| Explanation | The change of fortune for every 100 years or 1,000 years is called `Super Fortune'. The origin of `Super Fortune Co-ordinates' is at (UNS,ZNS), where `UNS' and `ZNS' are integers. The origin of `Super Fortune' is the starting point of human history. It is believed that the `Super Fortune' is revolving around in the `Fortune Track' (FT) clockwisely. The `Revolution Mode' (RM) of `Super Fortune' is a mathematical expression that can show the revolving direction of `Super Fortune' in its `Fortune Track' (FT). There is only one type of `Revolution Mode' for `Super Fortune' of the Earth. It is `Clockwise Revolution Mode' (CRM). The `Super Fortune' of the Earth is revolving clockwisely in its `Fortune Track' (FT). The `Super Fortune' starts to move from the origin at (UNS,ZNS) to the next `Fortune Co-ordinates' on a 100-yearly or 1,000-yearly base. It recurs in 60 `Fortune Co-ordinates' expressed as `(G,C)' where `G' and `C' are integers. Up to present, the origin of `Super Fortune Co-ordinates' has not been determined mathematically. If the position of `Super Fortune Co-ordinates' is at (X,Y) and the `Time Interval' between two consecutive `Super Fortune Co-ordinates' is `n' years, then the `Super Fortune Co-ordinates' are at (G,C) after `y' years. The `Fortune' Formula is G=X+I[y/n] (Mod 10) & C=Y+I[y/n] (Mod 12). `&C[ ]' is a conditional function of an event such that the mathematical expression after the `:' sign must be operated if the event occurs (i.e. The conditional `&C[ ]' becomes true.). `I[y/n]' is an integer function such that it takes the integral part of the number when `y' is divided by `n', without rounding up the number. `n' is a natural number. Natural numbers are 1,2,3,4,5,……. Zero is not a natural number. `y' is the number of solar years. `n' is the `Time Interval' between two consecutive `Super Fortune Co-ordinates' in years. `G=(Mod 10)' is a special modulated function such that the smallest value of it is 1 and the largest value of it is 10. If G>10 then `G' becomes `G-10' and if G<1 then `G' becomes `G+10'. Thus, the value range of `G=(Mod 10)' is from 1 to 10. `C=(Mod 12)' is a modulated function such that if C>11 then `C' becomes `C-12' and if C<0 then `C' becomes `C+12'. Thus, the value range of `C=(Mod 12)' is from 0 to 11. |
| Example | If the `Super Fortune Co-ordinates' (X,Y)=(8,11), y=21986 and n=100, applying the Super Fortune Formula `G=X+I[y/n] (Mod 10) & C=Y+I[y/n] (Mod 12)', the values of `G' and `C' of the new `Super Fortune Co-ordinates' (G,C) after `y' years are: G=8+I[21986/100] (Mod 10) & C=11+I[21986/100] (Mod 12). G=8+I[219.86] (Mod 10) & C=11+I[219.86] (Mod 12). G=8+219 (Mod 10) & C=11+219 (Mod 12). G=227 (Mod 10) & C=230 (Mod 12). G=227-22x10 & C=230-12x19. G=227-220 & C=230-228. G=7 & C=2. Hence, after 21986 years, the `Super Fortune' will move from `Co-ordinates' (8,11) with a value of the `Fortune Sequence Code' of `Super Fortune Co-ordinates' of `48' to `Co-ordinates' (7,2) with a new value of the `Fortune Sequence Code' of `Super Fortune Co-ordinates' of `27'. Thus, the value of the `Fortune Sequence Code' of `Super Fortune Co-ordinates' is changed from `48' to `27'. |
