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or vertically upwards. 4. 5. This is ... What will they be if it is translated 2 units upwards? ... What would they be if we translated it 3 units upwards? ... – PowerPoint PPT presentation

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Title: Year%205%20Term%203%20Unit%208


1
Year 5 Term 3 Unit 8
  • Day 1

2
  • L.O.1
  • To be able to visualise and name polygons

3
  • 1. I am thinking of a plane shape.
  • It has three sides.
  • Two of the sides are equal in length.
  • What is it?

4
  • 2. I am thinking of a plane shape.
  • It has six sides.
  • The six angles are not the same.
  • What is it?

5
  • 3. I am thinking of a plane shape.
  • It has four sides.
  • Opposite sides are equal in length.
  • What is it?

6
  • 4. I am thinking of a plane shape.
  • It has five sides.
  • All the angles are equal.
  • What is it?

7
  • 5. I am thinking of a plane shape.
  • It has three sides.
  • None of the sides is equal in length.
  • What is it?

8
  • Now its your turn. Work with a
    partner.
  • Choose a shape and select two clues about
    it .
  • Be ready to tell the rest of the class your
    clues.
  • They will try to guess the shape youve
    chosen.

9
  • L.O.2
  • To be able to recognise where a shape
  • will be after translation.
  • To be able to make shapes with increasing
  • accuracy.

10
  • .

1
2
I have placed a shape on the screen then moved it
to the right.
Q. What is the special name for this type of
movement?
11
  • This is called a TRANSLATION

2
3
I can move the shape downwards
12
  • This is called a TRANSLATION

..or horizontally to the left.
3
4
13
  • This is called a TRANSLATION

5
..or vertically upwards.
4
14
  • This is called a TRANSLATION

Q. How can we determine how far in each direction
the shape has been translated?
5
4
15
  • We could use a numbered grid.

16
What are the co-ordinates of the triangle?
What will they be if it is translated 2 units
upwards?
17
What are the co-ordinates of the triangle?
(2,3) (4,1) (5,3)
What will they be if it is translated 2 units
upwards? (2,5) (4,3) (5,5)
18
  • We are going to translate some
    more shapes.
  • Think carefully about
  • what changes when a shape is translated
  • what remains the same.

19
What are the co-ordinates of the rectangle? What
will they be if we translate it 3 units to the
right?
20
What are the co-ordinates of the rectangle? (1,5)
(1,7) (3,7) (3,5) What will they be if we
translate it 3 units to the right? (4,5) (4,7)
(6,7) (6,5)
21
  • .

What are the co-ordinates of the pentagon? What
would they be if we translate it 4 units
downwards ?
22
  • .

What are the co-ordinates of the pentagon? (4,5)
(4,6) (6,8) (8,6) (8,5) What would they be if we
translate it 4 units downwards ? (4,1) (4,2)
(6,4) (8,2) (8,1)
23
What are the co-ordinates of the rhombus? What
would they be if we translated it 3 units upwards?
24
What are the co-ordinates of the rhombus? (2,3)
(4,5) (6,3) (4,1) What would they be if we
translated it 3 units upwards? (2,6) (4,8) (6,6)
(4,4)
25
  • ??? QUESTION ???
  • What changes when a shape is
    translated?
  • What remains the same?

26
  • When a shape is translated the
  • POSITION
  • changes
  • but
  • SIZE and SHAPE
  • remain the same.

27
  • You are going to do Activity sheet 8.1
  • Record your working in your book.

28
  • .

29
  • .

1a. co-ordinates are (2,3) (2,4) (4,4)
(4,3) NEW co-ordinates are (2,0) (2,1) (4,1)
(4,0)
30
  • .

1b. co-ordinates are (1,1) (2,4) (3,2) NEW
co-ordinates are (3,3) (4,4) (5,2)
31
  • .

1c. co-ordinates are (3,1) (3,4) (5,4)
(5,2) NEW co-ordinates are (1,2) (1,5) (3,5)
(3,3)
32
  • .

Isosceles triangle. co-ordinates are (2,8)
(2,10) (5,9) NEW co-ordinates are (6,8)
(6,10) (9,9)
33
  • .

Square. co-ordinates are (4,5) (4,7) (6,7)
(6,5) NEW co-ordinates are (1,5) (1,7) (3,5)
(3,7)
34
  • .

Rectangle. co-ordinates are (1,1) (1,2) (4,2)
(4,1) NEW co-ordinates are (1,3) (1,4) (4,4)
(4,3)
35
  • .

Right-angled triangle. co-ordinates are (6,1)
(8,4) (8,1) NEW co-ordinates are (4,2) (6,5)
(6,2)
36
  • Q. Are the two shapes in each of your
  • examples congruent? How do you know?

37
  • If the two shapes are
  • IDENTICAL
  • in all but their POSITION
  • they are
  • CONGRUENT

38
  • By the end of the lesson the children should be
    able to
  • Draw the position of a shape after one
    translation
  • Draw 2-D shapes by plotting points on a
    numbered grid and joining them together
    accurately.

39
Year 5 Term 3 Unit 8
  • Day 2

40
  • L.O.1
  • To be able to classify 2-D shapes according to
    their properties

41
  • .

I am thinking of a rule. If a shape meets
the rule it can go into the circle.
42
  • .

A shape meets the rule so it can go into the
circle. Q. What could the rule be?
Well
write your suggestions on the board.
43
  • .

Another shape meets the rule so it can go into
the circle. What could the rule be now? Which
of your suggestions could still be possible?
44
  • .

Another shape meets the rule so it can go into
the circle. What could the rule be now? Which
of your rules could still be possible?
45
  • Q. Are there any other shapes which could be
    placed in the circle using the same rule?

46
  • .

Another shape meets the rule so it can go into
the circle. What could the rule be now?
47
  • The rule was simply
  • any shape with four sides.

48
  • .

One of YOU is thinking of a rule. If a shape
meets the rule it can go into the circle. Well
tick the shapes which can go in as we identify
them.
49
  • L.O.2
  • To be able to make shapes with increasing
    accuracy
  • To recognise reflective symmetry in regular
    polygons
  • To make and investigate a general statement
    about familiar shapes by finding examples that
    satisfy it.

50
  • .

Q. What could be the rule for this set of shapes?
51
  • The rule is
  • have no lines / axes of symmetry.
  • Q. What rule would be appropriate for all the
    other shapes?

52
  • The rule for all the other shapes is
  • is symmetrical
  • or
  • has at least one line / axis of symmetry

53
  • A line of symmetry divides a 2-D shape into
    congruent halves, each half being a reflection of
    the other.

54
  • How many lines of symmetry are there
  • in a square?

55
  • There are four axes of symmetry.

56
  • How many lines of symmetry are there in an
    equilateral triangle?

57
  • There are three.
  • Each axis of symmetry divides an angle and
    its opposite side in half.

58
  • Copy this table neatly into your books..
  • .. Leave space underneath to extend
    it!

Number of axes of symmetry
Regular shape
3
Equilateral triangle
4
Square
Q. Can anyone see a relationship between the
shape and the number of axes of symmetry?
59
  • True or False?
  • The number of axes of symmetry is equal to the
    number of sides and the number of angles.
  • Q. Do you think this is true of every regular
    polygon? How could we find out?

60
  • You are going to test this theory by
    checking examples.
  • You are going to do Activity sheet 8.2
  • - NEATLY! -

61
(No Transcript)
62
  • Q. What have you discovered about the number
    of axes of symmetry in regular polygons?

63
  • The number of axes of symmetry
  • in a regular polygon
  • is equal to the number of sides.

64
  • Q. What are the properties of regular
    polygons?
  • 1.
  • 2.
  • 3.
  • etcetera

65
  • Q. What are the properties of regular
    polygons?
  • 1. All angles are equal. THIS IS ESSENTIAL
  • 2. All sides are equal. THIS IS ESSENTIAL
  • 3. The number of lines of symmetry is equal to
    the number of sides.
  • etcetera

66
  • .

Q. Is this rectangle a regular polygon? How do
you know?
67
  • .

It is not regular because the sides are not all
equal and there are only two axes of symmetry,
not four!
68
  • By the end of the lesson the children should be
    able to
  • Recognise the number of axes of reflective
    symmetry in regular polygons and know that the
    number is equal to the number of sides
  • Find examples that match a general statement
  • Draw 2-D shapes with accuracy.

69
Year 5 Term 3 Unit 8
  • Day 3

70
  • L.O.1
  • To be able to read and write whole numbers and
    know what each digit represents.

71
  • 5 364 827
  • We are going to read this number all together.

72
  • Q. What is the value of the following digits?
  • 5 364 827
  • The three
  • The eight
  • The five
  • The two
  • The four
  • The six

73
  • 5 364 827
  • Beginning each time with the number above show
    answers to the following
  • Add thirty
  • Subtract twenty thousand
  • Add four
  • Subtract two thousand
  • Add six hundred thousand
  • Subtract ninety
  • Add five hundred
  • Subtract eighty thousand

74
  • 5 364 827
  • What would we need to add to the number above to
    make
  • 5 364 900
  • 5 370 827
  • 5 664 827
  • What would we need to subtract to leave
  • 5 100 000
  • 4 364 000
  • 5 000 802

75
  • 5 364 827
  • Now its your turn to think of a question
  • that involves adding or subtracting
  • to make a new number.

76
  • L.O.2
  • To be able to recognise where a shape will be
    after reflection in a mirror line parallel to one
    side.

77
  • Q. What will the reflection of this shape look
    like?
  • ....volunteer needed !

mirror line
78
  • Remember
  • The image and the original shape are congruent.
  • The reflection is a reversal of the original.
  • The two shapes will touch each other at the
    mirror line.

mirror line
79
  • mirror line

Volunteer!
80
  • Remember
  • The mirror should be
  • exactly half way
  • between the shape and its reflection.

81
  • mirror line

Volunteer!
82
  • mirror line

Volunteer!
83
  • Work with a partner.
  • Each of you carefully draw a four-sided shape
    in your book.
  • Draw a mirror line then pass your book
  • to your partner to draw the reflection.
  • - BE ACCURATE -

84
  • You are now going to do Activity sheet 8.3.
  • When you have drawn all the images use a
  • mirror to check the reflected shape.
  • Remember
  • Congruency reversal equi-distance

85
(No Transcript)
86
  • Now complete the first cloud question on
  • Self-assessment sheet 8.1

87
  • .

88
  • By the end of the lesson the children
    should be able to
  • Sketch the reflection of a simple shape in a
    mirror line parallel to one edge, where the
    edges of the shapes are not all parallel or
    perpendicular to the mirror line
  • Extend puzzles or problems involving
    exploring different alternatives (What if?)

89
Year 5 Term 3 Unit 8
  • Day 4

90
  • L.O.1
  • To be able to recall multiplication facts for the
    8 times table and derive related multiplication
    and division facts.

91
  • .

We are going to recite the 8 times table.
  • 1
  • 10 2
  • 9 3
  • 8 4
  • 7 5
  • 6

x 8
92
  • .

What is 4 multiplied by 8 ?
  • 1
  • 10 2
  • 9 3
  • 8 4
  • 7 5
  • 6

x 8
93
  • .

4 x 8 32
  • 1
  • 10 2
  • 9 3
  • 8 4
  • 7 5
  • 6

x 8
4 x 8 32
94
  • .

What division fact involving 8 can you give me?
  • 1
  • 10 2
  • 9 3
  • 8 4
  • 7 5
  • 6

x 8
4 x 8 32
95
  • .

What division fact involving 8 can you give me?
  • 1
  • 10 2
  • 9 3
  • 8 4
  • 7 5
  • 6

x 8
4 x 8 32 4 32 8
96
  • .

We will continue the 8 x table on this screen!
  • 1
  • 10 2
  • 9 3
  • 8 4
  • 7 5
  • 6

x 8
4 x 8 32 4 32 8
97
  • .

We are going to recite the 80 times table.
  • 1
  • 10 2
  • 9 3
  • 8 4
  • 7 5
  • 6

x 80
98
  • .

What is 4 multiplied by 80? What division fact
involving 80 can you give me?
  • 1
  • 10 2
  • 9 3
  • 8 4
  • 7 5
  • 6

x 80
99
  • .

4 x 80 320
  • 1
  • 10 2
  • 9 3
  • 8 4
  • 7 5
  • 6

x 80
4 x 80 320
100
  • .

4 320 80
  • 1
  • 10 2
  • 9 3
  • 8 4
  • 7 5
  • 6

x 80
4 x 80 320 4 320 80
101
  • .

We will continue the 80 x table on this screen.
  • 1
  • 10 2
  • 9 3
  • 8 4
  • 7 5
  • 6

x 80
4 x 80 320 4 320 80
102
  • Remember
  • Knowing the 8x table helps us know the 80x
    table and associated division facts.

103
  • L.O.2
  • To be able to complete
  • symmetrical patterns with vertical and
  • horizontal lines of symmetry

104
  • .

The grid shows two axes (mirror lines) and four
quadrants. Q. Where will the image of the
square be if we reflect it in the horizontal axis?
105
  • .

Q. Where will the image of the square be if we
reflect it in the vertical axis?
106
We can reflect an image in all four
quadrants. The pattern will be symmetrical and
the squares will be equi-distant from the axes of
symmetry. continue..
107
We can reflect an image in all four
quadrants. The pattern will be symmetrical and
the squares will be equi-distant from the axes of
symmetry.
108
We can reflect an image in all four
quadrants. The pattern will be symmetrical and
the squares will be equi-distant from the axes of
symmetry.
109
We can reflect an image in all four
quadrants. The pattern will be symmetrical and
the squares will be equi-distant from the axes of
symmetry.
110
  • You are going to do Activity sheet 8.4 with
    a partner. Each of you is to choose one quadrant
    and make a shape using up to 20 squares.
  • NO COLOURED PENCILS!
  • Your partner will then draw the reflection of
    the shape in the other 3 quadrants.
  • Use a mirror to check the reflections.
  • Be prepared to show your pattern to the class!

111
  • Its time for the picture gallery
  • Q. Does it matter in which of your four quadrants
    you start your shape?

112
  • .

Q. How can we reflect this hexagon in the two
axes? ..volunteers!
113
  • .

As the hexagon crosses the vertical axis there
are two reflected shapes.
114
  • Homework
  • Use Activity sheet 8.4 at home and, starting
    with a shape which crosses an axis of symmetry,
    complete the symmetric pattern formed by
    reflecting the shape in both of the axes.

115
  • Extension work
  • (for your partner to complete)
  • Use coloured pencils to make another shape.
  • Draw a shape which crosses two axes.

116
  • By the end of the lesson the children should
    be able to
  • Complete symmetrical patterns on
    squared paper with a horizontal or
    vertical line of symmetry
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