N. LEVASHOV'S «SVETL BROOM» IN A. KHATYBOV'S «BATH SCHOOL» AND A LABOUR SPADE. BOOK 4. THE PHYSICS OF THE REALITIES

Book 4. The Physics of the Realities. Chapter 4. There is no time that is defined 228 23041 = 1920·12+1 55001 11401 ADJACEN T 6723587279= 560298939·12+11 620603 46317 1377870A3 B 672358728 0 24·3·5·2 801494 7 PRIME 6723587281 = 560298940·12+1 620603 46321 1377870A4 1 ADJACEN T Taken 2 prime numbers are not good for creating the structure of the Control – they contain "the aged woman". When a pair of prime numbers (prime and adjacent) is selected, which observe: - the sum/2 should not be divisible by 3; - end of the number in the 8th system = 7, adjacent = 1; - end of the number in 12 system = B, adjacent = 1, - the binding condition to the remainder is fulfilled. The remainder must be an integer. So, 3 is removed from the row 1, 2, 3, 5, 7, 11. Of the remaining: 1, 7, 11 (B) – used in the number; 2 – quartz (creation of a quartz generator); 5 – connection with the penta of the atomic structure. The remainder is the frequency mantissa, the octave is the degree of quartz. The number of connections with the penta of atomic structures should not be less than 12. The isotope series is formed along the remainder (including the material world). In the resulting balance there should not be prime numbers (except 1, 2, 5) below 231. The tasks that are at the forefront of: - the method of finding prime numbers with given properties; - the solution of Fermat's theorem. What is known about other control structures? The second type of the Control Structure . It is the control built on the golden section. It is here that Fermat's problem is solved, and the Fibonacci series is used to form the Phyto-functions, or the structures of a living cell with specified properties, not "hung round" with unnecessary control frequencies. For the users of the "SvetL" Programs