1Doctor of Engineering Science, Academician of RANS, member of EANS, Volga Region State Technological University, Russia
American Journal of Applied Mathematics and Statistics.
2014,
Vol. 2 No. 2, 66-72
DOI: 10.12691/ajams-2-2-3
Copyright © 2014 Science and Education PublishingCite this paper: P.M. Mazurkin. Increment Primes.
American Journal of Applied Mathematics and Statistics. 2014; 2(2):66-72. doi: 10.12691/ajams-2-2-3.
Correspondence to: P.M. Mazurkin, Doctor of Engineering Science, Academician of RANS, member of EANS, Volga Region State Technological University, Russia. Email:
kaf_po@mail.ruAbstract
The increment of prime numbers was a clear indication. Increase - the number increases, the addition of something. If the number of prime numbers, figuratively called the "ladder of Gauss-Riemann", the increase may well be likened to the steps, separated from the ladder itself. We prove that the law is obeyed z2(i2=2)=1/2-1/2cos(πP(n)/2) in the critical line i2=2 of the second digit binary number system. This functional model was stable and in other quantities of prime numbers (3000 and 100 000). The critical line is the Riemann column i2=2 binary matrix of a prime rate. Not all non-trivial zeros lie on it. There is also a line of frames, the initial rate (yields patterns of symmetry) and left the envelope binary number 1. Cryptographers cannot worry: even on the critical line growth of prime numbers z2i=1/2-1/2cos(πPj/2) contain the irrational number π=3.14159….
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