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**A piece of pi**

The number pi or π, (approximately 3.14159265) is one of the most important quantities in mathematics. It is perhaps best known in the context of circles: a circle of diameter 1 has circumference equal to π.

This picture, created by Cristian Ilies Vasile, is a graphical representation of the first 10,000 digits of π. Each segment represents a digit from 0 to 9, and within each segment, there are 10,000 positions, one for each digit of π being represented. We write “m:n” as shorthand for “position n of segment m”.

Each of the coloured strands represents a link between two successive digits, so the first two digits of π (3 and 1) are represented by a strand from 3:0 to 1:1; in other words, from position 0 of segment 3 to position 1 of segment 1. The sequence of coloured strands continues according to the sequence 3:0 → 1:1 → 4:2 → 1:3 → 5:4 ...

The sequence of digits of π never terminates and never goes into an endlessly repeating loop. This is because π is an

*irrational number,*which means that it cannot be expressed exactly as a fraction. Sometimes people say that π is equal to 22/7, but this is merely a convenient approximation.

In some sense, π is “more irrational” than numbers such as the

*golden ratio*(approximately 1.618): although neither number is equal to a fraction, the golden ratio is a root of the polynomial x^2 - x - 1, whereas π is not a root of

*any*polynomial with integer coefficients. Mathematicians express this by saying that the golden ratio is an

*algebraic*number, whereas π is a

*transcendental*number.

The upshot of this is that the digits of π are more or less random. However, there is a sequence of six consecutive 9s, called the

*Feynman point*after physicist Richard Feynman, which appears after only 762 decimal places. Feynman once stated during a lecture that he would like to memorise the digits of π until that point, so he could recite them and quip “nine nine nine nine nine nine and so on”, thus implying that π was rational. (“Surely you're joking, Mr Feynman.”)

There is a lot more fascinating π artwork on Martin Krzywinski's web site (http://mkweb.bcgsc.ca/pi/art/). Thanks to +Skip Jimroo for telling me about this picture!

#mathematics #sciencesunday

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Galaxy S4 magic and the Luxembourg Marathon drummers.

I just tried the new Google+ iPad app. Not bad!

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