Can you build a distribution with the maximum theoretical spread?

By inscribing a circle in a square and then a square in a circle find an approximation to pi. By using a hexagon, can you improve on the approximation?

Find all the periodic cycles and fixed points in this number sequence using any whole number as a starting point.

An inequality involving integrals of squares of functions.

The family of graphs of x^n + y^n =1 (for even n) includes the circle. Why do the graphs look more and more square as n increases?

Show without recourse to any calculating aid that 7^{1/2} + 7^{1/3} + 7^{1/4} < 7 and 4^{1/2} + 4^{1/3} + 4^{1/4} > 4 . Sketch the graph of f(x) = x^{1/2} + x^{1/3} + x^{1/4} -x

Can you find a quadratic equation which passes close to these points?

Sketch the graphs of y = sin x and y = tan x and some straight lines. Prove some inequalities.

Find the maximum value of 1/p + 1/q + 1/r where this sum is less than 1 and p, q, and r are positive integers.

Take any two numbers between 0 and 1. Prove that the sum of the numbers is always less than one plus their product?

Some diagrammatic 'proofs' of algebraic identities and inequalities.

Given the mean and standard deviation of a set of marks, what is the greatest number of candidates who could have scored 100%?

Find all positive integers a and b for which the two equations: x^2-ax+b = 0 and x^2-bx+a = 0 both have positive integer solutions.

Find the maximum value of n to the power 1/n and prove that it is a maximum.

Attach weights of 1, 2, 4, and 8 units to the four attachment points on the bar. Move the bar from side to side until you find a balance point. Is it possible to predict that position?

Can you prove our inequality holds for all values of x and y between 0 and 1?

The challenge is to find the values of the variables if you are to solve this Sudoku.

Prove that in every tetrahedron there is a vertex such that the three edges meeting there have lengths which could be the sides of a triangle.

Farey sequences are lists of fractions in ascending order of magnitude. Can you prove that in every Farey sequence there is a special relationship between Farey neighbours?

Use the diagram to investigate the classical Pythagorean means.

Show that is it impossible to have a tetrahedron whose six edges have lengths 10, 20, 30, 40, 50 and 60 units...

Which is the biggest and which the smallest of $2000^{2002}, 2001^{2001} \text{and } 2002^{2000}$?

Show that for natural numbers x and y if x/y > 1 then x/y>(x+1)/(y+1}>1. Hence prove that the product for i=1 to n of [(2i)/(2i-1)] tends to infinity as n tends to infinity.

Which is the bigger, 9^10 or 10^9 ? Which is the bigger, 99^100 or 100^99 ?

Which of these continued fractions is bigger and why?

Prove that the product of the sum of n positive numbers with the sum of their reciprocals is not less than n^2.

Is the mean of the squares of two numbers greater than, or less than, the square of their means?

Take a few whole numbers away from a triangle number. If you know the mean of the remaining numbers can you find the triangle number and which numbers were removed?

Find the positive integer solutions of the equation (1+1/a)(1+1/b)(1+1/c) = 2

Find all 3 digit numbers such that by adding the first digit, the square of the second and the cube of the third you get the original number, for example 1 + 3^2 + 5^3 = 135.

Kyle and his teacher disagree about his test score - who is right?

What fractions can you find between the square roots of 65 and 67?

Given that u>0 and v>0 find the smallest possible value of 1/u + 1/v given that u + v = 5 by different methods.

The symbol [ ] means 'the integer part of'. Can the numbers [2x]; 2[x]; [x + 1/2] + [x - 1/2] ever be equal? Can they ever take three different values?

Which is larger cos(sin x) or sin(cos x) ? Does this depend on x ?

Two cubes, each with integral side lengths, have a combined volume equal to the total of the lengths of their edges. How big are the cubes? [If you find a result by 'trial and error' you'll need to. . . .

Three fences of different lengths form three sides of an enclosure. What arrangement maximises the area?

Which rational numbers cannot be written in the form x + 1/(y + 1/z) where x, y and z are integers?

The familiar Pythagorean 3-4-5 triple gives one solution to (x-1)^n + x^n = (x+1)^n so what about other solutions for x an integer and n= 2, 3, 4 or 5?