N=01:(1,0) | N=02:(2,1) | N=03:(3,2) | N=04:(4,3) | N=05:(5,4) | N=06:(6,5) | N=07:(7,6) | N=08:(8,7) | N=09:(9,8) | N=10:(10,9) |
N=11:(1,10) | N=12:(2,11) | N=13:(3,0) | N=14:(4,1) | N=15:(5,2) | N=16:(6,3) | N=17:(7,4) | N=18:(8,5) | N=19:(9,6) | N=20:(10,7) |
N=21:(1,8) | N=22:(2,9) | N=23:(3,10) | N=24:(4,11) | N=25:(5,0) | N=26:(6,1) | N=27:(7,2) | N=28:(8,3) | N=29:(9,4) | N=30:(10,5) |
N=31:(1,6) | N=32:(2,7) | N=33:(3,8) | N=34:(4,9) | N=35:(5,10) | N=36:(6,11) | N=37:(7,0) | N=38:(8,1) | N=39:(9,2) | N=40:(10,3) |
N=41:(1,4) | N=42:(2,5) | N=43:(3,6) | N=44:(4,7) | N=45:(5,8) | N=46:(6,9) | N=47:(7,10) | N=48:(8,11) | N=49:(9,0) | N=50:(10,1) |
N=51:(1,2) | N=52:(2,3) | N=53:(3,4) | N=54:(4,5) | N=55:(5,6) | N=56:(6,7) | N=57:(7,8) | N=58:(8,9) | N=59:(9,10) | N=60:(10,11) |
U=1 | U=2 | U=3 | U=4 | U=5 | U=6 | U=7 | U=8 | U=9 | U=10 |
A | B | C | D | E | F | G | H | I | J |
GAP | EUT | BIM | DIM | MOO | GAI | GEN | SUN | YAM | QUI |
Z=0 | Z=1 | Z=2 | Z=3 | Z=4 | Z=5 | Z=6 | Z=7 | Z=8 | Z=9 | Z=10 | Z=11 |
A | B | C | D | E | F | G | H | I | J | K | L |
CHI | CHO | YAN | MOU | SEN | CHJ | NGG | MEI | SAN | YAU | SHT | HOI |
A0:GAP-CHI | B1:EUT-CHO | C2:BIM-YAN | D3:DIM-MOU | E4:MOO-SEN | F5:GAI-CHJ | G6:GEN-NGG | H7:SUN-MEI | I8:YAM-SAN | J9:QUI-YAU |
A10:GAP-SHT | B11:EUT-HOI | C0:BIM-CHI | D1:DIM-CHO | E2:MOO-YAN | F3:GAI-MOU | G4:GEN-SEN | H5:SUN-CHJ | I6:YAM-NGG | J7:QUI-MEI |
A8:GAP-SAN | B9:EUT-YAU | C10:BIM-SHT | D11:DIM-HOI | E0:MOO-CHI | F1:GAI-CHO | G2:GEN-YAN | H3:SUN-MOU | I4:YAM-SEN | J5:QUI-CHJ |
A6:GAP-NGG | B7:EUT-MEI | C8:BIM-SAN | D9:DIM-YAU | E10:MOO-SHT | F11:GAI-HOI | G0:GEN-CHI | H1:SUN-CHO | I2:YAM-YAN | J3:QUI-MOU |
A4:GAP-SEN | B5:EUT-CHJ | C6:BIM-NGG | D7:DIM-MEI | E8:MOO-SAN | F9:GAI-YAU | G10:GEN-SHT | H11:SUN-HOI | I0:YAM-CHI | J1:QUI-CHO |
A2:GAP-YAN | B3:EUT-MOU | C4:BIM-SEN | D5:DIM-CHJ | E6:MOO-NGG | F7:GAI-MEI | G8:GEN-SAN | H9:SUN-YAU | I10:YAM-SHT | J11:QUI-HOI |
1A:GAP-CHI | 2B:EUT-CHO | 3C:BIM-YAN | 4D:DIM-MOU | 5E:MOO-SEN | 6F:GAI-CHJ | 7G:GEN-NGG | 8H:SUN-MEI | 9I:YAM-SAN | 10J:QUI-YAU |
1K:GAP-SHT | 2L:EUT-HOI | 3A:BIM-CHI | 4B:DIM-CHO | 5C:MOO-YAN | 6D:GAI-MOU | 7E:GEN-SEN | 8F:SUN-CHJ | 9G:YAM-NGG | 10H:QUI-MEI |
1I:GAP-SAN | 2J:EUT-YAU | 3K:BIM-SHT | 4L:DIM-HOI | 5A:MOO-CHI | 6B:GAI-CHO | 7C:GEN-YAN | 8D:SUN-MOU | 9E:YAM-SEN | 10F:QUI-CHJ |
1G:GAP-NGG | 2H:EUT-MEI | 3I:BIM-SAN | 4J:DIM-YAU | 5K:MOO-SHT | 6L:GAI-HOI | 7A:GEN-CHI | 8B:SUN-CHO | 9C:YAM-YAN | 10D:QUI-MOU |
1E:GAP-SEN | 2F:EUT-CHJ | 3G:BIM-NGG | 4H:DIM-MEI | 5I:MOO-SAN | 6J:GAI-YAU | 7K:GEN-SHT | 8L:SUN-HOI | 9A:YAM-CHI | 10B:QUI-CHO |
1C:GAP-YAN | 2D:EUT-MOU | 3E:BIM-SEN | 4F:DIM-CHJ | 5G:MOO-NGG | 6H:GAI-MEI | 7I:GEN-SAN | 8J:SUN-YAU | 9K:YAM-SHT | 10L:QUI-HOI |
01: AA | 02: BB | 03: CC | 04: DD | 05: EE | 06: FF | 07: GG | 08: HH | 09: II | 10: JJ |
11: AK | 12: BL | 13: CA | 14: DB | 15: EC | 16: FD | 17: GE | 18: HF | 19: IG | 20: JH |
21: AI | 22: BJ | 23: CK | 24: DL | 25: EA | 26: FB | 27: GC | 28: HD | 29: IE | 30: JF |
31: AG | 32: BH | 33: CI | 34: DJ | 35: EK | 36: FL | 37: GA | 38: HB | 39: IC | 40: JD |
41: AE | 42: BF | 43: CG | 44: DH | 45: EI | 46: FJ | 47: GK | 48: HL | 49: IA | 50: JB |
51: AC | 52: BD | 53: CE | 54: DF | 55: EG | 56: FH | 57: GI | 58: HJ | 59: IK | 60: JL |
01:GAP-CHI | 02:EUT-CHO | 03:BIM-YAN | 04:DIM-MOU | 05:MOO-SEN | 06:GAI-CHJ | 07:GEN-NGG | 08:SUN-MEI | 09:YAM-SAN | 10:QUI-YAU |
11:GAP-SHT | 12:EUT-HOI | 13:BIM-CHI | 14:DIM-CHO | 15:MOO-YAN | 16:GAI-MOU | 17:GEN-SEN | 18:SUN-CHJ | 19:YAM-NGG | 20:QUI-MEI |
21:GAP-SAN | 22:EUT-YAU | 23:BIM-SHT | 24:DIM-HOI | 25:MOO-CHI | 26:GAI-CHO | 27:GEN-YAN | 28:SUN-MOU | 29:YAM-SEN | 30:QUI-CHJ |
31:GAP-NGG | 32:EUT-MEI | 33:BIM-SAN | 34:DIM-YAU | 35:MOO-SHT | 36:GAI-HOI | 37:GEN-CHI | 38:SUN-CHO | 39:YAM-YAN | 40:QUI-MOU |
41:GAP-SEN | 42:EUT-CHJ | 43:BIM-NGG | 44:DIM-MEI | 45:MOO-SAN | 46:GAI-YAU | 47:GEN-SHT | 48:SUN-HOI | 49:YAM-CHI | 50:QUI-CHO |
51:GAP-YAN | 52:EUT-MOU | 53:BIM-SEN | 54:DIM-CHJ | 55:MOO-NGG | 56:GAI-MEI | 57:GEN-SAN | 58:SUN-YAU | 59:YAM-SHT | 60:QUI-HOI |
Explanation | `Millennial Bounds' is the focus of `Millennial Fortune' because it shows the `Millennial Fortune' in a zone of human beings. The co-ordinate of vertical axis of the origin of `Millennial Bounds' always starts from the zone of `Soul' of the first modern wise man appeared on the Earth. Hence, ZM0=S. The origin of `Millennial Bounds' is different from the origin of `Millennial Fortune' and their co-ordinates usually are not the same. The former is the starting point of `Millennial Bounds'. It always starts from the zone of `Soul' of the first modern wise man appeared on the Earth and it marks the `Millennial Fortune' of human beings within a `Bounds' represented by a zone. The latter is the starting point of `Millennial Fortune'. It shows the influences of `Gravitational Waves' of `Timeons' for a pair of `Fortune Co-ordinates' in a millennium. 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 `Millennial Fortune' in a zone of `Millennial Bounds' structure the `Millennial Fortune' of human beings. The `Millennial Bounds' is revolving around clockwisely. It starts to move from the `Co-ordinates' of `Soul' at (UM0,ZM0) to the next `Fortune Co-ordinates' on a millennial base. The `Millennial 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 1,000 years is called `Millennial Fortune'. The origin of `Millennial Bounds Co-ordinates' is at (UM0,ZM0), where the values of `UM0' and `ZM0' are integers. `ZM0' 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. Millennial Bounds Origin Formula: UM0=3+{S&C[S<2:+2]}-2x{I{R[(1-y)/1000]/100} (Mod 5)} (Mod 10) & ZM0=S, S=m-A[h/2] (Mod 12). Or, UM0=3+{{m-A[h/2] (Mod 12)}&C[{m-A[h/2] (Mod 12)}<2:+2]}-2x{I{R[(1-y)/1000]/100} (Mod 5)} (Mod 10) & ZM0=m-A[h/2] (Mod 12). `I[n]' is an integer function such that it takes the integral part of number `n' without rounding up the number. `R[(1-y)/1000]' is a remainder function such that it takes the remainder of `1-y' divided by 1000. `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. |
Example | Assume the first modern wise man appeared on the Earth is on 17th Apr.,253,497B.C. and S=1. Find the co-ordindates of the origin of `Millennial Bounds' (UM0,ZM0). Apply the `Millennial Bounds Origin' Formula. UM0=3+{S&C[S<2:+2]}-2x{I{R[(1-y)/1000]/100} (Mod 5)} (Mod 10) & ZM0=S. UM0=3+{1&C[1<2:+2]}-2x{I{R[(1-253497)/1000]/100} (Mod 5)} (Mod 10) & ZM0=1. UM0=3+{1+2}-2x{I{R[-253496/1000]/100} (Mod 5)} (Mod 10) & ZM0=1. UM0=3+{1+2}-2x{I[-496/100] (Mod 5)} (Mod 10). UM0=3+3-2x{I[-4.96] (Mod 5)} (Mod 10). UM0=3+3-2x{-5 (Mod 5)} (Mod 10). UM0=3+3-2x{2x5-5} (Mod 10). UM0=6-2x5 (Mod 10). UM0=6-10 (Mod 10). UM0= -4 (Mod 10). UM0=10-4. UM0=6. The co-ordindates of the origin of `Millennial Bounds' are (6,1). |