| Explanation | `Centennial Bounds' is the focus of `Centennial Fortune' because it shows the `Centennial Fortune' in a zone of human beings. The co-ordinate of vertical axis of the origin of `Centennial Bounds' always starts from the zone of `Soul' of the first modern wise man appeared on the Earth. Hence, ZC0=S. The origin of `Centennial Bounds' is different from the origin of `Centennial Fortune' and their co-ordinates usually are not the same. The former is the starting point of `Centennial Bounds'. It always starts from the zone of `Soul' of the first modern wise man appeared on the Earth and it marks the `Centennial Fortune' of human beings within a `Bounds' represented by a zone. The latter is the starting point of `Centennial Fortune'. It shows the influences of `Gravitational Waves' of `Timeons' for a pair of `Fortune Co-ordinates' in a century. The `Gravitational Waves' of `Timeons' are the sources of power that determine human fortune. In other words, the `Events' evoked by the `Fate Particles' of `Centennial Fortune' in a zone of `Centennial Bounds' structure the `Centennial Fortune' of human beings. The `Centennial Bounds' is revolving around clockwise. It starts to move from the `Co-ordinates' of `Soul' at (UC0,ZC0) to the next `Fortune Co-ordinates' on a centennial base. The `Centennial Bounds' oscillates in a loop of 60 `Fortune Co-ordinates' expressed as `(G,C)' where `G' and `C' are integers. The change of fortune for every 100 years is called `Centennial Fortune'. The origin of `Centennial Bounds Co-ordinates' is at (UC0,ZC0), where the values of `UC0' and `ZC0' are integers. `ZC0' is equal to the zone of `Soul' of the first modern wise man appeared on the Earth and S=m-A[h/2] (Mod 12). `S' is the zone which marks the position of `Soul' of the first modern wise man appeared on the Earth. `y' is the year of the first modern wise man appeared on the Earth. `y' is approximately equal to the year in B.C. of Gregorian calendar but the first day of the year is not on 1st of January in Gregorian calendar. The beginning of a year is usually on 4th of February in Gregorian calendar. It is called `Joint of Year'. The time of the first modern wise man appeared on the Earth after `Joint of Year' is regarded as `y' B.C.. If the time of the first modern wise man appeared on the Earth is before `Joint of Year', `y' is regarded as previous year. That is, the year is `y+1' B.C.. `Joint of Year' is same as `Joint of February', which is usually on 4th of February of a year in Gregorian calendar. `m' is the solar month that the first modern wise man appeared on the Earth after `Joint of Month'. `h' is the real time of the first modern wise man appeared on the Earth reckoning on a 24-hour base. `A[n]' is an approximated integer function such that it takes the nearest whole number of `n'. `S=(Mod 12)' is a modulated function such that if S>11 then `S' becomes `S-12' and if S<0 then `S' becomes `S+12'. Thus, the value range of `S=(Mod 12)' is from 0 to 11. Centennial Bounds Origin Formula: UC0=3+{S&C[S<2:+2]}-2x{I{R[(1-y)/100]/10} (Mod 5)} (Mod 10) & ZC0=S, S=m-A[h/2] (Mod 12). Or, UC0=3+{{m-A[h/2] (Mod 12)}&C[{m-A[h/2] (Mod 12)}<2:+2]}-2x{I{R[(1-y)/100]/10} (Mod 5)} (Mod 10) & ZC0=m-A[h/2] (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[n]' is an integer function such that it takes the integral part of number `n' without rounding up the number. `R[(1-y)/100]' is a remainder function such that it takes the remainder of `1-y' divided by 100. `X=(Mod 5)' is a special modulated function such that if X>5 then `X' becomes `X-5' and if X<1 then `X' becomes `X+5'. Thus, the value range of `X=(Mod 5)' is from 1 to 5. `Y=(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 Y>10 then `Y' becomes `Y-10' and if Y<1 then `Y' becomes `Y+10'. Thus, the value range of `Y=(Mod 10)' is from 1 to 10. |
