geometry
Mr. Chin-Sung Lin
Y
Line of Reflection
Line Reflection (Object & Image)
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Transformation
ERHS Math Geometry
Mr. Chin-Sung Lin
A one-to-one correspondence between two sets of points, S and S’, such that every point in set S corresponds to one and only one point in set S’, called its image, and every point in S’ is the image of one and only one point in S, called its preimage
S S’
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A Reflection in Line k
ERHS Math Geometry
Mr. Chin-Sung Lin
1. If point P is not on k, then the image of P is P’ where k is the perpendicular bisector of PP’
2. If point P is on k, the image of P is P
P’
kP
P
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Theorem of Line Reflection - Distance
ERHS Math Geometry
Mr. Chin-Sung Lin
Under a line reflection, distance is preserved
Given: Under a reflection in line k, the image of A is A’ and the image of B is B’
Prove: AB = A’B’
B’
k
B
A’A
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Theorem of Line Reflection - Distance
ERHS Math Geometry
Mr. Chin-Sung Lin
Under a line reflection, distance is preserved
Given: Under a reflection in line k, the image of A is A’ and the image of B is B’
Prove: AB = A’B’
B’
k
B
A’AC
D
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Theorem of Line Reflection - Distance
ERHS Math Geometry
Mr. Chin-Sung Lin
Under a line reflection, distance is preserved
Given: Under a reflection in line k, the image of A is A’ and the image of B is B’
Prove: AB = A’B’
B’
k
B
A’A
SASC
D
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Theorem of Line Reflection - Distance
ERHS Math Geometry
Mr. Chin-Sung Lin
Under a line reflection, distance is preserved
Given: Under a reflection in line k, the image of A is A’ and the image of B is B’
Prove: AB = A’B’
B’
k
B
A’A
CPCTCC
D
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Theorem of Line Reflection - Distance
ERHS Math Geometry
Mr. Chin-Sung Lin
Under a line reflection, distance is preserved
Given: Under a reflection in line k, the image of A is A’ and the image of B is B’
Prove: AB = A’B’
B’
k
B
A’A
SASC
D
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Theorem of Line Reflection - Distance
ERHS Math Geometry
Mr. Chin-Sung Lin
Under a line reflection, distance is preserved
Given: Under a reflection in line k, the image of A is A’ and the image of B is B’
Prove: AB = A’B’
B’
k
B
A’A
CPCTCC
D
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Theorem of Line Reflection - Distance
ERHS Math Geometry
Mr. Chin-Sung Lin
Since distance is preserved under a line reflection, the image of a triangle is a congruent triangle
B’
k
B
A’A
C C’
M’M
D D’
SSS
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Corollaries of Line Reflection
ERHS Math Geometry
Mr. Chin-Sung Lin
Under a line reflection, angle measure is preserved
Under a line reflection, collinearity is preserved
Under a line reflection, midpoint is preserved
B’
k
B
A’A
C C’
M’M
D D’
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Notation of Line Reflection
ERHS Math Geometry
Mr. Chin-Sung Lin
We use rk as a symbol for the image under a reflection in line k
rk (A) = A’
rk (∆ ABC ) = ∆ A’B’C’
B’
k
B
A’A
C C’
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Construction of Line Reflection
ERHS Math Geometry
Mr. Chin-Sung Lin
If rk (AC) = A’C’, construct A’C’
k
A
C
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Construction of Line Reflection
ERHS Math Geometry
Mr. Chin-Sung Lin
Construct the perpendicular line from A to k. Let the point of intersection be M
k
A
C
M
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Construction of Line Reflection
ERHS Math Geometry
Mr. Chin-Sung Lin
Construct the perpendicular line from C to k. Let the point of intersection be N
k
A
CN
M
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Construction of Line Reflection
ERHS Math Geometry
Mr. Chin-Sung Lin
Construct A’ on AM such that AM = A’M
Construct C’ on CN such that CN = C’N
k
A’A
C C’
N
M
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Construction of Line Reflection
ERHS Math Geometry
Mr. Chin-Sung Lin
Draw A’C’
k
A’A
C C’
N
M
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Line Symmetry in Nature
ERHS Math Geometry
Mr. Chin-Sung Lin
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Line Symmetry
ERHS Math Geometry
Mr. Chin-Sung Lin
A figure has line symmetry when the figure is its own image under a line reflection
This line of reflection is a line of symmetry, or an axis of symmetry
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Line Symmetry
ERHS Math Geometry
Mr. Chin-Sung Lin
It is possible for a figure to have more than one axis of symmetry
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Line Reflections in the Coordinate Plane
ERHS Math Geometry
Mr. Chin-Sung Lin
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Reflection in the y-axis
ERHS Math Geometry
Mr. Chin-Sung Lin
Under a reflection in the y-axis, the image of P(a, b) is P’(-a, b)
y
Ox
P(a, b)
Q(0, b)
P’(-a, b)
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Reflection in the y-axis
ERHS Math Geometry
Mr. Chin-Sung Lin
If ∆ ABC is reflected in the y-axis, where A(-3, 3), B(-4, 1), and C(-1, 1), draw ry-axis (∆ ABC ) = ∆ A’B’C’
y
Ox
B(-4, 1)
A(-3, 3)
C(-1, 1)
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Reflection in the y-axis
ERHS Math Geometry
Mr. Chin-Sung Lin
If ∆ ABC is reflected in the y-axis, where A(-3, 3), B(-4, 1), and C(-1, 1), draw ry-axis (∆ ABC ) = ∆ A’B’C’
y
Ox
B’(4, 1)
A’(3, 3)
C’(1, 1)B(-4, 1)
A(-3, 3)
C(-1, 1)
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Reflection in the x-axis
ERHS Math Geometry
Mr. Chin-Sung Lin
Under a reflection in the x-axis, the image of P(a, b) is P’(a, -b)
y
Ox
P(a, b)
Q(a, 0)
P’(a, -b)
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Reflection in the x-axis
ERHS Math Geometry
Mr. Chin-Sung Lin
If ∆ ABC is reflected in the x-axis, where A(3, 3), B(4, 1), and C(1, 1), draw rx-axis (∆ ABC ) = ∆ A’B’C’
y
Ox
B(4, 1)
A(3, 3)
C(1, 1)
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Reflection in the x-axis
ERHS Math Geometry
Mr. Chin-Sung Lin
If ∆ ABC is reflected in the x-axis, where A(3, 3), B(4, 1), and C(1, 1), draw rx-axis (∆ ABC ) = ∆ A’B’C’
y
Ox
B(4, 1)
A(3, 3)
C(1, 1)
A’(3, -3)
B’(4, -1)C’(1, -1)
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Reflection in the Line y = x
ERHS Math Geometry
Mr. Chin-Sung Lin
Under a reflection in the y = x, the image of P(a, b) is P’(b, a)
y
O x
P(a, b)
Q(a, a)
P’(b, a)
R(b, b)
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Reflection in the Line y = x
ERHS Math Geometry
Mr. Chin-Sung Lin
If ∆ ABC is reflected in the x-axis, where A(2, 2), B(1, 4), and C(-1, 1), draw ry=x (∆ ABC ) = ∆ A’B’C’
y
O x
B(1, 4)
A(2, 2)
C(-1, 1)
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Reflection in the Line y = x
ERHS Math Geometry
Mr. Chin-Sung Lin
If ∆ ABC is reflected in the x-axis, where A(2, 2), B(1, 4), and C(-1, 1), draw ry=x (∆ ABC ) = ∆ A’B’C’
* Point A is a fixed point since it is on the line of reflection
y
O x
B(1, 4)
A(2, 2)=A’(2, 2)
C(-1, 1) B’(4, 1)
C’(1, -1)
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Point Reflections in the Coordinate Plane
ERHS Math Geometry
Mr. Chin-Sung Lin
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A Point Reflection in P
ERHS Math Geometry
Mr. Chin-Sung Lin
1. If point A is not point P, then the image of A is A’ and P the midpoint of AA’
2. The point P is its own imagey
Ox
A
A’
P
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Theorem of Point Reflections
ERHS Math Geometry
Mr. Chin-Sung Lin
Under a point reflection, distance is preserved
y
Ox
A
P
B
B’
A’
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Theorem of Point Reflections
ERHS Math Geometry
Mr. Chin-Sung Lin
Given: Under a reflection in point P, the image of A is A’ and the image of B is B’
Prove: AB = A’B’y
Ox
A
P
B
B’
A’
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Theorem of Point Reflections
ERHS Math Geometry
Mr. Chin-Sung Lin
Given: Under a reflection in point P, the image of A is A’ and the image of B is B’
Prove: AB = A’B’y
Ox
A
P
B
B’
A’
SAS
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Theorem of Point Reflections
ERHS Math Geometry
Mr. Chin-Sung Lin
Given: Under a reflection in point P, the image of A is A’ and the image of B is B’
Prove: AB = A’B’y
Ox
A
P
B
B’
A’
CPCTC
![Page 54: Transformations and the Coordinate Plane Eleanor Roosevelt High School Geometry Mr. Chin-Sung Lin](https://reader035.vdocuments.site/reader035/viewer/2022062517/56649f155503460f94c2b2fb/html5/thumbnails/54.jpg)
Properties of Point Reflections
ERHS Math Geometry
Mr. Chin-Sung Lin
1. Under a point reflection, angle measure is preserved
2. Under a point reflection, collinearity is preserved
3. Under a point reflection, midpoint is preservedy
Ox
A
A’
P
![Page 55: Transformations and the Coordinate Plane Eleanor Roosevelt High School Geometry Mr. Chin-Sung Lin](https://reader035.vdocuments.site/reader035/viewer/2022062517/56649f155503460f94c2b2fb/html5/thumbnails/55.jpg)
Notation of Point Reflections
ERHS Math Geometry
Mr. Chin-Sung Lin
We use Rp as a symbol for the image under a reflection in point P
Rp (A) = B means “The image of A under a reflection in point P is B.”
R(1,2) (A) = A’ means “The image of A under a reflection in point (1, 2) is A’.”
![Page 56: Transformations and the Coordinate Plane Eleanor Roosevelt High School Geometry Mr. Chin-Sung Lin](https://reader035.vdocuments.site/reader035/viewer/2022062517/56649f155503460f94c2b2fb/html5/thumbnails/56.jpg)
Point Symmetry
ERHS Math Geometry
Mr. Chin-Sung Lin
A figure has point symmetry if the figure is its own image under a reflection in a point
![Page 57: Transformations and the Coordinate Plane Eleanor Roosevelt High School Geometry Mr. Chin-Sung Lin](https://reader035.vdocuments.site/reader035/viewer/2022062517/56649f155503460f94c2b2fb/html5/thumbnails/57.jpg)
Point Symmetry
ERHS Math Geometry
Mr. Chin-Sung Lin
Other examples of figures that have point symmetry are letters such as S and N and numbers such as 8
S N 8
![Page 58: Transformations and the Coordinate Plane Eleanor Roosevelt High School Geometry Mr. Chin-Sung Lin](https://reader035.vdocuments.site/reader035/viewer/2022062517/56649f155503460f94c2b2fb/html5/thumbnails/58.jpg)
Reflection in the Origin
ERHS Math Geometry
Mr. Chin-Sung Lin
Under a reflection in the origin, the image of P(a, b) is P’(-a, -b)
RO (a, b) = (-a, -b)
y
O
x
P(a, b)
P’(-a, -b)
![Page 59: Transformations and the Coordinate Plane Eleanor Roosevelt High School Geometry Mr. Chin-Sung Lin](https://reader035.vdocuments.site/reader035/viewer/2022062517/56649f155503460f94c2b2fb/html5/thumbnails/59.jpg)
Reflection in the Origin
ERHS Math Geometry
Mr. Chin-Sung Lin
If ∆ ABC is reflected in the origin, where A(-3, 3), B(-4, 1), and C(-1, 1), draw RO (∆ ABC ) = ∆ A’B’C’
y
Ox
B(-4, 1)
A(-3, 3)
C(-1, 1)
![Page 60: Transformations and the Coordinate Plane Eleanor Roosevelt High School Geometry Mr. Chin-Sung Lin](https://reader035.vdocuments.site/reader035/viewer/2022062517/56649f155503460f94c2b2fb/html5/thumbnails/60.jpg)
Reflection in the Origin
ERHS Math Geometry
Mr. Chin-Sung Lin
If ∆ ABC is reflected in the origin, where A(-3, 3), B(-4, 1), and C(-1, 1), draw RO (∆ ABC ) = ∆ A’B’C’
y
Ox
B’(4, -1)
A’(3, -3)
C’(1, -1)
B(-4, 1)
A(-3, 3)
C(-1, 1)
![Page 61: Transformations and the Coordinate Plane Eleanor Roosevelt High School Geometry Mr. Chin-Sung Lin](https://reader035.vdocuments.site/reader035/viewer/2022062517/56649f155503460f94c2b2fb/html5/thumbnails/61.jpg)
Reflection in the point
ERHS Math Geometry
Mr. Chin-Sung Lin
(A) What are the coordinates of B, the image of A(-3, 2) under a reflection in the origin?
(B) What are the coordinates of C, the image of A(-3, 2) under a reflection in the x-axis?
(C) What are the coordinates of D, the image of C under a reflection in the y-axis?
(D) Does a reflection in the origin give the same result as a reflection in the x-axis followed by a reflection in the y-axis? Justify your answer.
![Page 62: Transformations and the Coordinate Plane Eleanor Roosevelt High School Geometry Mr. Chin-Sung Lin](https://reader035.vdocuments.site/reader035/viewer/2022062517/56649f155503460f94c2b2fb/html5/thumbnails/62.jpg)
Translations in the Coordinate Plane
ERHS Math Geometry
Mr. Chin-Sung Lin
![Page 63: Transformations and the Coordinate Plane Eleanor Roosevelt High School Geometry Mr. Chin-Sung Lin](https://reader035.vdocuments.site/reader035/viewer/2022062517/56649f155503460f94c2b2fb/html5/thumbnails/63.jpg)
Translation
ERHS Math Geometry
Mr. Chin-Sung Lin
A translation is a transformation of the plane that moves every point in the plane the same distance in the same direction
y
Ox
B’
B
C’
C
A’
A
![Page 64: Transformations and the Coordinate Plane Eleanor Roosevelt High School Geometry Mr. Chin-Sung Lin](https://reader035.vdocuments.site/reader035/viewer/2022062517/56649f155503460f94c2b2fb/html5/thumbnails/64.jpg)
Translation
ERHS Math Geometry
Mr. Chin-Sung Lin
In the coordinate plane, the distance is given in terms of horizontal distance (change in the x-coordinates) and vertical distance (change in the y-coordinates)
y
Ox
B’
B
C’
C
A’
A
x-coor. y-coor.
![Page 65: Transformations and the Coordinate Plane Eleanor Roosevelt High School Geometry Mr. Chin-Sung Lin](https://reader035.vdocuments.site/reader035/viewer/2022062517/56649f155503460f94c2b2fb/html5/thumbnails/65.jpg)
Translation
ERHS Math Geometry
Mr. Chin-Sung Lin
A translation of a units in the horizontal direction and b units in the vertical direction is a transformation of the plane such that the image of P(x, y) is P’(x + a, y + b)
y
x
P’(x + a, y + b)
P(x, y)a
b
![Page 66: Transformations and the Coordinate Plane Eleanor Roosevelt High School Geometry Mr. Chin-Sung Lin](https://reader035.vdocuments.site/reader035/viewer/2022062517/56649f155503460f94c2b2fb/html5/thumbnails/66.jpg)
Translation
ERHS Math Geometry
Mr. Chin-Sung Lin
The image of P(x, y) is P’(x + a, y + b),
if the translation moves a point to the right, a > 0
if the translation moves a point to the left, a < 0
if the translation moves a point up, b > 0
if the translation moves a point down, b < 0
y
x
P’(x + a, y + b)
P(x, y)a
b
![Page 67: Transformations and the Coordinate Plane Eleanor Roosevelt High School Geometry Mr. Chin-Sung Lin](https://reader035.vdocuments.site/reader035/viewer/2022062517/56649f155503460f94c2b2fb/html5/thumbnails/67.jpg)
Theorem of Translation
ERHS Math Geometry
Mr. Chin-Sung Lin
Under a translation, distance is preserved
y
Ox
B
A
B’
A’
![Page 68: Transformations and the Coordinate Plane Eleanor Roosevelt High School Geometry Mr. Chin-Sung Lin](https://reader035.vdocuments.site/reader035/viewer/2022062517/56649f155503460f94c2b2fb/html5/thumbnails/68.jpg)
Theorem of Translation
ERHS Math Geometry
Mr. Chin-Sung Lin
Given: A translation in which the image of A(x1,y1) is A’(x1+a, y1+b) and the image of B(x2, y2) is B’(x2+a, y2+b)
Prove: AB = A’B’
y
Ox
A’ (x1+a, y1+b)
B (x2, y2)
A (x1, y1)B’ (x2+a, y2+b)
![Page 69: Transformations and the Coordinate Plane Eleanor Roosevelt High School Geometry Mr. Chin-Sung Lin](https://reader035.vdocuments.site/reader035/viewer/2022062517/56649f155503460f94c2b2fb/html5/thumbnails/69.jpg)
Theorem of Translation
ERHS Math Geometry
Mr. Chin-Sung Lin
Given: A translation in which the image of A(x1,y1) is A’(x1+a, y1+b) and the image of B(x2, y2) is B’(x2+a, y2+b)
Prove: AB = A’B’
y
Ox
B (x2, y2)
A (x1, y1)B’ (x2+a, y2+b)
A’ (x1+a, y1+b)
![Page 70: Transformations and the Coordinate Plane Eleanor Roosevelt High School Geometry Mr. Chin-Sung Lin](https://reader035.vdocuments.site/reader035/viewer/2022062517/56649f155503460f94c2b2fb/html5/thumbnails/70.jpg)
Theorem of Translation
ERHS Math Geometry
Mr. Chin-Sung Lin
Given: A translation in which the image of A(x1,y1) is A’(x1+a, y1+b) and the image of B(x2, y2) is B’(x2+a, y2+b)
Prove: AB = A’B’
y
Ox
B’ (x2+a, y2+b)
A’ (x1+a, y1+b)
|x1-x2|
|x1-x2||y1-y2|
|y1-y2|
B (x2, y2)
A (x1, y1)
![Page 71: Transformations and the Coordinate Plane Eleanor Roosevelt High School Geometry Mr. Chin-Sung Lin](https://reader035.vdocuments.site/reader035/viewer/2022062517/56649f155503460f94c2b2fb/html5/thumbnails/71.jpg)
Theorem of Translation
ERHS Math Geometry
Mr. Chin-Sung Lin
Given: A translation in which the image of A(x1,y1) is A’(x1+a, y1+b) and the image of B(x2, y2) is B’(x2+a, y2+b)
Prove: AB = A’B’
y
Ox
B (x2, y2)
A (x1, y1)B’ (x2+a, y2+b)
A’ (x1+a, y1+b)
|x1-x2|
|x1-x2||y1-y2|
|y1-y2|
SAS & CPCTC
![Page 72: Transformations and the Coordinate Plane Eleanor Roosevelt High School Geometry Mr. Chin-Sung Lin](https://reader035.vdocuments.site/reader035/viewer/2022062517/56649f155503460f94c2b2fb/html5/thumbnails/72.jpg)
Properties of Translation
ERHS Math Geometry
Mr. Chin-Sung Lin
1. Under a translation, angle measure is preserved
2. Under a translation, collinearity is preserved
3. Under a translation, midpoint is preserved
y
Ox
A’ (x1+a, y1+b)
B (x2, y2)
A (x1, y1)B’ (x2+a, y2+b)
![Page 73: Transformations and the Coordinate Plane Eleanor Roosevelt High School Geometry Mr. Chin-Sung Lin](https://reader035.vdocuments.site/reader035/viewer/2022062517/56649f155503460f94c2b2fb/html5/thumbnails/73.jpg)
Notation of Translation
ERHS Math Geometry
Mr. Chin-Sung Lin
We use Ta, b as a symbol for the image under a translation of a units in the horizontal direction and b units in the vertical direction
Ta, b (x, y) = (x + a, y + b)
![Page 74: Transformations and the Coordinate Plane Eleanor Roosevelt High School Geometry Mr. Chin-Sung Lin](https://reader035.vdocuments.site/reader035/viewer/2022062517/56649f155503460f94c2b2fb/html5/thumbnails/74.jpg)
Translation
ERHS Math Geometry
Mr. Chin-Sung Lin
If ∆ ABC has vertices A(-3, 3), B(-4, 1), and C(-1, 1), find the coordinates of the vertices of ∆ A’B’C’, the image of ∆ ABC under T7,1
y
Ox
B(-4, 1)
A(-3, 3)
C(-1, 1)
![Page 75: Transformations and the Coordinate Plane Eleanor Roosevelt High School Geometry Mr. Chin-Sung Lin](https://reader035.vdocuments.site/reader035/viewer/2022062517/56649f155503460f94c2b2fb/html5/thumbnails/75.jpg)
Translation
ERHS Math Geometry
Mr. Chin-Sung Lin
If ∆ ABC has vertices A(-3, 3), B(-4, 1), and C(-1, 1), find the coordinates of the vertices of ∆ A’B’C’, the image of ∆ ABC under T7,1
y
Ox
B(-4, 1)
A(-3, 3)
C(-1, 1)
B’(3, 2)
A’(4, 4)
C’(6, 2)
![Page 76: Transformations and the Coordinate Plane Eleanor Roosevelt High School Geometry Mr. Chin-Sung Lin](https://reader035.vdocuments.site/reader035/viewer/2022062517/56649f155503460f94c2b2fb/html5/thumbnails/76.jpg)
Translational Symmetry
ERHS Math Geometry
Mr. Chin-Sung Lin
A figure has translational symmetry if the image of every point of the figure is a point of the figure
![Page 77: Transformations and the Coordinate Plane Eleanor Roosevelt High School Geometry Mr. Chin-Sung Lin](https://reader035.vdocuments.site/reader035/viewer/2022062517/56649f155503460f94c2b2fb/html5/thumbnails/77.jpg)
Translational Symmetry
ERHS Math Geometry
Mr. Chin-Sung Lin
![Page 78: Transformations and the Coordinate Plane Eleanor Roosevelt High School Geometry Mr. Chin-Sung Lin](https://reader035.vdocuments.site/reader035/viewer/2022062517/56649f155503460f94c2b2fb/html5/thumbnails/78.jpg)
Rotations in the Coordinate Plane
ERHS Math Geometry
Mr. Chin-Sung Lin
![Page 79: Transformations and the Coordinate Plane Eleanor Roosevelt High School Geometry Mr. Chin-Sung Lin](https://reader035.vdocuments.site/reader035/viewer/2022062517/56649f155503460f94c2b2fb/html5/thumbnails/79.jpg)
Rotation
ERHS Math Geometry
Mr. Chin-Sung Lin
A rotation is a transformation of a plane about a fixed point P through an angle of d degrees such that:
1. For A, a point that is not the fixed point P, if the image of A is A’, then PA = PA’ and m APA’ = d
2. The image of the center of rotation P is P
y
O x
P
A’
Ad
![Page 80: Transformations and the Coordinate Plane Eleanor Roosevelt High School Geometry Mr. Chin-Sung Lin](https://reader035.vdocuments.site/reader035/viewer/2022062517/56649f155503460f94c2b2fb/html5/thumbnails/80.jpg)
Theorem of Rotation
ERHS Math Geometry
Mr. Chin-Sung Lin
Distance is preserved under a rotation about a fixed point
P
A’
A
B’B
![Page 81: Transformations and the Coordinate Plane Eleanor Roosevelt High School Geometry Mr. Chin-Sung Lin](https://reader035.vdocuments.site/reader035/viewer/2022062517/56649f155503460f94c2b2fb/html5/thumbnails/81.jpg)
Theorem of Rotation
ERHS Math Geometry
Mr. Chin-Sung Lin
Given: P is the center of rotation. If A is rotated about P to A’, and B is rotated the same number of degrees to B’
Prove: AB = A’B’
P
A’
A
B’B
d
d
![Page 82: Transformations and the Coordinate Plane Eleanor Roosevelt High School Geometry Mr. Chin-Sung Lin](https://reader035.vdocuments.site/reader035/viewer/2022062517/56649f155503460f94c2b2fb/html5/thumbnails/82.jpg)
Theorem of Rotation
ERHS Math Geometry
Mr. Chin-Sung Lin
Given: P is the center of rotation. If A is rotated about P to A’, and B is rotated the same number of degrees to B’
Prove: AB = A’B’
P
A’
A
B’B mAPA’ = mBPB’
mAPB = mA’PB’
![Page 83: Transformations and the Coordinate Plane Eleanor Roosevelt High School Geometry Mr. Chin-Sung Lin](https://reader035.vdocuments.site/reader035/viewer/2022062517/56649f155503460f94c2b2fb/html5/thumbnails/83.jpg)
Theorem of Rotation
ERHS Math Geometry
Mr. Chin-Sung Lin
Given: P is the center of rotation. If A is rotated about P to A’, and B is rotated the same number of degrees to B’
Prove: AB = A’B’
P
A’
A
B’B
SAS
![Page 84: Transformations and the Coordinate Plane Eleanor Roosevelt High School Geometry Mr. Chin-Sung Lin](https://reader035.vdocuments.site/reader035/viewer/2022062517/56649f155503460f94c2b2fb/html5/thumbnails/84.jpg)
Theorem of Rotation
ERHS Math Geometry
Mr. Chin-Sung Lin
Given: P is the center of rotation. If A is rotated about P to A’, and B is rotated the same number of degrees to B’
Prove: AB = A’B’
P
A’
A
B’B
CPCTC
![Page 85: Transformations and the Coordinate Plane Eleanor Roosevelt High School Geometry Mr. Chin-Sung Lin](https://reader035.vdocuments.site/reader035/viewer/2022062517/56649f155503460f94c2b2fb/html5/thumbnails/85.jpg)
Properties of Rotation
ERHS Math Geometry
Mr. Chin-Sung Lin
1. Under a rotation, angle measure is preserved
2. Under a rotation, collinearity is preserved
3. Under a rotation, midpoint is preserved
P
A’
A
B’B
![Page 86: Transformations and the Coordinate Plane Eleanor Roosevelt High School Geometry Mr. Chin-Sung Lin](https://reader035.vdocuments.site/reader035/viewer/2022062517/56649f155503460f94c2b2fb/html5/thumbnails/86.jpg)
Notation of Rotation
ERHS Math Geometry
Mr. Chin-Sung Lin
We use RP, d as a symbol for the image under a rotation of d degrees about point P
A rotation in the counterclockwise direction is called a positive rotation
A rotation in the clockwise direction is called a negative rotation
RO, 30o (A) = B the image of A under a rotation of 30° degrees about the origin is B
![Page 87: Transformations and the Coordinate Plane Eleanor Roosevelt High School Geometry Mr. Chin-Sung Lin](https://reader035.vdocuments.site/reader035/viewer/2022062517/56649f155503460f94c2b2fb/html5/thumbnails/87.jpg)
Notation of Rotation
ERHS Math Geometry
Mr. Chin-Sung Lin
The symbol R is used to designate both a point reflection and a rotation
1. When the symbol R is followed by a letter that designates a point, it represents a reflection in that point (e.g., RP)
2. When the symbol R is followed by both a letter that designates a point and the number of degrees, it represents a rotation of the given number of degrees about the given point (e.g., RO, 30o)
3. When the symbol R is followed by the number of degrees, it represents a rotation of the given number of degrees about the origin (e.g., R90o)
![Page 88: Transformations and the Coordinate Plane Eleanor Roosevelt High School Geometry Mr. Chin-Sung Lin](https://reader035.vdocuments.site/reader035/viewer/2022062517/56649f155503460f94c2b2fb/html5/thumbnails/88.jpg)
Theorem of Rotation
ERHS Math Geometry
Mr. Chin-Sung Lin
Under a counterclockwise rotation of 90° about the origin, the image of P(a, b) is P’(–b, a)
RO,90°(x, y) = (-y, x) or R 90°(x, y) = (-y, x)
![Page 89: Transformations and the Coordinate Plane Eleanor Roosevelt High School Geometry Mr. Chin-Sung Lin](https://reader035.vdocuments.site/reader035/viewer/2022062517/56649f155503460f94c2b2fb/html5/thumbnails/89.jpg)
Rotation
ERHS Math Geometry
Mr. Chin-Sung Lin
If ∆ ABC has vertices A(-3, 3), B(-4, 1), and C(-1, 1), find the coordinates of the vertices of ∆ A’B’C’, the image of ∆ ABC under RO,90o
y
Ox
B(-4, 1)
A(-3, 3)
C(-1, 1)
![Page 90: Transformations and the Coordinate Plane Eleanor Roosevelt High School Geometry Mr. Chin-Sung Lin](https://reader035.vdocuments.site/reader035/viewer/2022062517/56649f155503460f94c2b2fb/html5/thumbnails/90.jpg)
Rotation
ERHS Math Geometry
Mr. Chin-Sung Lin
If ∆ ABC has vertices A(-3, 3), B(-4, 1), and C(-1, 1), find the coordinates of the vertices of ∆ A’B’C’, the image of ∆ ABC under RO,90o
y
Ox
B(-4, 1)
A(-3, 3)
C(-1, 1)
A’(-3, -3)
B’(-1, -4)
C’(-1, -1)
![Page 91: Transformations and the Coordinate Plane Eleanor Roosevelt High School Geometry Mr. Chin-Sung Lin](https://reader035.vdocuments.site/reader035/viewer/2022062517/56649f155503460f94c2b2fb/html5/thumbnails/91.jpg)
Rotation
ERHS Math Geometry
Mr. Chin-Sung Lin
If ∆ ABC has vertices A(-3, 3), B(-4, 1), and C(-1, 1), find the coordinates of the vertices of ∆ A”B”C”, the image of ∆ ABC under RO,180o
y
x
B(-4, 1)
A(-3, 3)
C(-1, 1)
![Page 92: Transformations and the Coordinate Plane Eleanor Roosevelt High School Geometry Mr. Chin-Sung Lin](https://reader035.vdocuments.site/reader035/viewer/2022062517/56649f155503460f94c2b2fb/html5/thumbnails/92.jpg)
Rotation
ERHS Math Geometry
Mr. Chin-Sung Lin
If ∆ ABC has vertices A(-3, 3), B(-4, 1), and C(-1, 1), find the coordinates of the vertices of ∆ A”B”C”, the image of ∆ ABC under RO,180o
y
Ox
B(-4, 1)
A(-3, 3)
C(-1, 1)
A’(-3, -3)
B’(-1, -4)
C’(-1, -1) C”(1, -1)
A”(3, -3)
B”(4, -1)
![Page 93: Transformations and the Coordinate Plane Eleanor Roosevelt High School Geometry Mr. Chin-Sung Lin](https://reader035.vdocuments.site/reader035/viewer/2022062517/56649f155503460f94c2b2fb/html5/thumbnails/93.jpg)
Rotation
ERHS Math Geometry
Mr. Chin-Sung Lin
If ∆ ABC has vertices A(-3, 3), B(-4, 1), and C(-1, 1), find the coordinates of the vertices of ∆ A”B”C”, the image of ∆ ABC under RO,180o
y
Ox
B(-4, 1)
A(-3, 3)
C(-1, 1)
C”(1, -1)
A”(3, -3)
B”(4, -1)
![Page 94: Transformations and the Coordinate Plane Eleanor Roosevelt High School Geometry Mr. Chin-Sung Lin](https://reader035.vdocuments.site/reader035/viewer/2022062517/56649f155503460f94c2b2fb/html5/thumbnails/94.jpg)
Rotation 180o = Point Reflection
ERHS Math Geometry
Mr. Chin-Sung Lin
∆ A”B”C”, the image of ∆ ABC under RO,180o is the same as the image of ∆ ABC under point reflection RO
y
Ox
B(-4, 1)
A(-3, 3)
C(-1, 1)
C”(1, -1)
A”(3, -3)
B”(4, -1)
![Page 95: Transformations and the Coordinate Plane Eleanor Roosevelt High School Geometry Mr. Chin-Sung Lin](https://reader035.vdocuments.site/reader035/viewer/2022062517/56649f155503460f94c2b2fb/html5/thumbnails/95.jpg)
Rotational Symmetry
ERHS Math Geometry
Mr. Chin-Sung Lin
A figure is said to have rotational symmetry if the figure is its own image under a rotation and the center of rotation is the only fixed point
![Page 96: Transformations and the Coordinate Plane Eleanor Roosevelt High School Geometry Mr. Chin-Sung Lin](https://reader035.vdocuments.site/reader035/viewer/2022062517/56649f155503460f94c2b2fb/html5/thumbnails/96.jpg)
Rotational Symmetry
ERHS Math Geometry
Mr. Chin-Sung Lin
Many letters, as well as designs in the shapes of wheels, stars, and polygons, have rotational symmetry
S H 8Z N
![Page 97: Transformations and the Coordinate Plane Eleanor Roosevelt High School Geometry Mr. Chin-Sung Lin](https://reader035.vdocuments.site/reader035/viewer/2022062517/56649f155503460f94c2b2fb/html5/thumbnails/97.jpg)
Glide Reflections in the Coordinate Plane
ERHS Math Geometry
Mr. Chin-Sung Lin
![Page 98: Transformations and the Coordinate Plane Eleanor Roosevelt High School Geometry Mr. Chin-Sung Lin](https://reader035.vdocuments.site/reader035/viewer/2022062517/56649f155503460f94c2b2fb/html5/thumbnails/98.jpg)
Composition of Transformations
ERHS Math Geometry
Mr. Chin-Sung Lin
When two transformations are performed, one following the other, we have a composition of transformations
![Page 99: Transformations and the Coordinate Plane Eleanor Roosevelt High School Geometry Mr. Chin-Sung Lin](https://reader035.vdocuments.site/reader035/viewer/2022062517/56649f155503460f94c2b2fb/html5/thumbnails/99.jpg)
Glide Reflection
ERHS Math Geometry
Mr. Chin-Sung Lin
A glide reflection is a composition of transformations of the plane that consists of a line reflection and a translation in the direction of the line of reflection performed in either order
y
x
BB’
AA’
C’ C
B”
A”
C”
![Page 100: Transformations and the Coordinate Plane Eleanor Roosevelt High School Geometry Mr. Chin-Sung Lin](https://reader035.vdocuments.site/reader035/viewer/2022062517/56649f155503460f94c2b2fb/html5/thumbnails/100.jpg)
Glide Reflection
ERHS Math Geometry
Mr. Chin-Sung Lin
A glide reflection is a composition of transformations of the plane that consists of a line reflection and a translation in the direction of the line of reflection performed in either order y
x
B
B’
A
A’
C’
C
B”
A”
C”
![Page 101: Transformations and the Coordinate Plane Eleanor Roosevelt High School Geometry Mr. Chin-Sung Lin](https://reader035.vdocuments.site/reader035/viewer/2022062517/56649f155503460f94c2b2fb/html5/thumbnails/101.jpg)
Theorem of Glide Reflection
ERHS Math Geometry
Mr. Chin-Sung Lin
Under a glide reflection, distance is preserved
y
x
BB’
AA’
C’ C
B”
A”
C”
![Page 102: Transformations and the Coordinate Plane Eleanor Roosevelt High School Geometry Mr. Chin-Sung Lin](https://reader035.vdocuments.site/reader035/viewer/2022062517/56649f155503460f94c2b2fb/html5/thumbnails/102.jpg)
Properties of Glide Reflection
ERHS Math Geometry
Mr. Chin-Sung Lin
1. Under a glide reflection, angle measure is preserved
2. Under a glide reflection, collinearity is preserved
3. Under a glide reflection, midpoint is preserved
y
x
BB’
AA’
C’ C
B”
A”
C”
![Page 103: Transformations and the Coordinate Plane Eleanor Roosevelt High School Geometry Mr. Chin-Sung Lin](https://reader035.vdocuments.site/reader035/viewer/2022062517/56649f155503460f94c2b2fb/html5/thumbnails/103.jpg)
Isometry
ERHS Math Geometry
Mr. Chin-Sung Lin
An isometry is a transformation that preserves distance
All five transformations:
1. line reflection,
2. point reflection,
3. translation,
4. rotation, and
5. glide reflection.
Each of these transformations is called an isometry
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Glide Reflection
ERHS Math Geometry
Mr. Chin-Sung Lin
If ∆ ABC has vertices A(-3, 3), B(-4, 1), and C(-1, 1), find the coordinates of the vertices of ∆ A’B’C’, the image of ∆ ABC under ry-axis, and ∆ A”B”C”, the image of ∆ A’B’C’ under T0, –4
y
Ox
B(-4, 1)
A(-3, 3)
C(-1, 1)
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Glide Reflection
ERHS Math Geometry
Mr. Chin-Sung Lin
If ∆ ABC has vertices A(-3, 3), B(-4, 1), and C(-1, 1), find the coordinates of the vertices of ∆ A’B’C’, the image of ∆ ABC under ry-axis, and ∆ A”B”C”, the image of ∆ A’B’C’ under T0, –4
y
Ox
B(-4, 1)
A(-3, 3)
C(-1, 1)
A’(3, 3)
B’(4, 1)C’(1, 1)
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Glide Reflection
ERHS Math Geometry
Mr. Chin-Sung Lin
If ∆ ABC has vertices A(-3, 3), B(-4, 1), and C(-1, 1), find the coordinates of the vertices of ∆ A’B’C’, the image of ∆ ABC under ry-axis, and ∆ A”B”C”, the image of ∆ A’B’C’ under T0, –4
y
Ox
B(-4, 1)
A(-3, 3)
C(-1, 1)
A’(3, 3)
B’(4, 1)C’(1, 1)
A”(3, –1)
B”(4, –3)C”(1, – 3)
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Glide Reflection
ERHS Math Geometry
Mr. Chin-Sung Lin
The vertices of ∆PQR are P(2, 1), Q(4, 1), and R(4, 3)
1. Find ∆P’Q’R’, the image of ∆PQR under ry=x followed by T–3, –3
2. Find ∆P”Q”R”, the image of ∆PQR under T–3, –3
followed by ry=x
3. Are ∆P’Q’R’ and ∆P”Q”R” the same triangle?
4. Are ry=x followed by T–3, –3 and T–3, –3 followed by ry=x the same glide reflection? Explain
5. Write a rule for this glide reflection
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Dilations in the Coordinate Plane
ERHS Math Geometry
Mr. Chin-Sung Lin
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Dilation
ERHS Math Geometry
Mr. Chin-Sung Lin
A dilation of k is a transformation of the plane such that:
1. The image of point O, the center of dilation, is O
2. When k is positive and the image of P is P’, then OP and OP’ are the same ray and OP’ = kOP
3. When k is negative and the image of P is P’, then OP and OP’ are opposite rays and OP’ = -kOP.
y
Ox
P
P’
k > 0
P’k < 0
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Notation of Dilations
ERHS Math Geometry
Mr. Chin-Sung Lin
We use Dk as a symbol for the image under a dilation of k with center at the origin
P (x, y) P’ (kx, ky) or Dk (x, y) = (kx, ky)
D2 (3, 4) = (6, 8)
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Dilation
ERHS Math Geometry
Mr. Chin-Sung Lin
Under a dilation about a fix point, distance is not preserved, and angle measurement is preserved
Dilation is not an isometry
y
Ox
A
A’
B
B’
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Glide Reflection
ERHS Math Geometry
Mr. Chin-Sung Lin
If ∆ ABC has vertices A(2, 1), B(1, 3), and C(3, 2), find the coordinates of the vertices of ∆ A’B’C’, the image of ∆ ABC under D2
y
Ox
B(1, 3)
A(2, 1)
C(3, 2)
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Glide Reflection
ERHS Math Geometry
Mr. Chin-Sung Lin
If ∆ ABC has vertices A(2, 1), B(1, 3), and C(3, 2), find the coordinates of the vertices of ∆ A’B’C’, the image of ∆ ABC under D2
y
Ox
B(1, 3)
A(2, 1)
C(3, 2)
B’(2, 6)
A’(4, 2)
C’(6, 4)
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Transformations as Functions
ERHS Math Geometry
Mr. Chin-Sung Lin
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Functions
ERHS Math Geometry
Mr. Chin-Sung Lin
A function is a set of ordered pairs in which no two pairs have the same first element
The set of first elements is the domain of the function and the set of second elements is the range
Domain Range
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Transformations as Functions
ERHS Math Geometry
Mr. Chin-Sung Lin
Transformation can be viewed as a one-to-one function
S S’
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Notations of Functions
ERHS Math Geometry
Mr. Chin-Sung Lin
For example, y = x + 1 is a function f, it can represented as:
y = x + 1
f(x) = x + 1
f: x -> x + 1
f = { (x, y) | y = x + 1}
y and f(x) both represent the second element of the ordered pair
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Composition of Transformations
ERHS Math Geometry
Mr. Chin-Sung Lin
When two transformations are performed, one (f) following the other (g), we have a composition of transformations
y = g( f(x) ) or y = g o f
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Composition of Transformations
ERHS Math Geometry
Mr. Chin-Sung Lin
A’ is the image of A(2, 5) under a reflection in the line y = x followed by the translation T2,0, we can write
T2, 0 (ry = x (A)) = A’ or T2, 0 o ry = x (A) = A’
A’ = T2, 0 (ry = x (2, 5)) = T2, 0 o ry = x (2, 5)
= T2, 0 (5, 2)
= (7, 2)
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Orientation
ERHS Math Geometry
Mr. Chin-Sung Lin
In a figure, the vertices, when traced from A to B to C to …. are in the clockwise or the counter-clockwise direction, called the orientation of the points
A
C
B Clockwise Orientation
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Direct Isometry
ERHS Math Geometry
Mr. Chin-Sung Lin
A direct isometry is a transformation that preserves distance and orientation
The following three transformations:
1. point reflection,
2. translation, and
3. rotation
each of these transformations is direct isometry
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Opposite Isometry
ERHS Math Geometry
Mr. Chin-Sung Lin
An opposite isometry is a transformation that preserves distance , but changes the orientation
The following two transformations:
1. line reflection, and
2. glide reflection
each of these transformations is opposite isometry
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Q & A
ERHS Math Geometry
Mr. Chin-Sung Lin
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The End
ERHS Math Geometry
Mr. Chin-Sung Lin