Institute of Prediction Technology & Forensic Mathematics (PT&FM)
President: John Wong

Institute of Prediction Technology & Forensic Mathematics (PT&FM)

按此進入中文網頁Click here to view English version.

Analysis of Dayon, `Sam': Sam=1+m+d+I[h/23] (Mod 12)
Zone Number of `Sam' / Lunar day (d)123456789101112131415161718192021222324252627282930
January, m=13456789101101234567891011012345678
February, m=24567891011012345678910110123456789
March, m=356789101101234567891011012345678910
April, m=4678910110123456789101101234567891011
May, m=5789101101234567891011012345678910110
June, m=6891011012345678910110123456789101101
July, m=7910110123456789101101234567891011012
August, m=8101101234567891011012345678910110123
September, m=911012345678910110123456789101101234
October, m=100123456789101101234567891011012345
November, m=111234567891011012345678910110123456
December, m=122345678910110123456789101101234567


Analysis of Dayon, `Bat': Bat=1-m-d-I[h/23] (Mod 12)
Zone Number of `Bat' / Lunar day (d)123456789101112131415161718192021222324252627282930
January, m=1111098765432101110987654321011109876
February, m=210987654321011109876543210111098765
March, m=39876543210111098765432101110987654
April, m=48765432101110987654321011109876543
May, m=57654321011109876543210111098765432
June, m=66543210111098765432101110987654321
July, m=75432101110987654321011109876543210
August, m=843210111098765432101110987654321011
September, m=9321011109876543210111098765432101110
October, m=10210111098765432101110987654321011109
November, m=11101110987654321011109876543210111098
December, m=12011109876543210111098765432101110987


Analysis of Dayon, `Yan': Yan=8+d-A[h/2]+I[h/23] (Mod 12)
Zone Number of `Yan' / Lunar day (d)123456789101112131415161718192021222324252627282930
00:00:00-00:59:59910110123456789101101234567891011012
01:00:00-02:59:59891011012345678910110123456789101101
03:00:00-04:59:59789101101234567891011012345678910110
05:00:00-06:59:59678910110123456789101101234567891011
07:00:00-08:59:5956789101101234567891011012345678910
09:00:00-10:59:594567891011012345678910110123456789
11:00:00-12:59:593456789101101234567891011012345678
13:00:00-14:59:592345678910110123456789101101234567
15:00:00-16:59:591234567891011012345678910110123456
17:00:00-18:59:590123456789101101234567891011012345
19:00:00-20:59:5911012345678910110123456789101101234
21:00:00-22:59:59101101234567891011012345678910110123
23:00:00-23:59:59 10110123456789101101234567891011012 9


Analysis of Dayon, `Kwi': Kwi=2+d+A[h/2]+I[h/23] (Mod 12)
Zone Number of `Kwi' / Lunar day (d)123456789101112131415161718192021222324252627282930
00:00:00-00:59:593456789101101234567891011012345678
01:00:00-02:59:594567891011012345678910110123456789
03:00:00-04:59:5956789101101234567891011012345678910
05:00:00-06:59:59678910110123456789101101234567891011
07:00:00-08:59:59789101101234567891011012345678910110
09:00:00-10:59:59891011012345678910110123456789101101
11:00:00-12:59:59910110123456789101101234567891011012
13:00:00-14:59:59101101234567891011012345678910110123
15:00:00-16:59:5911012345678910110123456789101101234
17:00:00-18:59:590123456789101101234567891011012345
19:00:00-20:59:591234567891011012345678910110123456
21:00:00-22:59:592345678910110123456789101101234567
23:00:00-23:59:59 456789101101234567891011012345678 3


Analysis of `Dayon', Timeon related to `Stem' of day.
Zone Number of Dayon / Stem of Day (U)U=1U=2U=3U=4U=5U=6U=7U=8U=9U=10
Rlu=1+U+I[U/3]-I[U/5]-2xI[U/6]+I[U/7]+I[U/10] (Mod 12) 2 3 5 6 5 6 8 9 11 0
Rye=2+U+I[U/3]-I[U/5]-2xI[U/6]+I[U/7]+I[U/10] (Mod 12) 3 4 6 7 6 7 9 10 0 1
Rto=U+I[U/3]-I[U/5]-2xI[U/6]+I[U/7]+I[U/10] (Mod 12) 1 2 4 5 4 5 7 8 10 11
Rfu=6+U+I[U/4]+I[U/5]-2xI[U/6]-I[U/8] (Mod 12) 7 8 9 11 1 0 1 2 3 5
Rut=2-U-I[U/4]-I[U/5]+2xI[U/6]+I[U/8] (Mod 12) 1 0 11 9 7 8 7 6 5 3
Rch=4+U+I[U/3]-2xI[U/5]-I[U/6]+I[U/7]+2xI[U/10] (Mod 12) 5 6 8 9 8 9 11 0 2 3
Rkk=10-U-I[U/3]+2xI[U/5]+I[U/6]-I[U/7]-2xI[U/10] (Mod 12) 9 8 6 5 6 5 3 2 0 11
Rok=11-5xI[U/2]-4xI[U/3]+5xI[U/5]+4xI[U/6]-4xI[U/7]+7xI[U/10] (Mod 12) 11 6 2 9 2 9 5 0 8 3
Ryu=3+U+I[U/3]-2xI[U/5]-I[U/6]+I[U/7]+2xI[U/10] (Mod 12) 4 5 7 8 7 8 10 11 1 2
Rce=4+U+5xI[U/3]+4xI[U/4]+8xI[U/6]-7xI[U/7]-I[U/8]-3xI[U/9]+I[U/10] (Mod 12) 5 6 0 5 6 8 2 6 9 11
Rym=4+2U-8xI[U/3]+3xI[U/4]-5xI[U/5]+6xI[U/6]+4xI[U/7]-6xI[U/8]-3xI[U/9]-I[U/10] (Mod 12) 6 8 2 7 4 4 10 9 0 8

Analysis of `Dayon', Timeon related to `Root' of day.
Zone Number of Dayon / Root of Day (Z)Z=0Z=1Z=2Z=3Z=4Z=5Z=6Z=7Z=8Z=9Z=10Z=11
Rln=3-Z (Mod 12) 3 2 1 0 11 10 9 8 7 6 5 4
Rhe=9-Z (Mod 12) 9 8 7 6 5 4 3 2 1 0 11 10
Rhm=9+9xR[Z/4] (Mod 12) 9 6 3 0 9 6 3 0 9 6 3 0
Ryi=11+Z (Mod 12) 11 0 1 2 3 4 5 6 7 8 9 10
Rkm=9xR[Z/4] (Mod 12) 0 9 6 3 0 9 6 3 0 9 6 3
Rik=2+9xR[Z/4] (Mod 12) 2 11 8 5 2 11 8 5 2 11 8 5
Rwa=4+9xR[Z/4] (Mod 12) 4 1 10 7 4 1 10 7 4 1 10 7
Rhu=6+Z (Mod 12) 6 7 8 9 10 11 0 1 2 3 4 5
Rst=6+9xR[Z/4] (Mod 12) 6 3 0 9 6 3 0 9 6 3 0 9
Rcp=5+9xR[Z/4] (Mod 12) 5 2 11 8 5 2 11 8 5 2 11 8
Rsu=5+8Z (Mod 12) 5 1 9 5 1 9 5 1 9 5 1 9
Rho=1+Z (Mod 12) 1 2 3 4 5 6 7 8 9 10 11 0
Rmn=11+9xR[Z/4] (Mod 12) 11 8 5 2 11 8 5 2 11 8 5 2

Formulae of Dayons (Timeons of Day)
Explanation There are altogether eighteen `Timeons' which are directly or partially related to lunar day. They are named as `Fate Particle' of `Day' or `Dayon'. Fourteen of them are very significant. They belong to the family of `Chz'. They are named as `Family of Chz' or `Chzons'. The names of other `Dayons' related to lunar day are: 1.`Sam', 2.`Bat', 3.`Yan', 4.`Kwi'. `Sam' means `Elevation' or `Sitting'. `Bat' means `Ride' or `Sitting'. `Yan' means `Grace'. `Kwi' means `Prestigious' or `Nobility'. Other `Dayons' which are relate to `Stem' or `Root' are: 1.`Rlu', 2.`Rye', 3.`Rto', 4.`Rfu', 5.`Rut', 6.`Rch', 7.`Rkk', 8.`Rok', 9.`Ryu', 10.`Rce', 11.`Rym', 12.`Rln', 13.`Rhe', 14.`Rhm', 15.`Ryi', 16.`Rkm', 17.`Rik', 18.`Rwa', 19.`Rhu', 20.`Rst', 21.`Rcp', 22.`Rsu', 23.`Rho', 24.`Rmn'. `Dayons' have fantastic powers. They give different invisible influences on human destiny within a whole day. They are dark matters. In general, `Rlu' means `Power' or `Wealth'. `Rye' means `Injury' or `Destruction'.`Rto' means `Injury' or `Destruction'. `Rfu' means `Outstanding'. `Rut' means `Outstanding'. `Rch' means `Knowledge' or `Education'. `Rkk' means `Oration' or `Music'. `Rok' means `Learning' or `School'. `Ryu' means `Vehicle' or `Transportation'. `Rce' means `Eating' or `Food'. `Rym' means `Lascivious' or `Masturbation'. `Rln' means `Marriage' or `Female'. `Rhe' means `Happiness' or `Pregnancy'. `Rhm' means `Lustful' or `Adultery'. `Ryi' means `Coquetry' or `Sex'. `Rkm' means `Wealth' or `Money'. `Rik' means `Ride' or `Motion'. `Rwa' means `Desolation' or `Devotion'. `Rhu' means `Weakness' or `Empty'. `Rst' means `Calamity' or `Death'. `Rcp' means `Robbery' or `Disaster'. `Rsu' means `Puncture' or `Wounded'. `Rho' means `Consumption' or `Exhaustion'. `Rmn' means `Death' or `Loss'. The Dayon Formulae are: Sam=1+m+d+I[h/23] (Mod 12), Bat=1-m-d-I[h/23] (Mod 12), Yan=8+d-A[h/2]+I[h/23] (Mod 12), Kwi=2+d+A[h/2]+I[h/23] (Mod 12), Rlu=1+U+I[U/3]-I[U/5]-2xI[U/6]+I[U/7]+I[U/10] (Mod 12), Rye=2+U+I[U/3]-I[U/5]-2xI[U/6]+I[U/7]+I[U/10] (Mod 12), Rto=U+I[U/3]-I[U/5]-2xI[U/6]+I[U/7]+I[U/10] (Mod 12), Rfu=6+U+I[U/4]+I[U/5]-2xI[U/6]-I[U/8] (Mod 12), Rut=2-U-I[U/4]-I[U/5]+2xI[U/6]+I[U/8] (Mod 12), Rch=4+U+I[U/3]-2xI[U/5]-I[U/6]+I[U/7]+2xI[U/10] (Mod 12), Rkk=10-U-I[U/3]+2xI[U/5]+I[U/6]-I[U/7]-2xI[U/10] (Mod 12), Rok=11-5xI[U/2]-4xI[U/3]+5xI[U/5]+4xI[U/6]-4xI[U/7]+7xI[U/10] (Mod 12), Ryu=3+U+I[U/3]-2xI[U/5]-I[U/6]+I[U/7]+2xI[U/10] (Mod 12), Rce=4+U+5xI[U/3]+4xI[U/4]+8xI[U/6]-7xI[U/7]-I[U/8]-3xI[U/9]+I[U/10] (Mod 12), Rym=4+2U-8xI[U/3]+3xI[U/4]-5xI[U/5]+6xI[U/6]+4xI[U/7]-6xI[U/8]-3xI[U/9]-I[U/10] (Mod 12), Rln=3-Z (Mod 12), Rhe=9-Z (Mod 12), Rhm=9+9xR[Z/4] (Mod 12), Ryi=11+Z (Mod 12), Rkm=9xR[Z/4] (Mod 12), Rik=2+9xR[Z/4] (Mod 12), Rwa=4+9xR[Z/4] (Mod 12), Rhu=6+Z (Mod 12), Rst=6+9xR[Z/4] (Mod 12), Rcp=5+9xR[Z/4] (Mod 12), Rsu=5+8Z (Mod 12), Rho=1+Z (Mod 12) and Rmn=11+9xR[Z/4] (Mod 12). `Z' is `Root of Day'. `m' is the month of birth of a person after `Joint of Month' in Gregorian calendar. If the time of birth is before `Joint of Month', it is regarded as previous month. Since gravity of the moon can also affect human thinkings and behaviours, `d' is the lunar day of a month, not reckoned in Gregorian calendar. `h' is the time reckoning on a 24-hour base. The unit is hour. If the time is after 11:00 p.m., the day is regarded as next day and the time is regarded as 0:00 a.m.. `A[n]' is an approximated integer function such that it takes the nearest whole number of `n'. `I[n]' is an integer function such that it takes the integral part of number `n' without rounding up it. `R[a/b]' is a remainder function such that it takes the remainder of `a' divided by `b'. `b' is a natural number. `D=(Mod 12)' is a modulated function such that if D>11 then `D' becomes `D-12' and if D<0 then `D' becomes `D+12'. Thus, the value range of `D=(Mod 12)' is from 0 to 11.
Example: SamAssume the time is 11:40:30 p.m. on 26th January of 2015. It is the seventh day of the twelfth month in lunar calendar. The `Year Code' (YC) is (1,6). The `Month Code' (MC) is (4,1). The `Day Code' (DC) is (9,2). The `Hour Code' (HC) is (9,0). Since 11:40:30 p.m. on 26th January of 2015 is after `Joint of January' which is at 0:57 a.m. on 6th January of 2015, m=1 and d=7. h=23+(40/60)+(30/3600) and h=23.67499 . Apply the `Dayon Formulae'. Sam=1+m+d+I[h/23] (Mod 12). Sam=1+1+7+I[23.67499/23] (Mod 12). Sam=9+I[1.02934] (Mod 12). Sam=9+1 (Mod 12). Sam=10 (Mod 12). Sam=10.
Example: BatAssume the time is 11:40:30 p.m. on 26th January of 2015. It is the seventh day of the twelfth month in lunar calendar. The `Year Code' (YC) is (1,6). The `Month Code' (MC) is (4,1). The `Day Code' (DC) is (9,2). The `Hour Code' (HC) is (9,0). Since 11:40:30 p.m. on 26th January of 2015 is after `Joint of January' which is at 0:57 a.m. on 6th January of 2015, m=1 and d=7. h=23+(40/60)+(30/3600) and h=23.67499 . Apply the `Dayon Formulae'. Bat=1-m-d-I[h/23] (Mod 12). Bat=1-1-7-I[23.67499/23] (Mod 12). Bat=-7-I[1.02934] (Mod 12). Bat=-7-1 (Mod 12). Bat=-8 (Mod 12). Bat=12-8. Bat=4.
Example: YanAssume the time is 11:40:30 p.m. on 26th January of 2015. It is the seventh day of the twelfth month in lunar calendar. The `Year Code' (YC) is (1,6). The `Month Code' (MC) is (4,1). The `Day Code' (DC) is (9,2). The `Hour Code' (HC) is (9,0). Since 11:40:30 p.m. on 26th January of 2015 is after `Joint of January' which is at 0:57 a.m. on 6th January of 2015, m=1 and d=7. h=23+(40/60)+(30/3600) and h=23.67499 . Apply the `Dayon Formulae'. Yan=8+d-A[h/2]+I[h/23] (Mod 12). Yan=8+7-A[23.67499/2]+I[23.67499/23] (Mod 12). Yan=15-A[11.83749]+I[1.02934] (Mod 12). Yan=15-12+1 (Mod 12). Yan=4 (Mod 12). Yan=4.
Example: KwiAssume the time is 11:40:30 p.m. on 26th January of 2015. It is the seventh day of the twelfth month in lunar calendar. The `Year Code' (YC) is (1,6). The `Month Code' (MC) is (4,1). The `Day Code' (DC) is (9,2). The `Hour Code' (HC) is (9,0). Since 11:40:30 p.m. on 26th January of 2015 is after `Joint of January' which is at 0:57 a.m. on 6th January of 2015, m=1 and d=7. h=23+(40/60)+(30/3600) and h=23.67499 . Apply the `Dayon Formulae'. Kwi=2+d+A[h/2]+I[h/23] (Mod 12). Kwi=2+7+A[23.67499/2]+I[23.67499/23] (Mod 12). Kwi=9+A[11.83749]+I[1.02934] (Mod 12). Kwi=9+12+1 (Mod 12). Kwi=22 (Mod 12). Kwi=22-12. Kwi=10.
Example: RluAssume the time is 11:40:30 p.m. on 26th January of 2015. It is the seventh day of the twelfth month in lunar calendar. The `Year Code' (YC) is (1,6). The `Month Code' (MC) is (4,1). The `Day Code' (DC) is (9,2). The `Hour Code' (HC) is (9,0). Since DC=(9,2), the `Stem of Day' is U=9. Apply the `Dayon Formula', Rlu=1+U+I[U/3]-I[U/5]-2xI[U/6]+I[U/7]+I[U/10] (Mod 12). Rlu=1+9+I[9/3]-I[9/5]-2xI[9/6]+I[9/7]+I[9/10] (Mod 12). Rlu=10+I[3]-I[1.8]-2xI[1.5]+I[1.2857]+I[0.9] (Mod 12). Rlu=10+3-1-2x1+1+0 (Mod 12). Rlu=11 (Mod 12). Rlu=11.
Example: RyeAssume the time is 11:40:30 p.m. on 26th January of 2015. It is the seventh day of the twelfth month in lunar calendar. The `Year Code' (YC) is (1,6). The `Month Code' (MC) is (4,1). The `Day Code' (DC) is (9,2). The `Hour Code' (HC) is (9,0). Since DC=(9,2), the `Stem of Day' is U=9. Apply the `Dayon Formula', Rye=2+U+I[U/3]-I[U/5]-2xI[U/6]+I[U/7]+I[U/10] (Mod 12). Rye=2+9+I[9/3]-I[9/5]-2xI[9/6]+I[9/7]+I[9/10] (Mod 12). Rye=11+I[3]-I[1.8]-2xI[1.5]+I[1.2857]+I[0.9] (Mod 12). Rye=11+3-1-2x1+1+0 (Mod 12). Rye=12 (Mod 12). Rye=12-12. Rye=0.
Example: RtoAssume the time is 11:40:30 p.m. on 26th January of 2015. It is the seventh day of the twelfth month in lunar calendar. The `Year Code' (YC) is (1,6). The `Month Code' (MC) is (4,1). The `Day Code' (DC) is (9,2). The `Hour Code' (HC) is (9,0). Since DC=(9,2), the `Stem of Day' is U=9. Apply the `Dayon Formula', Rto=U+I[U/3]-I[U/5]-2xI[U/6]+I[U/7]+I[U/10] (Mod 12). Rto=9+I[9/3]-I[9/5]-2xI[9/6]+I[9/7]+I[9/10] (Mod 12). Rto=9+I[3]-I[1.8]-2xI[1.5]+I[1.2857]+I[0.9] (Mod 12). Rto=9+3-1-2x1+1+0 (Mod 12). Rto=10 (Mod 12). Rto=10.
Example: RfuAssume the time is 11:40:30 p.m. on 26th January of 2015. It is the seventh day of the twelfth month in lunar calendar. The `Year Code' (YC) is (1,6). The `Month Code' (MC) is (4,1). The `Day Code' (DC) is (9,2). The `Hour Code' (HC) is (9,0). Since DC=(9,2), the `Stem of Day' is U=9. Apply the `Dayon Formula', Rfu=6+U+I[U/4]+I[U/5]-2xI[U/6]-I[U/8] (Mod 12). Rfu=6+9+I[9/4]+I[9/5]-2xI[9/6]-I[9/8] (Mod 12). Rfu=15+I[2.25]+I[1.8]-2xI[1.5]-I[1.125] (Mod 12). Rfu=15+2+1-2x1-1 (Mod 12). Rfu=15 (Mod 12). Rfu=15-12. Rfu=3.
Example: RutAssume the time is 11:40:30 p.m. on 26th January of 2015. It is the seventh day of the twelfth month in lunar calendar. The `Year Code' (YC) is (1,6). The `Month Code' (MC) is (4,1). The `Day Code' (DC) is (9,2). The `Hour Code' (HC) is (9,0). Since DC=(9,2), the `Stem of Day' is U=9. Apply the `Dayon Formula', Rut=2-U-I[U/4]-I[U/5]+2xI[U/6]+I[U/8] (Mod 12). Rut=2-9-I[9/4]-I[9/5]+2xI[9/6]+I[9/8] (Mod 12). Rut=-7-I[2.25]-I[1.8]+2xI[1.5]+I[1.125] (Mod 12). Rut=-7-2-1+2x1+1 (Mod 12). Rut=-7 (Mod 12). Rut=12-7. Rut=5.
Example: RchAssume the time is 11:40:30 p.m. on 26th January of 2015. It is the seventh day of the twelfth month in lunar calendar. The `Year Code' (YC) is (1,6). The `Month Code' (MC) is (4,1). The `Day Code' (DC) is (9,2). The `Hour Code' (HC) is (9,0). Since DC=(9,2), the `Stem of Day' is U=9. Apply the `Dayon Formula', Rch=4+U+I[U/3]-2xI[U/5]-I[U/6]+I[U/7]+2xI[U/10] (Mod 12). Rch=4+9+I[9/3]-2xI[9/5]-I[9/6]+I[9/7]+2xI[9/10] (Mod 12). Rch=13+I[3]-2xI[1.8]-I[1.5]+I[1.2857]+2xI[0.9] (Mod 12). Rch=13+3-2x1-1+1+2x0 (Mod 12). Rch=14 (Mod 12). Rch=14-12. Rch=2.
Example: RkkAssume the time is 11:40:30 p.m. on 26th January of 2015. It is the seventh day of the twelfth month in lunar calendar. The `Year Code' (YC) is (1,6). The `Month Code' (MC) is (4,1). The `Day Code' (DC) is (9,2). The `Hour Code' (HC) is (9,0). Since DC=(9,2), the `Stem of Day' is U=9. Apply the `Dayon Formula', Rkk=10-U-I[U/3]+2xI[U/5]+I[U/6]-I[U/7]-2xI[U/10] (Mod 12). Rkk=10-9-I[9/3]+2xI[9/5]+I[9/6]-I[9/7]-2xI[9/10] (Mod 12). Rkk=1-I[3]+2xI[1.8]+I[1.5]-I[1.2857]-2xI[0.9] (Mod 12). Rkk=1-3+2x1+1-1-2x0 (Mod 12). Rkk=0 (Mod 12). Rkk=0.
Example: RokAssume the time is 11:40:30 p.m. on 26th January of 2015. It is the seventh day of the twelfth month in lunar calendar. The `Year Code' (YC) is (1,6). The `Month Code' (MC) is (4,1). The `Day Code' (DC) is (9,2). The `Hour Code' (HC) is (9,0). Since DC=(9,2), the `Stem of Day' is U=9. Apply the `Dayon Formula', Rok=11-5xI[U/2]-4xI[U/3]+5xI[U/5]+4xI[U/6]-4xI[U/7]+7xI[U/10] (Mod 12). Rok=11-5xI[9/2]-4xI[9/3]+5xI[9/5]+4xI[9/6]-4xI[9/7]+7xI[9/10] (Mod 12). Rok=11-5xI[4.5]-4xI[3]+5xI[1.8]+4xI[1.5]-4xI[1.2857]+7xI[0.9] (Mod 12). Rok=11-5x4-4x3+5x1+4x1-4x1+7x0 (Mod 12). Rok=-16 (Mod 12). Rok=12x2-16. Rok=8.
Example: RyuAssume the time is 11:40:30 p.m. on 26th January of 2015. It is the seventh day of the twelfth month in lunar calendar. The `Year Code' (YC) is (1,6). The `Month Code' (MC) is (4,1). The `Day Code' (DC) is (9,2). The `Hour Code' (HC) is (9,0). Since DC=(9,2), the `Stem of Day' is U=9. Apply the `Dayon Formula', Ryu=3+U+I[U/3]-2xI[U/5]-I[U/6]+I[U/7]+2xI[U/10] (Mod 12). Ryu=3+9+I[9/3]-2xI[9/5]-I[9/6]+I[9/7]+2xI[9/10] (Mod 12). Ryu=12+I[3]-2xI[1.8]-I[1.5]+I[1.2857]+2xI[0.9] (Mod 12). Ryu=12+3-2x1-1+1+2x0 (Mod 12). Ryu=1 (Mod 12). Ryu=1
Example: RceAssume the time is 11:40:30 p.m. on 26th January of 2015. It is the seventh day of the twelfth month in lunar calendar. The `Year Code' (YC) is (1,6). The `Month Code' (MC) is (4,1). The `Day Code' (DC) is (9,2). The `Hour Code' (HC) is (9,0). Since DC=(9,2), the `Stem of Day' is U=9. Apply the `Dayon Formula', Rce=4+U+5xI[U/3]+4xI[U/4]+8xI[U/6]-7xI[U/7]-I[U/8]-3xI[U/9]+I[U/10] (Mod 12). Rce=4+9+5xI[9/3]+4xI[9/4]+8xI[9/6]-7xI[9/7]-I[9/8]-3xI[9/9]+I[9/10] (Mod 12). Rce=13+5xI[3]+4xI[2.25]+8xI[1.5]-7xI[1.2857]-I[1.125]-3xI[1]+I[0.9] (Mod 12). Rce=13+5x3+4x2+8x1-7x1-1-3x1+0 (Mod 12). Rce=33 (Mod 12). Rce=33-12x2. Rce=9.
Example: RymAssume the time is 11:40:30 p.m. on 26th January of 2015. It is the seventh day of the twelfth month in lunar calendar. The `Year Code' (YC) is (1,6). The `Month Code' (MC) is (4,1). The `Day Code' (DC) is (9,2). The `Hour Code' (HC) is (9,0). Since DC=(9,2), the `Stem of Day' is U=9. Apply the `Dayon Formula', Rym=4+2U-8xI[U/3]+3xI[U/4]-5xI[U/5]+6xI[U/6]+4xI[U/7]-6xI[U/8]-3xI[U/9]-I[U/10] (Mod 12). Rym=4+2x9-8xI[9/3]+3xI[9/4]-5xI[9/5]+6xI[9/6]+4xI[9/7]-6xI[9/8]-3xI[9/9]-I[9/10] (Mod 12). Rym=22-8xI[3]+3xI[2.25]-5xI[1.8]+6xI[1.5]+4xI[1.2857]-6xI[1.125]-3xI[1]-I[0.9] (Mod 12). Rym=22-8x3+3x2-5x1+6x1+4x1-6x1-3x1-0 (Mod 12). Rym=0 (Mod 12). Rym=0.
Example: RlnAssume the time is 11:40:30 p.m. on 26th January of 2015. It is the seventh day of the twelfth month in lunar calendar. The `Year Code' (YC) is (1,6). The `Month Code' (MC) is (4,1). The `Day Code' (DC) is (9,2). The `Hour Code' (HC) is (9,0). Since DC=(9,2), the `Root of Day' is Z=2. Apply the `Dayon Formula', Rln=3-Z (Mod 12). Rln=3-2 (Mod 12). Rln=1 (Mod 12). Rln=1.
Example: RheAssume the time is 11:40:30 p.m. on 26th January of 2015. It is the seventh day of the twelfth month in lunar calendar. The `Year Code' (YC) is (1,6). The `Month Code' (MC) is (4,1). The `Day Code' (DC) is (9,2). The `Hour Code' (HC) is (9,0). Since DC=(9,2), the `Root of Day' is Z=2. Apply the `Dayon Formula', Rhe=9-Z (Mod 12). Rhe=9-2 (Mod 12). Rhe=7 (Mod 12). Rhe=7.
Example: RhmAssume the time is 11:40:30 p.m. on 26th January of 2015. It is the seventh day of the twelfth month in lunar calendar. The `Year Code' (YC) is (1,6). The `Month Code' (MC) is (4,1). The `Day Code' (DC) is (9,2). The `Hour Code' (HC) is (9,0). Since DC=(9,2), the `Root of Day' is Z=2. Apply the `Dayon Formula', Rhm=9+9xR[Z/4] (Mod 12). Rhm=9+9xR[2/4] (Mod 12). Rhm=9+9x2 (Mod 12). Rhm=27 (Mod 12). Rhm=27-12x2. Rhm=3.
Example: RyiAssume the time is 11:40:30 p.m. on 26th January of 2015. It is the seventh day of the twelfth month in lunar calendar. The `Year Code' (YC) is (1,6). The `Month Code' (MC) is (4,1). The `Day Code' (DC) is (9,2). The `Hour Code' (HC) is (9,0). Since DC=(9,2), the `Root of Day' is Z=2. Apply the `Dayon Formula', Ryi=11+Z (Mod 12). Ryi=11+2 (Mod 12). Ryi=13 (Mod 12). Ryi=13-12. Ryi=1.
Example: RkmAssume the time is 11:40:30 p.m. on 26th January of 2015. It is the seventh day of the twelfth month in lunar calendar. The `Year Code' (YC) is (1,6). The `Month Code' (MC) is (4,1). The `Day Code' (DC) is (9,2). The `Hour Code' (HC) is (9,0). Since DC=(9,2), the `Root of Day' is Z=2. Apply the `Dayon Formula', Rkm=9xR[Z/4] (Mod 12). Rkm=9xR[2/4] (Mod 12). Rkm=9x2 (Mod 12). Rkm=18 (Mod 12). Rkm=18-12. Rkm=6.
Example: RikAssume the time is 11:40:30 p.m. on 26th January of 2015. It is the seventh day of the twelfth month in lunar calendar. The `Year Code' (YC) is (1,6). The `Month Code' (MC) is (4,1). The `Day Code' (DC) is (9,2). The `Hour Code' (HC) is (9,0). Since DC=(9,2), the `Root of Day' is Z=2. Apply the `Dayon Formula', Rik=2+9xR[Z/4] (Mod 12). Rik=2+9xR[2/4] (Mod 12). Rik=2+9x2 (Mod 12). Rik=20 (Mod 12). Rik=20-12. Rik=8.
Example: RwaAssume the time is 11:40:30 p.m. on 26th January of 2015. It is the seventh day of the twelfth month in lunar calendar. The `Year Code' (YC) is (1,6). The `Month Code' (MC) is (4,1). The `Day Code' (DC) is (9,2). The `Hour Code' (HC) is (9,0). Since DC=(9,2), the `Root of Day' is Z=2. Apply the `Dayon Formula', Rwa=4+9xR[Z/4] (Mod 12). Rwa=4+9xR[2/4] (Mod 12). Rwa=4+9x2 (Mod 12). Rwa=22 (Mod 12). Rwa=22-12. Rwa=10.
Example: RhuAssume the time is 11:40:30 p.m. on 26th January of 2015. It is the seventh day of the twelfth month in lunar calendar. The `Year Code' (YC) is (1,6). The `Month Code' (MC) is (4,1). The `Day Code' (DC) is (9,2). The `Hour Code' (HC) is (9,0). Since DC=(9,2), the `Root of Day' is Z=2. Apply the `Dayon Formula', Rhu=6+Z (Mod 12). Rhu=6+2 (Mod 12). Rhu=8 (Mod 12). Rhu=8.
Example: RstAssume the time is 11:40:30 p.m. on 26th January of 2015. It is the seventh day of the twelfth month in lunar calendar. The `Year Code' (YC) is (1,6). The `Month Code' (MC) is (4,1). The `Day Code' (DC) is (9,2). The `Hour Code' (HC) is (9,0). Since DC=(9,2), the `Root of Day' is Z=2. Apply the `Dayon Formula', Rst=6+9xR[Z/4] (Mod 12). Rst=6+9xR[2/4] (Mod 12). Rst=6+9x2 (Mod 12). Rst=24 (Mod 12). Rst=24-12x2. Rst=0.
Example: RcpAssume the time is 11:40:30 p.m. on 26th January of 2015. It is the seventh day of the twelfth month in lunar calendar. The `Year Code' (YC) is (1,6). The `Month Code' (MC) is (4,1). The `Day Code' (DC) is (9,2). The `Hour Code' (HC) is (9,0). Since DC=(9,2), the `Root of Day' is Z=2. Apply the `Dayon Formula', Rcp=5+9xR[Z/4] (Mod 12). Rcp=5+9xR[2/4] (Mod 12). Rcp=5+9x2 (Mod 12). Rcp=23 (Mod 12). Rcp=23-12. Rcp=11.
Example: RsuAssume the time is 11:40:30 p.m. on 26th January of 2015. It is the seventh day of the twelfth month in lunar calendar. The `Year Code' (YC) is (1,6). The `Month Code' (MC) is (4,1). The `Day Code' (DC) is (9,2). The `Hour Code' (HC) is (9,0). Since DC=(9,2), the `Root of Day' is Z=2. Apply the `Dayon Formula', Rsu=5+8Z (Mod 12). Rsu=5+8x2 (Mod 12). Rsu=5+16 (Mod 12). Rsu=21 (Mod 12). Rsu=21-12. Rsu=9.
Example: RhoAssume the time is 11:40:30 p.m. on 26th January of 2015. It is the seventh day of the twelfth month in lunar calendar. The `Year Code' (YC) is (1,6). The `Month Code' (MC) is (4,1). The `Day Code' (DC) is (9,2). The `Hour Code' (HC) is (9,0). Since DC=(9,2), the `Root of Day' is Z=2. Apply the `Dayon Formula', Rho=1+Z (Mod 12). Rho=1+2 (Mod 12). Rho=3 (Mod 12). Rho=3.
Example: RmnAssume the time is 11:40:30 p.m. on 26th January of 2015. It is the seventh day of the twelfth month in lunar calendar. The `Year Code' (YC) is (1,6). The `Month Code' (MC) is (4,1). The `Day Code' (DC) is (9,2). The `Hour Code' (HC) is (9,0). Since DC=(9,2), the `Root of Day' is Z=2. Apply the `Dayon Formula', Rmn=11+9xR[Z/4] (Mod 12). Rmn=11+9xR[2/4] (Mod 12). Rmn=11+9x2 (Mod 12). Rmn=29 (Mod 12). Rmn=29-12x2. Rmn=5.