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1 decimal integer ring cycle of many
Quantum Field Fractal Polarization Math Constants
nemeth braille printable arx calc
ᐱ Y φ Θ P Q Ψ
condensed matter
Complex sets of Y Phi Theta Prime Q Psi Quotient Based Numerals
nu mer numer i call numerical nomenclature & arc ratio constants
Accounting for infinite possible changes in cn of a number Nncn variable known as variable change on this c://dir page
C=Ncn
C is a number of cycles in a repeating decimal stem variant potential.
Just as some radical numbers have decimal numerals of roots to a whole number √N, the % of a notable c in cn cycles, then has a definition to cn variables thus changing an estimated value to an exact Nn%cn sequence chain of numerals and value when calculated and noted properly.
In this Nncn definition N is a variable, n is a variable number of a quotient from a sequential set of numerated path division quotients, and %cn is a percent of the total number of digits in the repeating quotient looping decimal variable part.
An example would be if a variable is 0.1234 than 0.1 is Nn25%cn, 0.12 is Nn50%cn, 0.123 is Nn75%cn, 0.1234 is Nn100%cn, 0.12341 is Nn125%cn, 0.123412 is Nn150%cn, 0.1234123 is Nn175%cn, and 0.12341234 is Nn200%cn of this example notation regarding the %cn of a ratio holding a looping decimal from its definition found from dividing numbers.
Supposing a number or value defined as a cycle had 1000 cycles of a repeating loop decimal to a values definition, then a percent of that one cycle holding 1000 cycles of the example 4 digits has 4000 digits and a differing mirco unit measure that is not equal to a single cycle of the actual looping decimal digits.
In this example, the definition of a cycle is one cycle of the noted looping decimal digits C in Ncn
To Begin A LIST of calibration factors in quantum field fractals of ACQFPS see page 1dir
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