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Maths the Modern Way!!

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Maths the Modern Way!! Multiplication and Division St Teresa s Primary School Paul Hargreaves Primary Strategy Consultant Mathematics Essex County Council – PowerPoint PPT presentation

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Title: Maths the Modern Way!!

1
Maths the Modern Way!!

Multiplication and Division
St Teresas Primary School
Paul Hargreaves
Primary Strategy Consultant Mathematics
Essex County Council

2
Mental Starter Bunny Ears
3
Total Recall!

Select pairs of numbers from the target board on
your table. Add these using one of the methods
from last session. Will you use a number line?
Will
you partition and add mentally? Do you need to
make jottings?
BE BRAVE try to avoid using the standard
method!
Now try with three numbers! Or try pairs of
numbers and carry out a subtraction!

4
The Primary National Strategy

Basis of teaching since 1999 based on extensive
research and proven success
Daily entitlement to maths lesson
Key features
Progression carefully set out
Interactivity use of models, images, games,
practical activities
Focus on mental skills as well as written
Vocabulary, problem solving, communication,
explanation and reasoning

5
There is no right way to work!!

Children exposed to a range of methods.
Methods selected will depend upon the situation
and the numbers involved, including when to use
calculators.
Children make decisions about methods and draw on
a range of strategies and approaches when
applying Maths is context.
Children in same class could be using different
methods to others depending on their ability,
confidence and stage of mathematical development.

6
Describing Shapes
7
The Importance of Vocabulary

Key to success in mathematics
Can be confusion between school and home
Children need opportunities in class and in
homework to use mathematical vocabulary games,
collaborative work, open ended investigations

8
Mathematical Vocabulary Booklet

Guide to which words and phrases are introduced
to each year group
Schools many make decisions regarding vocabulary
It is not a checklist
Check with children and teachers if there are
unfamiliar words

9
Multiplication

Calculate the answer to this
5 6
x 3

10
Did you do this?

5 6
x 3
1 6 8
1

Or did you use a mental method?Why did you
choose the method you used?
11
Repeated Addition (Year 2/3)

5 added to 5 added to 5
5 5 5
3 lots of 5
5 x 3
3 x 5
Lots of practical experiences and use of number
lines. Children will begin to use x and signs.

12
Multiplication as an Array
2 x 4 8 4 lots of 2 8
4 x 2 8 2 lots of 4 8
Arrays are quite common ice cube trays, egg
boxes, chocolate boxes, medicine wrapping, tiles
etc.
13
Multiplication by 10

7 x 10 70

14
Multiplication by 10

7 x 10 70

15
Multiplication by 10

7 x 10 70
BUT WE DIDNT JUST ADD A 0!

16
Multiplication by 10

7 x 10 70
BUT WE DIDNT JUST ADD A 0!
7
7.0
Both of these numbers are worth the same!
7 add a 0 is 7 0 7
We havent multiplied here!

17
Multiplication by 10

H T U

18
Multiplication by 10

H T U
7

19
Multiplication by 10

H T U
7
7

20
Multiplication by 10

H T U
7
7 0

21
Partitioning

15 x 5

22
Partitioning
This is 10 x 5 and 5 x 5 added together. 10 x 5
50 5 x 5 25 50 25 75

15 x 5

23
Partitioning

36 x 4

24
Partitioning

36 x 4

36 x 4 is 30 x 4 and 6 x 4 added together. I know
that 30 is three lots of 10, so 30 x 4 is 10 x 4
added to 10 x 4 added to 10 x 4. 10 x 4 40 10 x
4 40 10 x 4 40 6 x 4 24 40 40 40 24
144
25
Partitioning

36 x 4

36 x 4 is 30 x 4 added to 6 x 4 I know that 30 x
4 is 10 times bigger than 3 x 4 3 x 4 12, so 30
x 4 120 6 x 4 24 120 24 144
26
Grid Method

23 x 8

27
Grid Method

23 x 8

20
3
x
8
28
Grid Method

23 x 8

20
3
x
160
8
29
Grid Method

23 x 8

20
3
x
160
24
8
30
Grid Method

23 x 8

20
3
x
160
24
160
24
8
184
31
Have a Go!!

26 x 5
32 x 4

32
Grid Method

26 x 5

20
6
x
100
30
100
30
5
130
33
Grid Method

32 x 4

30
2
x
120
8
120
8
4
128
34
Grid Method

346 x 4

x
300
40
6
4
35
Grid Method

346 x 4

x
300
40
6
4
1200
36
Grid Method

346 x 4

x
300
40
6
4
1200
160
37
Grid Method

346 x 4

x
300
40
6
4
24
160
1200
38
Grid Method

346 x 4

x
300
40
6
1200
160
4
24
160
1200
24
1384
39
Grid Method

72 x 38

70
2
x
30
8
40
Grid Method

72 x 38

70
2
x
2100
560
2100
60
30
60
16
2736
560
16
8
41
Standard Method

23 x 8

20
3
x
160
24
160
24
8
184
42
Standard Method

23 x 8

2 3
x 8
20 x 8
1 6 0
3 x 8
2 4
1 8 4
43
Standard Method

23 x 8

20 x 8
1 6 0
4
3 x 8
2 4
2
1 8 4
44
Standard Method

23 x 8

20 x 8
1 6 0
1 8 4
3 x 8
2 4
2
1 8 4
45
Why Not Just Teach the Standard Method?
46
Why Not Just Teach the Standard Method?
0 0 0 2 1
47
Why Not Just Teach the Standard Method?
5 6
x 4 2
0 0 0 2 1

3 2
48
Squashy Boxes
49
Division

Share 8 sweets between two children.

50
Division

Share 8 sweets between two children.

51
Division

Share 8 sweets between two children.

52
Division

Share 8 sweets between two children.

53
Division

Share 8 sweets between two children.

54
Division

Share 8 sweets between two children.

55
Division

Share 8 sweets between two children.

56
Division

Share 8 sweets between two children.

57
Division

Share 8 sweets between two children.

58
Division

Share 8 sweets between two children.

4 sweets in each pile
59
Repeated Subtraction (Grouping)

8 ? 2 can be thought of as
8 2 6
6 2 4
4 2 2
2 2 0

Ive taken 2 away 4 times, so the answer is 4!!
-2
-2
-2
-2
0
2
4
6
8
60

13 ? 3
13 3 10
10 3 7
7 3 4
4 3 1

I cannot make anymore groups of 3 out of 1, so
there is one left over.
61

13 ? 3 4 r 1
13 3 10
10 3 7
7 3 4
4 3 1

I cannot make any more groups of 3 out of 1, so
there is one left over.
62

72 ? 5
72 5 67 37 5 32
67 5 62 32 5 27
62 5 57 27 5 22
57 5 52 22 5 17
52 5 47 17 5 12
47 5 42 12 5 7
42 5 37 7 5 2

72 ? 5
72 5 67 37 5 32
67 5 62 32 5 27
62 5 57 27 5 22
57 5 52 22 5 17
52 5 47 17 5 12
47 5 42 12 5 7
42 5 37 7 5 2

Too long winded!!!!
64

72
- 50 (10 x 5)
22
- 5 (1 x 5)
17
- 5 (1 x 5)
12
- 5 (1 x 5)
7
5 (1 x 5)
2

72 ? 5 14 r 2
65
14 r 2

72
- 50 (10 x 5)
22
- 5 (1 x 5)
17
- 5 (1 x 5)
12
- 5 (1 x 5)
7
5 (1 x 5)
2

5 )
72 ? 5 14 r 2
66
14 r 2

72
- 50 (10 x 5)
22
- 20 ( 4 x 5)
2

5 )
72 ? 5 14 r 2
67
Try it!!!

93 ? 4 256 ? 7

68
Why not use the way that we were taught?
69
The method that we are used to looks like this

6 ) 1 3 3

70
The method that we are used to looks like this

6 ) 1 3 3

0
1
71
The method that we are used to looks like this

6 ) 1 3 3

0 2
1
1
72
The method that we are used to looks like this

6 ) 1 3 3

0 2 2 r 1
1
1
It does work, but many children make the
following errors
73
The method that we are used to looks like this

6 ) 1 3 3

Hmmm! I cant make any groups of 6 out of 1, so
74
The method that we are used to looks like this

6 ) 1 3 3

0
Hmmm! I cant make any groups of 6 out of 3, so
75
The method that we are used to looks like this

6 ) 1 3 3

0 0
Hmmm! I cant make any groups of 6 out of 3, so
76
The method that we are used to looks like this

6 ) 1 3 3

0 0 0
Hmmm! I cant make any groups of 6 out of 3, so
77
The method that we are used to looks like this

6 ) 1 3 3

0 0 0
Great! The answer is 0!
78
The method that we are used to looks like this

6 ) 1 3 3

OK 6s into 1 dont go, so..
79
The method that we are used to looks like this

6 ) 1 3 3

1
80
The method that we are used to looks like this

6 ) 1 3 3

1
Now, 6s into 13. I know that two 6s are 12 and
Ill have 1 left over.
81
The method that we are used to looks like this

6 ) 1 3 3

12
1
1
82
The method that we are used to looks like this

6 ) 1 3 3

12
1
1
Oh, look! 6s into 13 again! I know that!
83
The method that we are used to looks like this

6 ) 1 3 3

12
12 r 1
1
1
84
The method that we are used to looks like this

6 ) 1 3 3

12
12 r 1
1
1
The answer is 1212 r 1!
85
The method that we are used to looks like this

18 )1 1 0

86
The method that we are used to looks like this

18 )1 1 0

0
1
87
The method that we are used to looks like this

18 )1 1 0

0 0
1
11
88
The method that we are used to looks like this

18 )1 1 0

0 0
1
11
Back to square one! Lots more learning and
understanding is needed here. To successfully
tackle this problem, you need to know how to use
repeated subtraction!
89
Multiplication Tables