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An environment for exploring the properties of small groups.
Ask a friend to choose a number between 1 and 63. By identifying which of the six cards contains the number they are thinking of it is easy to tell them what the number is.
Learn about the rules for a group and the different groups of 4 elements by doing some simple puzzles.
Try to move the knight to visit each square once and return to the starting point on this unusual chessboard.
You have worked out a secret code with a friend. Every letter in the alphabet can be represented by a binary value.
An example of a simple Public Key code, called the Knapsack Code is described in this article, alongside some information on its origins. A knowledge of modular arithmetic is useful.
Peter Zimmerman from Mill Hill County High School in Barnet, London gives a neat proof that: 5^(2n+1) + 11^(2n+1) + 17^(2n+1) is divisible by 33 for every non negative integer n.
How many different solutions can you find to this problem? Arrange 25 officers, each having one of five different ranks a, b, c, d and e, and belonging to one of five different regiments p, q, r, s. . . .
Peter Zimmerman, a Year 13 student at Mill Hill County High School in Barnet, London wrote this account of modulus arithmetic.
Tom writes about expressing numbers as the sums of three squares.
Crack this code which depends on taking pairs of letters and using two simultaneous relations and modulus arithmetic to encode the message.
A Latin square of order n is an array of n symbols in which each symbol occurs exactly once in each row and exactly once in each column.
Find 180 to the power 59 (mod 391) to crack the code. To find the secret number with a calculator we work with small numbers like 59 and 391 but very big numbers are used in the real world for this.
A weekly challenge concerning the interpretation of an algorithm to determine the day on which you were born.
Time for a little mathemagic! Choose any five cards from a pack and show four of them to your partner. How can they work out the fifth?
Imagine we have four bags containing numbers from a sequence. What numbers can we make now?
Which numbers can we write as a sum of square numbers?
Choose any whole number n, cube it and add 11n. Is the answer always divisible by 6? If so why?
Caroline and James pick sets of five numbers. Charlie chooses three of them that add together to make a multiple of three. Can they stop him?
What day of the week were you born on? Do you know? Here's a way to find out.
a) A four digit number (in base 10) aabb is a perfect square. Discuss ways of systematically finding this number. (b) Prove that 11^{10}-1 is divisible by 100.
We only need 7 numbers for modulus (or clock) arithmetic mod 7 including working with fractions. Explore how to divide numbers and write fractions in modulus arithemtic.
What are the possible remainders when the 100-th power of an integer is divided by 125?
What remainders do you get when square numbers are divided by 4?
Decipher a simple code based on the rule C=7P+17 (mod 26) where C is the code for the letter P from the alphabet. Rearrange the formula and use the inverse to decipher automatically.
Find the remainder when 3^{2001} is divided by 7.
Prove that if a^2+b^2 is a multiple of 3 then both a and b are multiples of 3.
What is the smallest perfect square that ends with the four digits 9009?
In turn 4 people throw away three nuts from a pile and hide a quarter of the remainder finally leaving a multiple of 4 nuts. How many nuts were at the start?
Investigate how you can work out what day of the week your birthday will be on next year, and the year after...
Add powers of 3 and powers of 7 and get multiples of 11.
What is the units digit for the number 123^(456) ?
You are given the method used for assigning certain check codes and you have to find out if an error in a single digit can be identified.
Suppose an operator types a US Bank check code into a machine and transposes two adjacent digits will the machine pick up every error of this type? Does the same apply to ISBN numbers; will a machine. . . .
Find and explain a short and neat proof that 5^(2n+1) + 11^(2n+1) + 17^(2n+1) is divisible by 33 for every non negative integer n.
Details are given of how check codes are constructed (using modulus arithmetic for passports, bank accounts, credit cards, ISBN book numbers, and so on. A list of codes is given and you have to check. . . .
Show that there are infinitely many rational points on the unit circle and no rational points on the circle x^2+y^2=3.
Prove that for every right angled triangle which has sides with integer lengths: (1) the area of the triangle is even and (2) the length of one of the sides is divisible by 5.
Find the values of n for which 1^n + 8^n - 3^n - 6^n is divisible by 6.
Show that if three prime numbers, all greater than 3, form an arithmetic progression then the common difference is divisible by 6. What if one of the terms is 3?