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Finding all possibilities:Here is an oblong (rectangle) 3 squares long and 2 squares wide.
You have three smaller squares. The smaller squares fit in the oblong.
How many different ways can you fit the 3 smaller squares in the large oblong so that half the oblong is
shaded?
Rotations and reflections count as the same shape.
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Finding all possibilities:
There are six possibilities
The two above count as the same possibility
The solution is on the next slide
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Finding all possibilities:
Did you find them all?
Click for answer
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A visualisation problem:
A model is made from cubes as shown.
How many cubes make the model?A part of how many cubes can you see?
How many cubes can’t you see?
If the cubes were arranged into a tower what is the most number of the square faces could you
see at one time?
Answer
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How many cubes make the model?
How many part cubes can you see?
How many cubes can’t you see?
If the cubes were arranged into a tower what is the most number of the square faces could you
see at one time?
Answer
18
14
4
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If the cubes were arranged into a tower
what is the most number of the square faces could you see
at one time?
37
Answer
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Finding all possibilities:
You have 4 equilateral triangles.
How many different shapes can you make by joining the edges together exactly?
Answer
How many of your shapes will fold up to make a tetrahedron?
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Finding all possibilities:You can make three shapes
Two make the net of a tetrahedron
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Finding all possibilities:
How many oblongs (rectangles) are there altogether in this drawing?
Answer
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Finding all possibilities:How many oblongs (rectangles) are there altogether
in this drawing?
Answer
Look at the available oblongs (rectangles). Colour indicates size. Number of each type
shown124
6
98
4
6
2 3
23
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Finding all possibilities:
How many oblongs (rectangles) are there altogether in this drawing?
The rectangles may be counted on the grid
1
1
2 3 4
3
2
12 9 6 3
8 6 4 2
4 3 2 1
60
E.g. there are 4 oblongs 2 sections wide and 3 sections long
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Finding all possibilities:Draw as many different quadrilaterals as you
can on a 3 x 3 dot grid.
One has been done for you.
Use a fresh grid for each new quadrilateral.
Repeats of similar quadrilaterals in a different orientation do not count.
There are 16 possibilities. Can you find them all?
Answer
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Finding all possibilities:16 Quadrilaterals
Answer
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Adding to make twenty:
1 2 3
4 5 6
7 8 9
Add any four digits to make the total 20
1 3
7 9
There are 12 possible solutions - can you find the other 11?
Answer
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Making twenty:
1 2 3
4 5 6
7 8 9
1 2 3
4 5 6
7 8 9
1 2 3
4 5 6
7 8 9
1 2 3
4 5 6
7 8 9
1 2 3
4 5 6
7 8 9
1 2 3
4 5 6
7 8 9
1 2 3
4 5 6
7 8 9
1 2 3
4 5 6
7 8 9
1 2 3
4 5 6
7 8 9
1 2 3
4 5 6
7 8 9
1 2 3
4 5 6
7 8 9
1 2 3
4 5 6
7 8 9 Answer
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Adding to make twenty - ANSWERS:
1 2 3
4 5 6
7 8 9
1 2 3
4 5 6
7 8 9
1 2 3
4 5 6
7 8 9
1 2 3
4 5 6
7 8 9
1 2 3
4 5 6
7 8 9
1 2 3
4 5 6
7 8 9
1 2 3
4 5 6
7 8 9
1 2 3
4 5 6
7 8 9
1 2 3
4 5 6
7 8 9
1 2 3
4 5 6
7 8 9
1 2 3
4 5 6
7 8 9
1 2 3
4 5 6
7 8 9
7 8
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Finding cubes of numbers
To find the cube of a number multiply the number by itself and multiply your answer again by the
number, e.g.
3 x 3 x 3 becomes
3 x 3 = 9
9 x 3 = 27
27 is a cube number without a decimal.3 x 3 x 3 is sometimes written as;
33 or 3 to the power 3.
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Practice:
Find the cubes of these numbers:
2
5
9
10
2 x 2 x 2
5 x 5 x 5
9 x 9 x 9
10 x 10 x 10
= 8
= 125
= 729
= 1000
Answer
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Now find the cubes of the numbers 10 to 21
10
11
12
13
14
15
16
17
18
19
20
21
10 x 10 x 10 = 1000
11 x 11 x 11 = 1331
12 x 12 x 12 = 1728
13 x 13 x 13 = 2197
14 x 14 x 14 = 2744
15 x 15 x 15 = 3375
16 x 16 x 16 = 4096
17 x 17 x 17 = 4913
18 x 18 x 18 = 5832
19 x 19 x 19 = 6859
20 x 20 x 20 = 800021 x 21 x 21 = 9261Answer
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Now use the cubes of the numbers 10 to 21
1000 1331 1728 2197 2744 3375
4096 4913 5832 6859 8000 9261
These cube numbers are the only ones with four digits
Arrange the numbers on the grid in cross number fashion.
Next
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1000 1331 1728 2197 2744 3375
4096 4913 5832 6859 8000 9261
12744
1 82
9 31261 3 13
3
75 8 23
197
0 00
800
4 9 6859
Answer
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Find the link:
The set of numbers below are linked by the same mathematical process.
5
9
63
1
5
35
7
Answer: Add 4 to the top box and multiply your answer by 7.
11
77
7
Try these
+ 4
x 7
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Find the process … mild
2
4
16
3
9
19
3
5
20
5
15
25
5
8
5
7
28
8
24
34
A
C
10
12
6
21
3
8
8
10
4
7
1
6
13
35
13
15
9
35
5
10
B
D
Add 2 and multiply by 4
Add 2 and subtract 6
Multiply by 3 and add 10
Divide by 7 and add 5Answer
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Find the process … moderate
40
27
3
100
20
10
76
63
7
60
12
6
22
10
22
1
10
2
1
9
A
C
4
16
50
55
5
50
7
49
83
99
9
54
8
121121
11
56
8
64
98
B
D
Subtract 13 and divide by 9
Square the number and + 34
Divide by 5 and halve the answer
Divide by 11 and add 45 Answer
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Find the process … more taxing
36
6
-1
4
16
64
81
9
2
10
100
1000
16
77
49
343
16
4
-3
A
C
-10
2
10
0.03
30
7.5
0
12
60
0.08
80
20
-3
0.24
-3
9
45
0.24
240
60
B
D
Find square root & subtract 7
Add 12 & multiply by 5
Finding cube numbers Multiply by 1000 and find a ¼Answer
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Co-ordinate words
The grid shows letters at certain co-ordinates.
Look at the groups of co-ordinates and identify the hidden words.
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0
1
2
3
4
5
6
7
1 2 3 4 5 6 7 8 9
H
A
B
C
D
E
Y
GI
T
J
K
L
M
NO
P
Q
R
S
U
[7,5] [3,0] [8,2] [7,5]
[8,4] [1,7] [7,1] [7,5] [3,0] [8,2]
[2,3] [6,6] [6,1] [1,5] [7,3] [6,6] [8,6]
A R E A
S Q U A
P O L Y
R E
G O N
Answer
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0
2
4
6
8
2 4 6-6 -4 -2 8-8
M
A
H
I
Q
P
L
R
S
D G
T
O
U
E
N
K
F
J
C
B
[-4,8] [-4,3] [6,4] [3,2] [5,3] [-8,7] [2,4]
[-6,6] [-3,5] [6,7] [-8,2] [-7,4]
[6,4] [5,3] [-8,2] [6,4] [-3,5] [6,7]
[-4,3] [-7,4] [7,6] [-6,6] [6,7] [6,4] [-3,5]
Give co-ordinates for MODE
X
R H O M B U S
A N G L E
O B L O N G
H E X A G O N
[3,2] [6,4] [-2,7] [-7,4]
Answer
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0
GRID LINES ARE 1 UNIT APART
A
G
T
H
L
Y O
UN
P
J
B
ID
S
XC
QK
WF
ZV
R
ME
[-3,-4] [5,4] [1,-1] [-3,-4]
[5,-4] [2,4] [-6,5] [1,2]
[-4,-1] [5,-4] [3,3] [3,-3] [4,-2] [-1,-3]
[-3,-4] [3,1] [-5,1] [5,-4] [1,-5]
[-5,-5] [-6,5] [-1,2] [-5,1] [1,2]
Give co-ordinates for TRIANGLE
E D G E
A X I S
F A C T O RE Q U A LM I N U S
[3,-3] [-1,-3] [-6,5] [5,-4] [-1,2] [1,-1] [1,-5] [-3,-4]
Answer
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Arranging numbers around squares ...Here are nine numbers.
Arrange eight of them in the blank squares so that the sides make the total shown in the circle. Each
number may be used once only. E.G.
50
58
70
64
30 19 47 14 32 22 15 21 12
12 32 14
15
211930
22
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Arranging numbers around squares ...Here are nine numbers.
Arrange eight of them in the blank squares so that the sides make the total shown in the circle.
31
22
29
25
8 9 7 3 5 2 15 16 11
2 9 11
15
5816
7
Answer
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Arranging numbers around squares ...Here are nine numbers.
Arrange eight of them in the blank squares so that the sides make the total shown in the circle. E.G.
100
100
102
105
30 33 37 34 32 36 35 31 38
32 31 37
30
333435
38
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Nets of a cube ...
A cube may be unfolded in many different ways to produce a net.
Each net will be made up of six squares.
There are 11 different ways to produce a net of a cube. Can you find them all?
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Nets of a cube ...
There are 11 different ways to produce a net of a cube. Can you find them all?
Answer
More
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Nets of a cube the final five ...
Answer
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Rugby union scores …
In a rugby union match scores can be made by the following methods:
A try and a conversion 7 points
A try not converted 5 points
A penalty goal 3 points
A drop goal 3 points
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Rugby union scores … In a rugby union match scores can be made by the following
methods:A try and a conversion 7 points
A try not converted 5 points
A penalty goal 3 points
A drop goal 3 pointsIn a game Harlequins beat Leicester by 21 points to
18.
The points were scored in this way:
Harlequins: 1 converted try, 1 try not converted, 2 penalties and a drop goal.
Leicester: 3 tries not converted and a drop goal.
Are there any other ways the points might have been scored?
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DIGITAL CLOCK
The display shows a time on a digital clock.
1 3 4 5
1 1 1 1
It uses different digits
The time below displays the same digit
There are two other occasions when the digits will be the same on a digital clock.
Can you find them? Answer
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DIGITAL CLOCK
The occasions when digital clock displays the same digit are.
0 0 0 0
2 2 2 2
1 1 1 1
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DIGITAL CLOCK
The displays show time on a digital clock.
1 2 2 1
1 1 3 3
The display shows 2 different digits, each used twice.
Can you find all the occasions during the day when the clock will display 2 different digits twice each?
There are forty-nine altogether
AnswerLook for a systematic way of working
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Two digits appearing twice on a digital clock.
0 0 1 10 0 2 20 0 3 30 0 4 40 0 5 50 1 0 10 1 1 00 2 0 20 2 2 00 3 0 30 3 3 00 4 0 4
0 4 4 00 5 0 50 5 5 00 6 0 60 7 0 70 8 0 80 9 0 91 0 0 11 0 1 01 1 0 01 1 2 21 1 3 3
1 1 4 41 1 5 51 2 1 21 2 2 11 3 1 31 3 3 11 4 1 41 4 4 11 5 1 51 5 5 11 6 1 61 7 1 7
1 8 1 81 9 1 92 0 0 2
2 1 1 22 1 2 12 2 0 02 2 1 12 2 3 32 2 4 42 2 5 52 3 2 32 3 3 2
2 0 2 0
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Triangle test
Each of the triangles below use the same rule to produce the answer in the middle.
8
6 2
0 9
5
4
8
5
7
9 3
Can you find the rule?Answer
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Triangle test
Each of the triangles below use the same rule to produce the answer in the middle.
8
6 2
0 9
5
4
8
5
7
9 3
Try these using the same rule
Add the two bottom numbers and subtract the top one
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Using the rule on the previous slide which numbers fit in these triangles?
61
6 4 9 5
32
3 8 1 9
9 8 9 7
Using the same rule can you find which numbers fit at the missing apex of each triangle?
6
9
8 7 2
3
5
6 8
9
8
7
0
0
3
3
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Triangle test
Can you find a rule that links the points of these triangles with the outcome in the middle?
5
4 3
17
2
9 8
10
5
5 9
16
TASK: Create some triangle sequences for yourself and ask your friends to find the rule you have used.
Multiply the top number by the one on the left and subtract the number on the right. This will give you the number in the
centre.
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Nine dots
Nine dots are arranged on a sheet of paper as shown below.
TASK: Start with your pencil on one of the dots.
Do not lift the pencil from the paper.
Draw four straight lines that will connect all the dots
Click for help 1
Click for help 2
Start with a dot in a corner
The line does not have to finish on a dot
Answer
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Nine dots
Nine dots are arranged on a sheet of paper as shown below.
TASK: Start with your pencil on one of the dots.
Do not lift the pencil from the paper.
Draw four straight lines that will connect all the dots
Start here
Click for answer
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Fifteen coins make a pound.
How many different combinations of 15 coins can you find that will make exactly £1?
Coins may be used more than once.
TRY: starting with two fifty pence pieces and cascading [changing them] coins until you reach
£1 with 15 coins.
THINK: Once you have found one combination change coins to find others.
Click when you need help
Answer
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Fifteen coins make a pound.
A couple of possibilities:
1 x 50p - 50p
9 x 5p - 45p
5 x 1p - 5p
15 coins totalling £1.00
1 x 50p - 50p
1 x 20p - 20p
1 x 10p - 10p
2 x 5p - 10p
10 x 1p - 10p
15 coins totalling £1.00
Have you found any others?
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Marble exchange
The exchange rate for marbles is as follows:
3 GREEN marbles has the same value as 5 BLUE marbles 2 RED marbles have the same value as 1 PURPLE marble4 RED marbles have the same value as 3 GREEN marblesHow many BLUE marbles can you get for 8 PURPLE marbles?
TRY: using marbles to represent exchanges.
Answer
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Marble exchange
The exchange rate for marbles is as follows:
3 GREEN marbles has the same value as 5 BLUE marbles
2 RED marbles have the same value as 1 PURPLE marble
4 RED marbles have the same value as 3 GREEN marbles
How many BLUE marbles can you get for 8 PURPLE marbles?
Start answer sequence1 purple = 2 red.
8 purple = 16 red
4 red = 3 green so 16 red = 12 green.
3 green = 5 blue so 12 green = 20 blue
You can get 20 blue marbles for 8 purple ones
EASY REALLY!!
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Counters.
Jack has four different coloured counters.
He arranges them in a row.
How many different ways can he arrange them?
One has been done for you.
There are 24 possible combinations.
Answer
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Counters.Click to start answer sequence
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Domino sequences.Find the next two dominoes in each of these sequences.
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Domino sequences.Find the next two dominoes in each of these sequences.
Answer for this sequence
Answer for this sequence
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Domino squares.
Are there any other possible solutions?
Can you find four other dominoes that can make a number square?
The four dominoes above are arranged in a square pattern.
Each side of the pattern adds up to 12.
How might the dominoes be arranged?
Answer
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Dominoes puzzle:
Rearrange these dominoes in the framework below so that the total number of spots in each column adds up to 3 and the total
of each row is 15. Draw spots to show how you would do it.
3 3 3 3 3 3 3 3 3 3
1515
Answer
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Dominoes puzzle answer:
Rearrange these dominoes in the framework below so that the total number of spots in each column adds up to 3 and the total
of each row is 15
3 3 3 3 3 3 3 3 3 3
1515
Answer
The arrangement of dominoes may vary as long as the totals remain correct
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Dominoes puzzle:
Rearrange these dominoes in the framework below so that the total number of spots in each column adds up to 4 and the total
of each row is 8. Draw spots to show how you would do it.
44 4 4 4 4
8
8
8
Answer
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Dominoes puzzle:
Rearrange these dominoes in the framework below so that the total number of spots in each column adds up to 4 and the total
of each row is 8. Draw spots to show how you would do it.
44 4 4 4 4
8
8
Answer
8
Other arrangements of this framework may be possible
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Patio pathways
Jodie is making a patio.
She uses red tiles and white tiles.
She first makes an L shape with equal arms from red slabs.
She then puts a grey border around the patio.
The smallest possibility has been done for you.
Arm length 2
red slabs 3
grey slabs 12
total slabs 15
Draw the next four patios and record your results in the
table
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Patio pathways
arm length 2 3 4 5 6
red slabs 3 5 7 9 11
grey slabs 12 16 20 24 28
total slabs 15 21 27 33 39Predict how many red slabs you will see if the arm length was 8 slabs.
Predict how many grey slabs you will see if the arm length was 9 slabs.
Answer
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Number squares
5 7
48
12
13 11
12
25 23
2325
What if we used … ?
What if we used … ?
Subtraction
Multiplication
Division
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Playing with consecutive numbers.
The number 9 can be written as the sum of consecutive whole numbers in two ways.
9 = 2 + 3 + 4 9 = 4 + 5
Think about the numbers between 1 and 20.
Which ones can be written as a sum of consecutive numbers?
Which ones can’t?
Can you see a pattern?
What about numbers larger than 20?
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Playing with consecutive numbers.
15 = 7 + 8
15 = 1 + 2 + 3 + 4 + 5
15 = 4 + 5 + 6
What about 1, 2, 4, 8, 16?
What about 32? 64?
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Printable version
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Finding all possibilities:
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A visualisation problem:A model is made from cubes as shown.
How many cubes make the model?A part of how many cubes can you see?
How many cubes can’t you see?
If the cubes were arranged into a tower what is the most number of the square faces could you
see at one time?
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Finding all possibilities:
You have 4 equilateral triangles.
How many different shapes can you make by joining the edges together exactly?
How many of your shapes will fold up to make a tetrahedron?
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Finding all possibilities:
How many rectangles are there altogether in this drawing?
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Finding all possibilities:Draw as many different quadrilaterals as you
can on a 3 x 3 dot grid.
Use a fresh grid for each new quadrilateral.
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Making twenty:
1 2 3
4 5 6
7 8 9
1 2 3
4 5 6
7 8 9
1 2 3
4 5 6
7 8 9
1 2 3
4 5 6
7 8 9
1 2 3
4 5 6
7 8 9
1 2 3
4 5 6
7 8 9
1 2 3
4 5 6
7 8 9
1 2 3
4 5 6
7 8 9
1 2 3
4 5 6
7 8 9
1 2 3
4 5 6
7 8 9
1 2 3
4 5 6
7 8 9
1 2 3
4 5 6
7 8 9
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Finding cubes of numbers
To find the cube of a number multiply the number by itself and multiply your answer again by the
number, e.g.
3 x 3 x 3 becomes
3 x 3 = 9
9 x 3 = 27
27 is a cube number without a decimal.3 x 3 x 3 is sometimes written as;
33 or 3 to the power 3.
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Find the cubes of these numbers:
2
5
9
10
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Now find the cubes of the numbers 10 to 21
10
11
12
13
14
15
16
17
18
19
20
21
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1000 1331 1728 2197 2744 3375
4096 4913 5832 6859 8000 9261
1
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Find the process … mild
2
4
16
3
9
19
3
5
20
5
15
25
5
88
A
C
10
12
6
21
3
8
8
10
4
7
1
6
13
3535
B
D
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Find the process … moderate
40
27
3
100
20
10
76
63
7
60
12
6
22
10
22
10
A
C
4
16
50
55
5
50
7
49
73
99
9
54
8
121121
8B
D
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Find the process … more taxing
36
6
-1
4
16
64
81
9
2
10
100
1000
16
77
16A
C
-10
2
10
0.03
30
7.5
0
12
60
0.08
80
20
-3
0.24
-3
45
0.24
60
B
D
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0
1
2
3
4
5
6
7
1 2 3 4 5 6 7 8 9
H
A
B
C
D
E
Y
GI
T
J
K
L
M
NO
P
Q
R
S
U
[7,5] [3,0] [8,2] [7,5]
[8,4] [1,7] [7,1] [7,5] [3,0] [8,2]
[2,3] [6,6] [6,1] [1,5] [7,3] [6,6] [8,6]
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0
2
4
6
8
2 4 6-6 -4 -2 8-8
M
A
H
I
Q
P
L
R
S
D G
T
O
U
E
N
K
F
J
C
B
[-4,8] [-4,3] [6,4] [3,2] [5,3] [-8,7] [2,4]
[-6,6] [-3,5] [6,7] [-8,2] [-7,4]
[6,4] [5,3] [-8,2] [6,4] [-3,5] [6,7]
[-4,3] [-7,4] [7,6] [-6,6] [6,7] [6,4] [-3,5]
Give co-ordinates for MODE
X
O
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0
GRID LINES ARE 1 UNIT APART
A
G
T
H
L
Y O
UN
P
J
B
ID
S
XC
QK
WF
ZV
R
ME
[-3,-4] [5,5] [1,-1] [-3,-4]
[5,-4] [2,4] [-6,5] [1,2]
[-4,-1] [5,-4] [3,3] [3,-3] [4,-2] [-1,-3]
[-3,-4] [3,1] [-5,1] [5,-4] [1,-5]
[-5,-5] [-6,5] [-1,2] [-5,1] [1,2]
Give co-ordinates for TRIANGLE
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Arranging numbers around squares ...Here are nine numbers.
Arrange eight of them in the blank squares so that the sides make the total shown in the circle.
31
22
29
25
8 9 7 3 5 2 15 16 11
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Arranging numbers around squares ...Here are nine numbers.
Arrange eight of them in the blank squares so that the sides make the total shown in the circle
100
100
102
105
30 33 37 34 32 36 35 31 38
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Nets of a cube ...
A cube may be unfolded in many different ways to produce a net.
Each net will be made up of six squares.
There are 11 different ways to produce a net of a cube. Can you find them all?
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Rugby union scores … In a rugby union match scores can be made by the following
methods:A try and a conversion 7 points
A try not converted 5 points
A penalty goal 3 points
A drop goal 3 pointsIn a game Harlequins beat Leicester by 21 points to
18. How might the points have been scored?
Are there any other ways the points might have been scored?
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DIGITAL CLOCK
The displays show time on a digital clock.
1 2 2 1
1 1 3 3
The display shows 2 different digits, each used twice.
Can you find all the occasions during the day when the clock will display 2 different digits twice each?
There are forty-nine altogether
Look for a systematic way of working
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Two digits appearing twice on a digital clock.
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Triangle test
Each of the triangles below use the same rule to produce the answer in the middle.
8
6 2
0 9
5
4
8
5
7
9 3
Can you find the rule?
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Using the rule on the previous slide which numbers fit in these triangles?
61
6 4 9 5
32
3 8 1 9
Using the same rule can you find which numbers fit at the missing apex of each triangle?
9
8 7
3
5
6
9
8
7
0
3
3
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Triangle test
Can you find a rule that links the points of these triangles with the outcome in the middle?
5
4 3
17
2
9 8
10
5
5 9
16
TASK: Create some triangle sequences for yourself and ask your friends to find the rule you have used.
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Nine dots
Nine dots are arranged on a sheet of paper as shown below.
TASK: Start with your pencil on one of the dots.
Do not lift the pencil from the paper.
Draw four straight lines that will connect all the dots
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Fifteen coins make a pound.
How many different combinations of 15 coins can you find that will make exactly £1?
Coins may be used more than once.
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Marble exchange
The exchange rate for marbles is as follows:
3 GREEN marbles has the same value as 5 BLUE marbles 2 RED marbles have the same value as 1 PURPLE marble4 RED marbles have the same value as 3 GREEN marblesHow many BLUE marbles can you get for 8 PURPLE marbles?
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Counters.
Jack has four different coloured counters.
He arranges them in a row.
How many different ways can he arrange them?
There are 24 possible combinations.
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Domino sequences.Find the next two dominoes in each of these sequences.
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Domino sequences.Find the next two dominoes in each of these sequences.
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Domino squares.
Are there any other possible solutions?
Can you find four other dominoes that can make a number square?
The four dominoes above are arranged in a square pattern.
Each side of the pattern adds up to 12.
How might the dominoes be arranged?
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Dominoes puzzle:
Rearrange these dominoes in the framework below so that the total number of spots in each column adds up to 3 and the total
of each row is 15. Draw spots to show how you would do it.
3 3 3 3 3 3 3 3 3 3
1515
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Dominoes puzzle:
Rearrange these dominoes in the framework below so that the total number of spots in each column adds up to 4 and the total
of each row is 8. Draw spots to show how you would do it.
44 4 4 4 4
8
8
8
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Patio pathways
Jodie is making a patio.
She uses grey tiles and white tiles.
She first makes an L shape with equal arms from red slabs.
She then puts a grey border around the patio.
The smallest possibility has been done for you.
Arm length 2
red slabs 3
grey slabs 12
total slabs 15
Draw the next four patios and record your results in the
table
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Number squares
5 7
48
What if we used … ?
What if we used … ?
Subtraction
Multiplication
Division
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Playing with consecutive numbers.
The number 9 can be written as the sum of consecutive whole numbers in two ways.
9 = 2 + 3 + 4 9 = 4 + 5
Think about the numbers between 1 and 20.
Which ones can be written as a sum of consecutive numbers?
Which ones can’t?
Can you see a pattern?
What about numbers larger than 20?