How many different ways can I lay 10 paving slabs, each 2 foot by 1 foot, to make a path 2 foot wide and 10 foot long from my back door into my garden, without cutting any of the paving slabs?

What's the greatest number of sides a polygon on a dotty grid could have?

Explore this how this program produces the sequences it does. What are you controlling when you change the values of the variables?

What is the total area of the first two triangles as a fraction of the original A4 rectangle? What is the total area of the first three triangles as a fraction of the original A4 rectangle? If. . . .

Three frogs hopped onto the table. A red frog on the left a green in the middle and a blue frog on the right. Then frogs started jumping randomly over any adjacent frog. Is it possible for them to. . . .

Place a red counter in the top left corner of a 4x4 array, which is covered by 14 other smaller counters, leaving a gap in the bottom right hand corner (HOME). What is the smallest number of moves. . . .

Choose a couple of the sequences. Try to picture how to make the next, and the next, and the next... Can you describe your reasoning?

Explain why the arithmetic sequence 1, 14, 27, 40, ... contains many terms of the form 222...2 where only the digit 2 appears.

There are lots of ideas to explore in these sequences of ordered fractions.

An equilateral triangle rotates around regular polygons and produces an outline like a flower. What are the perimeters of the different flowers?

Can you puzzle out what sequences these Logo programs will give? Then write your own Logo programs to generate sequences.

Make some loops out of regular hexagons. What rules can you discover?

Can you find a rule which connects consecutive triangular numbers?

Alison, Bernard and Charlie have been exploring sequences of odd and even numbers, which raise some intriguing questions...

Watch these videos to see how Phoebe, Alice and Luke chose to draw 7 squares. How would they draw 100?

Here is a machine with four coloured lights. Can you develop a strategy to work out the rules controlling each light?

Can you find a rule which relates triangular numbers to square numbers?

Show that all pentagonal numbers are one third of a triangular number.

Discover a way to sum square numbers by building cuboids from small cubes. Can you picture how the sequence will grow?

A tower of squares is built inside a right angled isosceles triangle. The largest square stands on the hypotenuse. What fraction of the area of the triangle is covered by the series of squares?

Can you show that 1^99 + 2^99 + 3^99 + 4^99 + 5^99 is divisible by 5?

Choose any 4 whole numbers and take the difference between consecutive numbers, ending with the difference between the first and the last numbers. What happens when you repeat this process over and. . . .

Let S1 = 1 , S2 = 2 + 3, S3 = 4 + 5 + 6 ,........ Calculate S17.

Square numbers can be represented on the seven-clock (representing these numbers modulo 7). This works like the days of the week.

What would you get if you continued this sequence of fraction sums? 1/2 + 2/1 = 2/3 + 3/2 = 3/4 + 4/3 =

Take any whole number between 1 and 999, add the squares of the digits to get a new number. Make some conjectures about what happens in general.

Three circles have a maximum of six intersections with each other. What is the maximum number of intersections that a hundred circles could have?

Show that 8778, 10296 and 13530 are three triangular numbers and that they form a Pythagorean triple.

Take any two positive numbers. Calculate the arithmetic and geometric means. Repeat the calculations to generate a sequence of arithmetic means and geometric means. Make a note of what happens to the. . . .

Liam's house has a staircase with 12 steps. He can go down the steps one at a time or two at time. In how many different ways can Liam go down the 12 steps?

Here are some circle bugs to try to replicate with some elegant programming, plus some sequences generated elegantly in LOGO.

Find the decimal equivalents of the fractions one ninth, one ninety ninth, one nine hundred and ninety ninth etc. Explain the pattern you get and generalise.

Sissa cleverly asked the King for a reward that sounded quite modest but turned out to be rather large...

What is the remainder when 2^2002 is divided by 7? What happens with different powers of 2?

Here is a machine with four coloured lights. Can you make two lights switch on at once? Three lights? All four lights?

Formulate and investigate a simple mathematical model for the design of a table mat.

Consider numbers of the form un = 1! + 2! + 3! +...+n!. How many such numbers are perfect squares?

A introduction to how patterns can be deceiving, and what is and is not a proof.

The nth term of a sequence is given by the formula n^3 + 11n . Find the first four terms of the sequence given by this formula and the first term of the sequence which is bigger than one million. . . .

Investigate sequences given by $a_n = \frac{1+a_{n-1}}{a_{n-2}}$ for different choices of the first two terms. Make a conjecture about the behaviour of these sequences. Can you prove your conjecture?

This resource contains interactive problems to support work on number sequences at Key Stage 4.

A story for students about adding powers of integers - with a festive twist.

Let a(n) be the number of ways of expressing the integer n as an ordered sum of 1's and 2's. Let b(n) be the number of ways of expressing n as an ordered sum of integers greater than 1. (i) Calculate. . . .

Place four pebbles on the sand in the form of a square. Keep adding as few pebbles as necessary to double the area. How many extra pebbles are added each time?

Investigate the sequences obtained by starting with any positive 2 digit number (10a+b) and repeatedly using the rule 10a+b maps to 10b-a to get the next number in the sequence.

This article for teachers describes the exchanges on an email talk list about ideas for an investigation which has the sum of the squares as its solution.