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Can you find some Pythagorean Triples where the two smaller numbers differ by 1?
Have a go at creating these images based on circles. What do you notice about the areas of the different sections?
The points P, Q, R and S are the midpoints of the edges of a convex quadrilateral. What do you notice about the quadrilateral PQRS as the convex quadrilateral changes?
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?
What happens to the perimeter of triangle ABC as the two smaller circles change size and roll around inside the bigger circle?
Show that for any triangle it is always possible to construct 3 touching circles with centres at the vertices. Is it possible to construct touching circles centred at the vertices of any polygon?
Make and prove a conjecture about the cyclic quadrilateral inscribed in a circle of radius r that has the maximum perimeter and the maximum area.
Two semicircle sit on the diameter of a semicircle centre O of twice their radius. Lines through O divide the perimeter into two parts. What can you say about the lengths of these two parts?
What have Fibonacci numbers got to do with Pythagorean triples?
Change the squares in this diagram and spot the property that stays the same for the triangles. Explain...
Join in this ongoing research. Build squares on the sides of a triangle, join the outer vertices forming hexagons, build further rings of squares and quadrilaterals, investigate.
Make and prove a conjecture about the value of the product of the Fibonacci numbers $F_{n+1}F_{n-1}$.
Show that all pentagonal numbers are one third of a triangular number.
Find the maximum value of n to the power 1/n and prove that it is a maximum.
Can you find a rule which connects consecutive triangular numbers?
Can you find a rule which relates triangular numbers to square numbers?
Use the computer to model an epidemic. Try out public health policies to control the spread of the epidemic, to minimise the number of sick days and deaths.
What have Fibonacci numbers to do with solutions of the quadratic equation x^2 - x - 1 = 0 ?
This problem is a sequence of linked mini-challenges leading up to the proof of a difficult final challenge, encouraging you to think mathematically. Starting with one of the mini-challenges, how. . . .
How many different colours of paint would be needed to paint these pictures by numbers?
Drawing a triangle is not always as easy as you might think!
Here is a machine with four coloured lights. Can you make two lights switch on at once? Three lights? All four lights?
Can you find the values at the vertices when you know the values on the edges of these multiplication arithmagons?
A introduction to how patterns can be deceiving, and what is and is not a proof.
Explore the relationship between quadratic functions and their graphs.
Steve has created two mappings. Can you figure out what they do? What questions do they prompt you to ask?
Many numbers can be expressed as the difference of two perfect squares. What do you notice about the numbers you CANNOT make?
Find out about Magic Squares in this article written for students. Why are they magic?!
This group tasks allows you to search for arithmetic progressions in the prime numbers. How many of the challenges will you discover for yourself?
Alison has created two mappings. Can you figure out what they do? What questions do they prompt you to ask?
Four rods of equal length are hinged at their endpoints to form a rhombus. The diagonals meet at X. One edge is fixed, the opposite edge is allowed to move in the plane. Describe the locus of. . . .
Yatir from Israel wrote this article on numbers that can be written as $ 2^n-n $ where n is a positive integer.
Janine noticed, while studying some cube numbers, that if you take three consecutive whole numbers and multiply them together and then add the middle number of the three, you get the middle number. . . .
A serious but easily readable discussion of proof in mathematics with some amusing stories and some interesting examples.
The points P, Q, R and S are the midpoints of the edges of a non-convex quadrilateral.What do you notice about the quadrilateral PQRS and its area?
Evaluate these powers of 67. What do you notice? Can you convince someone what the answer would be to (a million sixes followed by a 7) squared?
Make a conjecture about the sum of the squares of the odd positive integers. Can you prove it?
Generalise this inequality involving integrals.
In 15 years' time my age will be the square of my age 15 years ago. Can you work out my age, and when I had other special birthdays?
Find the sum, f(n), of the first n terms of the sequence: 0, 1, 1, 2, 2, 3, 3........p, p, p +1, p + 1,..... Prove that f(a + b) - f(a - b) = ab.
A and B are two fixed points on a circle and RS is a variable diamater. What is the locus of the intersection P of AR and BS?
Take any parallelogram and draw squares on the sides of the parallelogram. What can you prove about the quadrilateral formed by joining the centres of these squares?
Points D, E and F are on the the sides of triangle ABC. Circumcircles are drawn to the triangles ADE, BEF and CFD respectively. What do you notice about these three circumcircles?
Problem solving is at the heart of the NRICH site. All the problems give learners opportunities to learn, develop or use mathematical concepts and skills. Read here for more information.
Find the vertices of a pentagon given the midpoints of its sides.
Take any pair of two digit numbers x=ab and y=cd where, without loss of generality, ab > cd . Form two 4 digit numbers r=abcd and s=cdab and calculate: {r^2 - s^2} /{x^2 - y^2}.
Yatir from Israel describes his method for summing a series of triangle numbers.
Take a number, add its digits then multiply the digits together, then multiply these two results. If you get the same number it is an SP number.
A point P is selected anywhere inside an equilateral triangle. What can you say about the sum of the perpendicular distances from P to the sides of the triangle? Can you prove your conjecture?
A point moves on a line segment. A function depends on the position of the point. Where do you expect the point to be for a minimum of this function to occur.