The 1.000 first digits -base 10- of 'pi' displayed on an helix -bad point of view- [Les 1.000 premières décimales -base 10- de 'pi' visualisées sur une hélice -mauvais point de vue-].




To each digit D inside [0,9] is associated an angle A(D) with the following rule:
                    A(D) = D.(2.pi/10)
Then each digit D(n) (n E [1,1000] for this picture) is displayed as a point (belonging to an helix) with the following tridimensional coordinates:
                    X = cos(A(D(n)))
                    Y = sin(A(D(n)))
                    Z = n
At last, the picture displays all the segments {D(n),D(n+1)} (for all n).


See some related pictures (including this one):



The left-hand side picture seems to exhibit extraordinary symmetries, when the right-hand side one shows that there are none. Obviously, those apparent symmetries are due to the fact that 'pi' is a normal number (not yet demonstrated) meaning that, for example, the frequencies of 00, 01, 02,..., 97, 98, 99 are equal (and equal to 1/100). Thus, whatever the digits p and q, one can find n such as D(n)=p and D(n+1)=q. Then all segments p ==> q must exist if a sufficient number of digits of 'pi' is computed (1000 for this picture)...


[See the 100.000 first digits -base 10- of 'pi'.]


(CMAP28 WWW site: this page was created on 12/17/2015 and last updated on 10/17/2018 14:39:24 -CEST-)



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