How many triangles can you make on the 3 by 3 pegboard?
What is the largest number of circles we can fit into the frame without them overlapping? How do you know? What will happen if you try the other shapes?
Can you make the most extraordinary, the most amazing, the most unusual patterns/designs from these triangles which are made in a special way?
Using different numbers of sticks, how many different triangles are you able to make? Can you make any rules about the numbers of sticks that make the most triangles?
This practical problem challenges you to create shapes and patterns with two different types of triangle. You could even try overlapping them.
What do these two triangles have in common? How are they related?
This practical investigation invites you to make tessellating shapes in a similar way to the artist Escher.
The ancient Egyptians were said to make right-angled triangles using a rope with twelve equal sections divided by knots. What other triangles could you make if you had a rope like this?
In this challenge, you will work in a group to investigate circular fences enclosing trees that are planted in square or triangular arrangements.
In how many ways can you fit two of these yellow triangles together? Can you predict the number of ways two blue triangles can be fitted together?
Can you create more models that follow these rules?
What happens to the area of a square if you double the length of the sides? Try the same thing with rectangles, diamonds and other shapes. How do the four smaller ones fit into the larger one?
These practical challenges are all about making a 'tray' and covering it with paper.
How many different cuboids can you make when you use four CDs or DVDs? How about using five, then six?
Arrange your fences to make the largest rectangular space you can. Try with four fences, then five, then six etc.
A group of children are discussing the height of a tall tree. How would you go about finding out its height?
Arrange 9 red cubes, 9 blue cubes and 9 yellow cubes into a large 3 by 3 cube. No row or column of cubes must contain two cubes of the same colour.
An activity making various patterns with 2 x 1 rectangular tiles.
Take a rectangle of paper and fold it in half, and half again, to make four smaller rectangles. How many different ways can you fold it up?
Take 5 cubes of one colour and 2 of another colour. How many different ways can you join them if the 5 must touch the table and the 2 must not touch the table?
Let's say you can only use two different lengths - 2 units and 4 units. Using just these 2 lengths as the edges how many different cuboids can you make?
How can you arrange the 5 cubes so that you need the smallest number of Brush Loads of paint to cover them? Try with other numbers of cubes as well.
What is the smallest cuboid that you can put in this box so that you cannot fit another that's the same into it?
How do you know if your set of dominoes is complete?
Can you make dice stairs using the rules stated? How do you know you have all the possible stairs?
What is the greatest number of counters you can place on the grid below without four of them lying at the corners of a square?
Here are some ideas to try in the classroom for using counters to investigate number patterns.
We went to the cinema and decided to buy some bags of popcorn so we asked about the prices. Investigate how much popcorn each bag holds so find out which we might have bought.
How many models can you find which obey these rules?
Can you make the birds from the egg tangram?
Make new patterns from simple turning instructions. You can have a go using pencil and paper or with a floor robot.
Take a counter and surround it by a ring of other counters that MUST touch two others. How many are needed?
These squares have been made from Cuisenaire rods. Can you describe the pattern? What would the next square look like?
Looking at the picture of this Jomista Mat, can you decribe what you see? Why not try and make one yourself?
Are all the possible combinations of two shapes included in this set of 27 cards? How do you know?
For this task, you'll need an A4 sheet and two A5 transparent sheets. Decide on a way of arranging the A5 sheets on top of the A4 sheet and explore ...
Use the lines on this figure to show how the square can be divided into 2 halves, 3 thirds, 6 sixths and 9 ninths.
Make a cube out of straws and have a go at this practical challenge.
Exploring and predicting folding, cutting and punching holes and making spirals.
How can you put five cereal packets together to make different shapes if you must put them face-to-face?
This problem invites you to build 3D shapes using two different triangles. Can you make the shapes from the pictures?
Can you work out what shape is made by folding in this way? Why not create some patterns using this shape but in different sizes?
Make a flower design using the same shape made out of different sizes of paper.
What are the next three numbers in this sequence? Can you explain why are they called pyramid numbers?
Can you each work out what shape you have part of on your card? What will the rest of it look like?
Watch the video to see how to fold a square of paper to create a flower. What fraction of the piece of paper is the small triangle?
Can you order pictures of the development of a frog from frogspawn and of a bean seed growing into a plant?
You have been given three shapes made out of sponge: a sphere, a cylinder and a cone. Your challenge is to find out how to cut them to make different shapes for printing.
This practical activity involves measuring length/distance.
Paint a stripe on a cardboard roll. Can you predict what will happen when it is rolled across a sheet of paper?