Number Theory

< 8.4 Relations Between Numbers | Topic Index | 8.6 Prime Numbers >

Number Theory is the study of relations between numbers. Until the 19th century, it was part of Arithmetic. Nowadays it is considered as a separate discipline by itself. It is also considered one of the difficult areas in math.

The origin of some of the ideas in Theory of Numbers was the visualisation of properties &amp; relations of numbers (covered in the previous two chapters) in terms of geometrical shapes like triangles &amp; squares.

Let us see some elementary results of number theory which can be understood even by students in Primary School.

Pythagoras Triplets– These are sets containing 3 numbers which exhibit a relation which can be described as +  =.

Some examples are 3, 4, 5 where 32 + 42 = 52 (9 + 16 = 25) and 5, 12, 13 where 52 + 122 = 132 (25 + 144 = 169).

Pythagoras Theorem in geometry states that a triangle which has the above measures for its 3 sides, would be a right angled triangle.

Irrationality of &radic;2 -Euclid gave an elegant proof that &radic;2 is an irrational number. We will deal with this when we come to the chapter on irrational numbers.

Infinity of Primes – Euclid also gave a proof that there is no &ldquo;greatest&rdquo; prime number and that there are an infinity of them.

Fermat&rsquo;s Last Theorem– This theorem states that there is no extension of Pythagoras theorem for powers greater than 2.

Which means we cannot find a set of 3 numbers A, B &amp; C such that An + Bn = Cn for any value of n greater than 2. This theorem and its proof are so interesting that they will be dealt with in a separate chapter.

Ramanujan (Taxi Cab) Number– It states that 1729 is the smallest number which can be written as the sum of 2 cubes in 2 different ways. Note that it is slightly different from Fermat&rsquo;s Last Theorem.

1729 can be written as 13 + 123 OR as 93 + 103

The story behind this number is also an interesting incident in the history of math.

Goldbach&rsquo;s Conjecture

Any even number, greater than 2, can be written as a sum of 2 prime numbers.

Catalan&rsquo;s Conjecture

8 and 9 are the only two perfect powers of whole numbers, which are also consecutive. (since 8 = 2 3 and 9 = 3 2 ). This conjecture was proposed in 1844 and proved in 2002.

Recreational Math

Section 22 of this book is on Recreational Math. Many results from Number Theory can be given to students as explorations in math.

They also provide the necessary practice for operational fluency in a pleasurable way. Hence they can be called &ldquo;Happy Drills&rdquo;. Please see Chapter 66 for more details.

< 8.4 Relations Between Numbers | Topic Index | 8.6 Prime Numbers >