01/11/20151 all of the ship would remain visible as apparent size diminishes. whereas on a flat...
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All of the ship would remain visible as apparent size diminishes.
Whereas on a flat Earth
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10 cm
15 cm
20 cm
30 cm
10
15
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The lantern throws a shadow across the floor.
What would happen if the lantern was closer to the man?
What would happen if it was further away?
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(4, 6)(6, 5)(3, 2)(1, 5)(-4, 3)
(-1, 1)(5, 3)(7, 1)(-7, 2)(-2, -1)
(-4, -2)(4, -2)(2, -3)(-2, -4)
y
x 1 2 3 4 5 6 7 8
1
2
3
4
5
6
7
8
–7 –6 –5 –4 –3 –2 –1 -1-2-3-4-5-6
Starter Activity 2 What are the coordinates?
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Learning Objectives
• To enlarge the given image
• To find the centre of the enlargement
Keywords: Enlargement, scale factor (SF), image, object, centre of enlargement (COE)
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• Scale Factor (SF): the size by which an image is enlarged.
• SF can be a positive or negative, whole number or fractional number.
• Centre of Enlargement (COE): COE is the point from which the image is enlarged.
• If the COE is not given, we can draw the image anywhere.
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I want you to enlarge the rectangle.
How many times bigger do you want it ?
Twice as big. That’s a Scale Factor = 2
Do you mean twice the AREA or twice the line lengths ?
You know exactly what I mean !
O.K. You mean twice the line lengths !
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What are the DIMENSIONS of the following enlargements ?
S.F. = 2
S.F. = 2
S.F. = 3
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Copy the following shapes onto squared paper and sketch their enlargements.
S.F. = 3
S.F.= 4
S.F.= 2
S.F. = 3
S.F.= 3
1) 2) 3)
4)
5)
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If I wanted to enlarge a shape by say a Scale Factor = 2 I could draw it anywhere !
I will fix the position of the ‘image’ by using a Centre of Enlargement in the same way that the position of a lens fixes the
position of an image.
xC of E4
Scale Factor = 2
x 2 = 8x
8 7
x 2 = 14x
4.47x 2 = 8.94
x
7.28x 2 = 14.56
x
All of the ‘light rays’ originate from and lead back to the Centre of Enlargement.
If the enlargement is carried out on a grid then you may prefer to ‘count the squares.’
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xC of E
Scale Factor = 2
xx
xx
If the enlargement is carried out on a grid then you may prefer to ‘count the squares.’
4 leftx 2 = 8 left
4 left and 2 downx 2 = 8 left and 4 down
7 leftx 2 = 14 left
7 left and 2 downx 2 = 14 left and 4 down
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To enlarge the rectangle by scale factor x2 from
the point shown.
Centre of Enlargement
Object
A B
CD
Or Count Squares
Image
A/ B/
C/D/
Enlargements from a Given Point
1. Draw the ray lines through vertices.
2. Mark off x2 distances along each line.
3. Draw and label image.
X2
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D
To enlarge the kite by scale factor x3 from the
point shown.
Centre of Enlargement
ObjectA
B
C
Or Count Squares
Image
A/
B/
C/
D/
Enlargements from a Given Point
1. Draw the ray lines through vertices.
2. Mark off x3 distances along lines from C of E.
3. Draw and label image.
X3
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Enlargements from a Given Point
1. Draw the ray lines through vertices.
2. Mark off x4 distances along lines from C of E.
3. Draw and label image.
To enlarge the triangle by scale factor x4 from the
point shown.
Centre of Enlargement
Or Count SquaresObject
A
B
C
Image
C/
A/
B/
X4
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Negative Enlargements from a Given Point
1. Draw ray lines from each vertex through C of E.
2. Mark off x1distances along lines from C of E.
3. Draw and label image.B/
A/
C/
Image
Image is Inverted
D/
D
Centre of Enlargement
AB
CObject
To enlarge the kite by scale factor -1 from the
point shown.
Or Count Squares
-1
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D
Centre of Enlargement
AB
CObject
To enlarge the kite by scale factor -2 from the
point shown.
Or Count Squares
Negative Enlargements from a Given Point
2. Mark off distances x2 along lines from C of E.
3. Draw and label image.
B/
A/
D/
C/
Image
Image is Inverted
1. Draw ray lines from each vertex through C of E.
-2
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Fractional Enlargements from a Given Point
1. Draw ray lines from C of E to each vertex.
2. Mark halfway distances along lines.
3. Draw and label image.
B
A
D
C
Object
Or Count Squares
To enlarge the kite by scale factor x½ from the
point shown.
Centre of Enlargement
A/
B/
D/
C/
Image
½
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Fractional Enlargements from a Given Point
1. Draw ray lines from C of E to each vertex.
2. Mark off 1/3 distances along lines.
3. Draw and label image.
A’ B’
C’D’
Image
BA
D C
Or Count Squares
To enlarge the rectangle by scale factor x1/3 from
the point shown.
Centre of Enlargement
Object
1/3
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To enlarge the rectangle by scale factor x2 from
the point shown.
Centre of Enlargement
Object
A B
CD
Image
A/ B/
C/D/
Enlargements from a Given Point
1. Draw the ray lines through vertices.
2. Mark off x 2 distances along each line.
3. Draw and label image.
No Grid 1
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D
To enlarge the kite by scale factor x3 from the
point shown.
Centre of Enlargement
ObjectA
B
C
Image
A/
B/
C/
D/
Enlargements from a Given Point
1. Draw the ray lines through vertices.
2. Mark off x3 distances along lines from C of E.
3. Draw and label image.
No Grid 2
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Enlargements from a Given Point
1. Draw the ray lines through vertices.
2. Mark off x4 distances along lines from C of E.
3. Draw and label image.
To enlarge the triangle by scale factor x4 from the
point shown.
Centre of Enlargement
ObjectA
B
C
Image
C/
A/
B/
No Grid 3
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Negative Enlargements from a Given Point
1. Draw ray lines from each vertex through C of E.
2. Mark off x1distances along lines from C of E.
3. Draw and label image.B/
A/
C/
Image
Image is Inverted
D/
D
Centre of Enlargement
AB
CObject
To enlarge the kite by scale factor -1 from the
point shown.
No Grid 4
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D
Centre of Enlargement
AB
CObject
To enlarge the kite by scale factor -2 from the
point shown.
Negative Enlargements from a Given Point
2. Mark off distances x2 along lines from C of E.
3. Draw and label image.
B/
A/
D/
C/
Image
Image is Inverted
1. Draw ray lines from each vertex through C of E.
No Grid 5
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Enlargement
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1 up
Enlarge by a scale factor of 2 about the centre of enlargement x.
4 across
2 up3
26
4
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Enlarge by a scale factor of ½ about the centre of enlargement x.
x
6 down
7 across
3 down
3.5 across
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x x
Scale Factor = 3 and centre of origin = x
2.2
2.2 x 3 = 6.6x
1.4
1.4 x 3 = 4.2
x
2.2
2.2 x 3 = 6.6
x
or
1 right and 2 upx 3 = 3 right and 6 up
x
1 right and 1 downx 3 = 3 right and 3 down
x2 right and 1 down
x 3 = 6 right and 3 down
x
ImageObject
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Scale Factor = 2 centre of enlargement = x
x x3.6
3.6 x 2 = 7.2
x
3.2
3.2 x 2 = 6.4x
2.2
2.2 x 2 = 4.4
x
1.4
1.4 x 2 = 2.8x
3 left and 2 upx 2 = 6 left and 4 up
x
3 left and 1 downx 2 = 6 left and 2 down
x
1 right and 2 upx 2 = 2 right and 4 up
x
1 right and 1 downx 2 = 2 right and 2 down
x
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Enlarge the following shapes by the given Scale Factors.
x S.F. = 2
1)
XS.F. = 3
2)
x
S.F. = 2
3) XS.F. = 3
4)
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Fully describe each Enlargement : Give the Scale Factor and the coordinates of the Centre of Enlargement (Each square = 1 unit)
xS.F. = 2
( - 9 , 7 ) y
x
1)
Object
Image
Object
Image
2)
S.F. = 3
x
( 3 , 4 )
3)
Object
Image
S.F. = 4x
( - 4 , - 2 )
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To enlarge a shape on a centimetre grid, simply multiply the lengths by the scale factor.
Hint: You only need to worry about the vertical and horizontal lengths, the diagonals will follow.
2cm
3cm
6cm
9cm
Scale Factor = 3
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To enlarge a shape about a centre of enlargement, draw lines from the centre through the vertices.
Scale Factor = 3
Now measure along the lines three times the original distance from the centre of enlargement to each vertex. This is where the corresponding vertex will appear. Tip: You could use compasses.
Centre of Enlargement
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aa’
Scale Factor = 2
The original vertices should be labeled with normal letters. The corresponding vertices on the image should be labeled with dashed letters.
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Centre of Enlargement
What if the CoE is inside the shape?
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What about if I need to find the centre of enlargement?
0 1 2 3 4 5 6 7 8 9 x
1
98765432
y
We have found the centre of enlargement!
(2, 1)
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Scale Factor = -1
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Enlarge this triangle by a scale factor of 3.
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Enlarge this triangle by a scale factor of 3.
12
X 3
X 33
6
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Enlarge this triangle by a scale factor of 3 using (2, 1) as the centre of enlargement.
2
1
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Enlarge this triangle by a scale factor of 3 using (2, 1) as the centre of enlargement.
2
1
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Enlarge this triangle by a scale factor of 3 using (2, 1) as the centre of enlargement.
2
1
1. Draw lines from the centre of enlargement through the vertices (corners) of the shape.
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Enlarge this triangle by a scale factor of 3 using (2, 1) as the centre of enlargement.
2
1
Draw lines from the centre of enlargement through the vertices (corners) of the shape.
2. Use the lines to find the corners of the enlarged shape
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Enlarge this triangle by a scale factor of 3 using (2, 1) as the centre of enlargement.
2
1
Draw lines from the centre of enlargement through the vertices (corners) of the shape.
Use the lines to find the corners of the enlarged shape
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Scale Factor = -1
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What about if I need to find the centre of enlargement?
0 1 2 3 4 5 6 7 8 9 x
1
98765432
y
We have found the centre of enlargement!
(2, 1)
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Scale Factor = 1/2
x
10.2½ of 10.2 = 5.1
x
16.1½ of 16.1 = 8.05
x
10.2½ of 10.2 = 5.1
x
16.1½ of 16.1 = 8.05
x
Scale factors less than 1 will produce images smaller than their objects.
C of EObject Image
You may prefer to count squares !
xObject
10 left and 2 up½ of 10 left and ½ of 2 up = 5 left and 1 up
x
10 left and 2 down½ of 10 left and ½ of 2 down = 5 left and 1 down
x
16 left and 2 up½ of 16 left and ½ of 2 up = 8 left and 1 up
x
16 left and 2 down½ of 16 left and ½ of 2 down = 8 left and 1 down
xImage
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Enlarge the following shapes by the given Scale Factors.
x
S.F.= 1/2
1)
x
2)
S.F.= 1/4
3)
S.F.= 2/3
x
S.F.= 1 5. x
4)
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Fully describe each Enlargement : Give the Scale Factor and the coordinates of the Centre of Enlargement (Each square = 1 unit)
Object
Image
1)
S.F. = 1/2
C of E at ( - 6 , 0 )x
x
Object
Image
S.F. = 1/3C of E at ( 3 , 2 )
2)
Object
ImageS.F. = 1/4xC of E at ( - 1 , - 1 )3)
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The lens in your eye produces an image using a Negative Scale Factor !
x
Scale Factor = - 2
2.83 x -2 = - 5.66
x2.83 x -2 = - 5.66
x
4.47x -2 = - 8.94
x
Object
Image
As with the other enlargements you could have carried out these negative enlargements by counting squares in the opposite directions.
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Enlarge the following shapes by the given Scale Factors.
x
S.F. = - 2
1)
XS.F. = - 0.5
2)
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Fully describe each Enlargement : Give the Scale Factor and the coordinates of the Centre of Enlargement (Each square = 1 unit)
x
Object
Image
1) Enlargement, Scale Factor = - 3
Centre of Enlargement at ( - 7 , 4 )
x
Object
Image
Enlargement, Scale Factor = - 1/4
2) Centre of Enlargement at ( 5 , - 1 )
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Fractional Enlargements from a Given Point
1. Draw ray lines from C of E to each vertex.
2. Mark halfway distances along lines.
3. Draw and label image.
B
A
D
C
Object
To enlarge the kite by scale factor x½ from the
point shown.
Centre of Enlargement
A/
B/
D/
C/
Image
No Grid 6
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Fractional Enlargements from a Given Point
1. Draw ray lines from C of E to each vertex.
2. Mark off 1/3 distances along lines.
3. Draw and label image.
A’ B’
C’D’
Image
BA
D C
To enlarge the rectangle by scale factor x 1/3 from the point shown.
Centre of Enlargement
Object
No Grid 7
![Page 62: 01/11/20151 All of the ship would remain visible as apparent size diminishes. Whereas on a flat Earth](https://reader037.vdocuments.mx/reader037/viewer/2022110211/56649f125503460f94c255fc/html5/thumbnails/62.jpg)
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To enlarge the rectangle by scale factor x2 from
the point shown.
Centre of Enlargement
Object
A B
CD
Or Count Squares
Enlargements from a Given Point
Worksheet 1
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D
To enlarge the kite by scale factor x3 from the
point shown.
Centre of Enlargement
ObjectA
B
C
Or Count Squares
Enlargements from a Given Point
Worksheet 2
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Enlargements from a Given Point
To enlarge the triangle by scale factor x4 from the
point shown.
Centre of Enlargement
Or Count SquaresObject
A
B
C
Worksheet 3
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Negative Enlargements from a Given Point
D
Centre of Enlargement
AB
CObject
To enlarge the kite by scale factor -1 from the
point shown.
Or Count Squares
Worksheet 4
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D
Centre of Enlargement
AB
CObject
To enlarge the kite by scale factor -2 from the
point shown.
Or Count Squares
Negative Enlargements from a Given Point
Worksheet 5
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Fractional Enlargements from a Given Point
B
A
D
C
Object
Or Count Squares
To enlarge the kite by scale factor x½ from the
point shown.
Centre of Enlargement
Worksheet 6
![Page 68: 01/11/20151 All of the ship would remain visible as apparent size diminishes. Whereas on a flat Earth](https://reader037.vdocuments.mx/reader037/viewer/2022110211/56649f125503460f94c255fc/html5/thumbnails/68.jpg)
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Fractional Enlargements from a Given Point
BA
D C
Or Count Squares
To enlarge the rectangle by scale factor x 1/3 from the point shown.
Centre of Enlargement
Object
Worksheet 7
![Page 69: 01/11/20151 All of the ship would remain visible as apparent size diminishes. Whereas on a flat Earth](https://reader037.vdocuments.mx/reader037/viewer/2022110211/56649f125503460f94c255fc/html5/thumbnails/69.jpg)
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To enlarge the rectangle by scale factor x2 from
the point shown.
Centre of Enlargement
Object
A B
CD
Enlargements from a Given Point
Worksheet 1A
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D
To enlarge the kite by scale factor x3 from the
point shown.
Centre of Enlargement
ObjectA
B
C
Worksheet 2A
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Enlargements from a Given Point
To enlarge the triangle by scale factor x4 from the
point shown.
Centre of Enlargement
ObjectA
B
C
Worksheet 3A
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Negative Enlargements from a Given Point
D
Centre of Enlargement
AB
CObject
To enlarge the kite by scale factor -1 from the
point shown.
Worksheet 4A
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D
Centre of Enlargement
AB
CObject
To enlarge the kite by scale factor -2 from the
point shown.
Worksheet 5A
Negative Enlargements from a Given Point
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B
A
D
C
Object
To enlarge the kite by scale factor x½ from the
point shown.
Centre of Enlargement
Worksheet 6A
Fractional Enlargements from a Given Point
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Fractional Enlargements from a Given Point
BA
D C
To enlarge the kite by scale factor x 1/3 from
the point shown.
Centre of Enlargement
Object
Worksheet 7A
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The small rectangle has been enlarged as shown.
Find the centre of enlargement.
Object
A
CD
Image
A/ B/
C/D/
Finding the Centre of Enlargement
B
Draw 2 ray lines through corresponding vertices to locate.
Centre of Enlargement
Find Centre 1
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B/
A/
D/
C/
Image
D
AB
CObject
The small kite has been enlarged as shown. Find
the centre of enlargement.
Finding the Centre of Enlargement
Centre of Enlargement
Draw 2 ray lines through corresponding vertices to locate.
Find Centre 2
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Finding the Centre of Enlargement.
B
A
D
C
Object
The large kite has been enlarged by scale
factor x ½ as shown. Find the centre of
enlargement.
A/
B/
D/
C/
Image
Draw 2 ray lines through corresponding vertices to locate.
Centre of Enlargement
Find Centre 3
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The small rectangle has been enlarged as shown.
Find the centre of enlargement.
Object
A
CD
Image
A/ B/
C/D/
Finding the Centre of Enlargement
B
Worksheet 8
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B/
A/
D/
C/
Image
D
AB
CObject
The small kite has been enlarged as shown. Find
the centre of enlargement.
Finding the Centre of Enlargement
Worksheet 9
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Finding the Centre of Enlargement.
B
A
D
C
Object
The large kite has been enlarged by scale
factor x ½ as shown. Find the centre of
enlargement.
B/
A/
D/
C/
Image
Workshheet 10
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The small rectangle has been enlarged as shown.
Find the centre of enlargement.
Object
A
CD
Image
A/ B/
C/D/
Finding the Centre of Enlargement
B
Worksheet 8A
![Page 83: 01/11/20151 All of the ship would remain visible as apparent size diminishes. Whereas on a flat Earth](https://reader037.vdocuments.mx/reader037/viewer/2022110211/56649f125503460f94c255fc/html5/thumbnails/83.jpg)
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B/
A/
D/
C/
Image
D
AB
CObject
The small kite has been enlarged as shown. Find
the centre of enlargement.
Finding the Centre of Enlargement
Worksheet 9A
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Finding the Centre of Enlargement.
B
A
D
C
Object
The large kite has been enlarged by scale
factor x ½ as shown. Find the centre of
enlargement.
A/
B/
D/
C/
Image
Workshheet 10A
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Enlargement
AA’
Shape A’ is an enlargement of shape A.
The length of each side in shape A’ is 2 × the length of each side in shape A.
We say that shape A has been enlarged by scale factor 2.
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EnlargementWhen a shape is enlarged the ratios of any length in the image over the corresponding lengths in the original shape (the object) is equal to the scale factor.
A
B
C
A’
B’
C’
= B’C’BC
= A’C’AC
= the scale factorA’B’AB
4 cm6 cm
8 cm
9 cm6 cm
12 cm
64
= 128
= 96
= 1.5
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Congruence and similarityIs an enlargement congruent to the
original object?
Remember, if two shapes are congruent they are the same shape and size. Corresponding lengths and angles are equal.
In an enlarged shape the corresponding angles are the same but the lengths are different. The object and its image are similar.
Reflections, rotations and translations produce images that are congruent to the original shape.
Enlargements produce images that are similar to the original shape.
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Enlargement
AA’
Shape A’ is an enlargement of shape A.
The length of each side in shape A’ is 2 × the length of each side in shape A.
We say that shape A has been enlarged by scale factor 2.
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EnlargementWhen a shape is enlarged the ratios of any length in the image over the corresponding lengths in the original shape (the object) is equal to the scale factor.
A
B
C
A’
B’
C’
= B’C’BC
= A’C’AC
= the scale factorA’B’AB
4 cm6 cm
8 cm
9 cm6 cm
12 cm
64
= 128
= 96
= 1.5
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Find the scale factor
A
A’
Scale factor = 3
What is the scale factor for the following enlargements?
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Find the scale factorWhat is the scale factor for the following enlargements?
Scale factor = 2
B
B’
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Find the scale factor
Scale factor = 3.5
C
C’
What is the scale factor for the following enlargements?
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Find the scale factor
Scale factor = 0.5
D
D’
What is the scale factor for the following enlargements?
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Find the scale factor
A
A’
Scale factor = 3
What is the scale factor for the following enlargements?
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Find the scale factorWhat is the scale factor for the following enlargements?
Scale factor = 2
B
B’
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Find the scale factor
Scale factor = 3.5
C
C’
What is the scale factor for the following enlargements?
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Find the scale factor
Scale factor = 0.5
D
D’
What is the scale factor for the following enlargements?
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Scale factors between 0 and 1What happens when the scale factor for
an enlargement is between 1 and 0?
When the scale factor is between 1 and 0, the enlargement will be smaller than the original object.
Although there is a reduction in size, the transformation is still called an enlargement.
For example,
EE’
Scale factor = 23
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The centre of enlargementTo define an enlargement we must be given a scale factor and a centre of enlargement.
For example, enlarge triangle ABC by a scale factor of 2 from the centre of enlargement O.
O
A
CB
OA’OA
= OB’OB
= OC’OC
= 2
A’
C’B’
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The centre of enlargementEnlarge quadrilateral ABCD by a scale factor of from the centre of enlargement O.
O
DA
B C
OA’OA
= OB’OB
= OC’OC
= OD’OE
A’ D’
B’C’
13
= 13
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This example shows the shape ABCD enlarged by a scale factor of –2 about the centre of enlargement O.
O
A
B
CD
Negative scale factorsWhen the scale factor is negative the enlargement is on the opposite side of the centre of enlargement.
A’
D’
B’
C’
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Inverse enlargementsAn inverse enlargement maps the image that has been enlarged back onto the original object.
What is the inverse of an enlargement of 0.2 from the point (1, 3)?
In general, the inverse of an enlargement with a scale factor k is an enlargement with a scale factor from the same centre of enlargement.
1k
The inverse of an enlargement of 0.2 from the point (1, 3) is an enlargement of 5 from the point (1, 3).
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Enlargement on a coordinate grid
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Finding the centre of enlargementFind the centre the enlargement of A onto A’.
A A’
This is the centre of
enlargement
Draw lines from any two vertices to their images.
Extend the lines until they meet at a point.
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Finding the centre of enlargementFind the centre the enlargement of A onto A’.
AA’
Draw lines from any two vertices to their images.
When the enlargement is negative the centre of enlargement is at the point where the lines intersect.
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Describing enlargements
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4
2
2
1
For shapes to be similar they must :
1) Have identical angles.
2) Have their sides in the same proportion.
4
2
= 2
2
1
= 2
Two shapes are said to be SIMILAR when one is an ENLARGEMENT of the other.
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Match up the PAIRS of Similar Shapes.
Rectangles NOT drawn to scale.1)
2)
3) 4) 5)
6) 7)8)
6
3
8
4
15
3
2
10
15
10
3
2
4
14
2
7
6 ÷ 3 = 2
8 ÷ 4 = 2
3 ÷ 2 = 1.5
15 ÷ 10 = 1.5
10 ÷ 2 = 5
15 ÷ 3 = 5
14 ÷ 4 = 3.5
7 ÷ 2 = 3.5
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For 2 Triangles to be Similar to each other you only need to check whether or not they have the same angles.
If their angles are the same then their sides will automatically be in the same proportions.
400
400
500
500
Same angles so automatically Similar Triangles.
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Match up the PAIRS of Similar Triangles.
Triangles NOT drawn to scale.
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40°80°
40°60°
30°
1) 2)
3)4)
5) 6)
7)
8)
60°
60°
70°
20°
20°
60°70°
60°
50°
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10 cm
15 cm
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x cm
30 cm
Bob decides to enlarge a poster of himself.
How wide will the enlargement be ?x
30
=10
15
30 × × 30
x = 10 × 30
15
x = 300 15
x = 20 cm
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Bob’s work rival decides to reduce the poster so that it is only 3 cm wide. How long will it be ?
x cm
3 cm
20 cm
30 cmx
3
=
30
203 × × 3
x = 30 × 320
x = 9020
x = 4.5 cm
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Calculate the missing lengths.
{ Each pair of shapes are similar }
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x3
15
9
x
812
10
x8
15
9
5 8x 14
x
2015
9
17 x
8
6 45
130°130°115°
115°
1) 2)
3)4)
5) 6)
5 9.6
16.875
8.75
17.647
12
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How high is the church spire ?
1) Hammer a stick into the ground.
2) Line up the top of the stick with the top of the spire. {You will need to put your eye to the ground}
3) We now have 2 Similar Triangles because …
ParallelCommon to both triangles
Both are Right Angles
Corresponding Angles
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How high is the church spire ?
4) Measure the height of the stick.
2 m
5) Measure the distances from the ‘eye’ to the stick and the ‘eye’ to the church.
4 m50 m
6) Let the height of the spire be called x.
x
7) You may well find it easier seeing them as two separate triangles
x
50
=
2
4
50 × × 50
x = 2 × 504
x = 25 m
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Calculate the missing lengths x
x
x
xx
7
65
15
11
18
17
9
14
5 20
12
6 18
16
1) 2)
3)4)
5.83 9.17
11.7
10.8
Harder Problems
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Calculate the missing lengths x
>
>>
>
>
>
x
6
20
5
3x
3
4
12
5x
8
310
6
1) 2)
3)4)A B
C
DE
Prove that triangles ABC and CDE in question 3 are similar.
12.5 1.5
26.7
ACB = DCE (Vertically opposite angles)
CDE = BAC (Alternate angles)
CED = ABC (Alternate angles)
^ ^^ ^^ ^
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Each rectangle is enlarged using a Scale Factor = 2
Diagrams not drawn to scale.
1
2
23
5
6
710
2
4
4
6
10
12
14
20
Work out the Areas of each of the rectangles
S.F. = 2
1 × 2 = 2 2 × 4 = 8
2 × 3 = 6 4 × 6 = 24
5 × 6 = 30 10 × 12 = 120
7 × 10 = 70 14 × 20 = 280
In each case how has the Area increased ?
2 8
6 24
30 120
70 280
× 4
× 4
× 4
× 4
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Each rectangle is enlarged using a Scale Factor = 3
Diagrams not drawn to scale.
1
2
23
5
6
710
3
6
6
9
15
18
21
30
Work out the Areas of each of the rectangles
S.F. = 3
1 × 2 = 2 3 × 6 = 18
2 × 3 = 6 6 × 9 = 54
5 × 6 = 30 15 × 18 = 270
7 × 10 = 70 21 × 30 = 630
In each case how has the Area increased ?
2 18
6 54
30 270
70 630
× 9
× 9
× 9
× 9
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Each rectangle is enlarged using a Scale Factor = 4
Diagrams not drawn to scale.
1
2
23
5
6
710
4
8
8
12
20
24
28
40
Work out the Areas of each of the rectangles
S.F. = 4
1 × 2 = 2 4 × 8 = 32
2 × 3 = 6 8 × 12 = 96
5 × 6 = 30 20 × 24 = 480
7 × 10 = 70 28 × 40 = 1120
In each case how has the Area increased ?
2 32
6 96
30 480
70 1120
× 16
× 16
× 16
× 16
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What is the connection between the Scale Factor and the increase in Area ?
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Scale Factor Increase in Area
( Area multiplier )
2 × 4
3 × 9
4 × 16
( Scale Factor )2 = Increase in Area
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Example 1
Area = 8 cm2
Area = ?
5 cm 15 cmS.F. = 15 ÷ 5 = 3
( Scale Factor )2 = Area multiplier
32 = 9 times
New Area = 8 × 9
= 72 cm2
Example 2 ( Scale Factor )2 = Area multiplier
4 cm x
Area =
10 cm2 Area = 250 cm2
Area multiplier = 250 ÷ 10
= 25 times
Scale Factor = Area multiplierS.F. = 25S.F. = 5
New base : 4 × 5 = 20 cm
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Work out the following : {All of the shapes are Similar}
Area
= 6 cm2
Area = ?
2 cm 8 cm
Area = ?Area
= 45 cm2
12 cm4 cm
Area
= 180 m2Area
= 20 m2
x 5 m 16 m x
Area
= 100 m2Area
= 25 m2
1) 2)
3) 4)
96 cm2 5 cm2
15 m
8 m
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Each CUBOID is enlarged using a Scale Factor = 2
Diagrams not drawn to scale.S.F. = 2
211
12
3
2
2
32
34
2
2
42
4
64
4
64
6
8
Work out the Volume of each cuboid.
1 × 1 × 2
= 2
2 × 2 × 4
= 16
1 × 2 × 3
= 6
2 × 4 × 6
= 48
2 × 2 × 3
= 12
4 × 4 × 6
= 96
2 × 3 × 4
= 24
4 × 6 × 8
= 192
In each case how has the Volume increased ?
2 16
6 48
12 96
24 192
× 8
× 8
× 8
× 8
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Each CUBOID is enlarged using a Scale Factor = 3
Diagrams not drawn to scale.S.F. = 3
211
12
3
2
2
32
34
3
3
63
6
96
6
96
9
12
Work out the Volume of each cuboid.
1 × 1 × 2
= 2
3 × 3 × 6
= 54
1 × 2 × 3
= 6
3 × 6 × 9
= 162
2 × 2 × 3
= 12
6 × 6 × 9
= 324
2 × 3 × 4
= 24
6 × 9 × 12
= 648
In each case how has the Volume increased ?
2 54
6 162
12 324
24 648
× 27
× 27
× 27
× 27
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Each CUBOID is enlarged using a Scale Factor = 4
Diagrams not drawn to scale.S.F. = 4
211
12
3
2
2
32
34
4
4
84
8
128
8
128
12
16
Work out the Volume of each cuboid.
1 × 1 × 2
= 2
4 × 4 × 8
= 128
1 × 2 × 3
= 6
4 × 8 × 12
= 384
2 × 2 × 3
= 12
8 × 8 × 12
= 768
2 × 3 × 4
= 24
8 × 12 × 16
= 1536
In each case how has the Volume increased ?
2 128
6 384
12 768
24 1536
× 64
× 64
× 64
× 64
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What is the connection between the Scale Factor and the increase in
Volume ?
Menu
Scale Factor Increase in Volume
( Volume multiplier )
2 × 8
3 × 27
4 × 64
( Scale Factor )3 = Increase in Volume
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( Scale Factor )3 = Volume multiplier
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Example 1
Example 2
Volume
= 50 m3
Volume
= ?5 m 10 m
Scale Factor = 2
23 = 8 times
New Volume = 50 × 8
= 400 m3
( Scale Factor )3 = Volume multiplier
Volume
= 20 m3
Volume
= 540 m3
4 m x
Volume multiplier = 540 ÷ 20
= 27 times
Scale Factor = Volume Multiplier3
S.F. = 273
S.F. = 3New width : 4 × 3 = 12 m
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Work out the following : {All of the shapes are Similar}
Volume
= 15 m36
12 Volume
= ?Volume
= 3750 m3Volume
= ?
420
Volume
= 40 m3Volume
= 1080 m3
6x x
36Volume
= 200 m3
Volume
= 12800 m3
1) 2)
3) 4)
120 m3 30 m3
18 m9 m
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Shapes are said to be CONGRUENT when they have the same angles and their sides are the same length.
They are identical.
They would fit perfectly over each other.
80°
100°
70°
110° 70° 80°
110° 100° 100°
110°
80°
70°
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For Triangles to be CONGRUENT ( hence identical ) they have to fulfil one of four conditions :
1) If their sides are all the same length then the triangles are identical ( Congruent ).
Side Side Side S.S.S
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For Triangles to be CONGRUENT ( hence identical ) they have to fulfil one of four conditions :
2) If 2 of their sides are the same length and their INCLUDED angles are the same then the triangles are identical ( Congruent ).
Side Angle Side S.A.S
40° 40°
The INCLUDED angle lies between the 2 pairs of equal length sides.
40° 40°
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For Triangles to be CONGRUENT ( hence identical ) they have to fulfil one of four conditions :
3) If 2 of their angles are the same and also 1 of their corresponding sides are the same
then the triangles are identical ( Congruent ).
Angle Angle Side A.A.S
40° 40° 70°70°
A corresponding side lies opposite to one of the identical angles.
OR
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For Triangles to be CONGRUENT ( hence identical ) they have to fulfil one of four conditions :
4) If they both have Right angles, they both have the same Hypotenuse and one other side is
the same length then the triangles are identical ( Congruent ).
Right angle Hypotenuse Side R.H.S
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OR
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Summary of conditions for Congruent Triangles.
Side Side Side S.S.S Side Angle Side S.A.S
Angle Angle Side A.A.S
Hypotenuse
Hypotenuse
Right angle Hypotenuse Side R.H.S
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Which triangles are Congruent to the RED triangle. You must give reasons. ie SSS, AAS, SAS, RHS
Triangles not drawn to scale.
15
9.8 13.280°
60° 40°60° 40°
9.8
13.2
80°
15
15
9.8
13.240°
13.2
15
80° 40°
9.8
1)
2) 3)
4)
5)
A.A.S
S.S.S
6)80°
60° 40°
S.A.S
R.H.S problems
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Which triangles are Congruent to the RED triangle. You must give reasons. ie SSS, AAS, SAS, RHS
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Triangles not drawn to scale.
3
45
53°
537°
A.A.S
53
R.H.S
53°
5337°
3
5 53° 53 S.A.S or
R.H.S or
A.A.S
37°
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Enlargement
• Transforms a shape using– A Centre of Enlargement– A Scale Factor
• Exam questions sometimes involve enlargements on an x,y grid
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Draw a 3 times enlargement of this shape
2
2
1
6
6
3
DIAGONAL lines are best drawn LAST
A shape we change is called an OBJECT
This OBJECT was enlarged with a SCALE FACTOR of 3
The shape it becomes is called the IMAGE
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20/04/23 1471 2 3 4 5 6 7 8 9 10 11 12 13 14
10
9
8
7
6
5
4
3
2
1
0
USING A CENTRE OF ENLARGEMENT
Enlarge Triangle by scale factor 2With Centre of Enlargement (0,0)
x
Move one VERTEX at a time
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After Scale factor 2 Enlargement, how manyTimes will OBJECT fit inside its IMAGE?