count-e

Explanation	In `Time Genetics', fate is a comprehensive term. It can represent the whole of the person's spirit, thought, soul, and body, or only one of the spirit, thought, soul, and body, such as usually `Soul' is used to represent fate. `Countenance' is an abstract term in `Time Genetics'. It can be regarded as the `Biological Character' of a person. In `Time Genetics', `Countenance' is an invisible `Virtual Focus'. The `Virtual Focus' (Countenance) will move in the space as time changes. Occasionly, the track of it coincides with a particular `Timeon' and this `Timeon' affects one's `Countenance' severely throughout his life. Hence, the main characteristics of one's `Countenance' can be represented by the disposition of this `Timeon'. Since, as time passing by, there are various `Timeons' moving in and out of a zone, one's `Countenance' is also affected by these wandering `Timeons'. One's `Appearance' and `Trunk' always changes aganist time. Actually, based on the `Theory of `Time Genetics', no two individuals can have absolutely identical `Countenance' in the world. In astrology, `Countenance' is labelled as `Bodymaster' (BM). The conventional symbol used to denote `Bodymaster' is `BM'. `Bodymaster' is `Thought'. The Countenance Formula is: Co=Chzon/Houron &C[y,m,d,h]. If Co=Chzon, the location (zone) is equal to `Ke', `Tg', `Su' or `Le'. These are `Chzons'. `Chzons' are `Timeons' related to `Destiny Characteristics' (Chz). The variables of `Chz' are solar year (y), solar month (m), lunar day (d) and the time (h) reckoning on a 24-hour base. If Co=Houron, the zone is equal to `Ch' or `Im'. `Ch' and `Im' are `Hourons'. `Houron' is a `Timeon' related to a `Couple Hours'. The Countenance Formula is Co=BM=Chzon/Houron:R=R[y/12]&C[R=0:Le, R=1:Tg, R=2:Ch, R=3:Ke, R=4:Im, R=5:Su, R=6:Le, R=7:Tg, R=8:Ch, R=9:Ke, R=10:Im, R=11:Su]. `y' is the year of birth of a person in Gregorian calendar after `Joint of Year'. `Joint of Year' is `Joint of February'. If the time of birth is before `Joint of February', it is regarded as previous year. `m' is the month of birth of a person in Gregorian calendar after `Joint of Month'. If the time of birth of a person is before `Joint of Month', it is regarded as previous month. `d' is the lunar day of birth of a person. `h' is the real time at birth of a person reckoning on a 24-hour base. The unit is hour. `&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.). `R[y/n]' is a remainder function such that it takes the remainder of `y' divided by `n'. `n' is a natural number. Natural numbers are 1,2,3,4,5,……. Zero is not a natural number. `I[n]' is an integer function such that it takes the integral part of number `n' without rounding up the number. `A[n]' is an approximated integer function such that it takes the nearest whole number of `n'. `Co=(Mod 12)' is a modulated function such that if Co>11 then `Co' becomes `Co-12' and if Co<0 then `Co' becomes `Co+12'. Thus, the value range of `Co=(Mod 12)' is from 0 to 11. Timeon `Le’ Formula is: Le=9-Chz (Mod 12). Timeon `Tg’ Formula is: Tg=7+Chz (Mod 12). Timeon `Ke’ Formula is: Ke=11+Chz (Mod 12). Timeon `Su’ Formula is: Su=8-Chz (Mod 12). There is no standard general formula of `Chz’. Thus, `Chz’ Formula cannot be applied to find out the location of `Chz’ in other time intervals, such as mullennium, century, decade, annual, etc. Timeon `Ch’ formula is: Ch=10-A[h/2] (Mod 12). `h' is the real time reckoning on a 24-hour base. The unit is hour. `A[n]' is an approximated integer function such that it takes the nearest whole number of `n'. `Ch=(Mod 12)' is a modulated function such that if Ch>11 then `Ch' becomes `Ch-12' and if Ch<0 then `Ch' becomes `Ch+12'. Thus, the value range of `Ch=(Mod 12)' is from 0 to 11. The standard general formula of `Ch’ is: Ch=10-Z (Mod 12). `Z' is the `Root' of any time intervals. `Ch=(Mod 12)' is a modulated function such that if Ch>11 then `Ch' becomes `Ch-12' and if Ch<0 then `Ch' becomes `Ch+12'. Thus, the value range of `Ch=(Mod 12)' is from 0 to 11. The standard general formula is applied to find out the location of `Timeon' in different time intervals, such as mullennium, century, decade, annual, month, day, 2 hours, 10 minutes, 50 seconds and tiny seconds, approximately 4.17 seconds. The method is firstly find out the value of the variable in the standard general formula. Then, substitute the value of the variable in the standard general formula to find out the unknown. Thus, the location of timeon `Ch' can be found in any time interval. Timeon `Im’ Formula for `y' A.D. is: Im=3+3xR[(y+3)/4]-5xR[(y+1)/2]+7xI[R[(y+3)/4]/3]+A[h/2] (Mod 12). `y' is the year of birth of a person in Gregorian calendar after `Joint of Year'. `Joint of Year' is `Joint of February'. If the time of birth is before `Joint of February', it is regarded as previous year. `h' is the real time reckoning on a 24-hour base. The unit is hour. `R[y/n]' is a remainder function such that it takes the remainder of `y' divided by `n'. `n' is a natural number. Natural numbers are 1,2,3,4,5,……. Zero is not a natural number. `I[n]' is an integer function such that it takes the integral part of number `n' without rounding up the number. `A[n]' is an approximated integer function such that it takes the nearest whole number of `n'. `Im=(Mod 12)' is a modulated function such that if Im>11 then `Im' becomes `Im-12' and if Im<0 then `Im' becomes `Im+12'. Thus, the value range of `Im=(Mod 12)' is from 0 to 11. The standard general formula of `Im’ is: Im=2+R[Z/4]-3xI[Z/2]+7xI[Z/3]-I[Z/4]-7xI[Z/6]+7xI[Z/7]-7xI[Z/9]+7xI[Z/11]+A[h/2]. `Z' is the `Root' after the `Joint of February'. `h' is the real time reckoning on a 24-hour base. The unit is hour. `I[n]' is an integer function such that it takes the integral part of number `n' without rounding up the number. `A[n]' is an approximated integer function such that it takes the nearest whole number of `n'. `Im=(Mod 12)' is a modulated function such that if Im>11 then `Im' becomes `Im-12' and if Im<0 then `Im' becomes `Im+12'. Thus, the value range of `Im=(Mod 12)' is from 0 to 11. The standard general formula of `Im’ can only be use in finding the location of timeon `Im' when `Z' is the `Root' of year. It cannot be use to find the location of `Im' for other time intervals.
Example: Co=Chzon	If y=1998, m=4, d=14, h=5:37 and Chz=8, R[y/12]=R[1998/12]=6. Apply the Countenance Formula, Co=BM=Chzon/Houron:R=R[y/12]&C[R=0:Le, R=1:Tg, R=2:Ch, R=3:Ke, R=4:Im, R=5:Su, R=6:Le, R=7:Tg, R=8:Ch, R=9:Ke, R=10:Im, R=11:Su]. Co=Le. `Le' is a `Chzon' and `Le=9-Chz (Mod 12). Thus, Co=9-Chz (Mod 12). Co=9-8 (Mod 12). Co=1 (Mod 12). Co=1. Thus, the location of timeon `Co’ is in `Zone 1'. Since `Le' belongs to `Chzon' and it is a timeon in the Family of `Chz', it moves from one location to another location in four hour's time. the `Countenance' of the person is classified as active.
Example I: Co=Houron	If y=2000, m=9, d=7, h=13:15 and Chz=2, R[y/12]=R[2000/12]=8. Apply the Countenance Formula, Co=BM=Chzon/Houron:R=R[y/12]&C[R=0:Le, R=1:Tg, R=2:Ch, R=3:Ke, R=4:Im, R=5:Su, R=6:Le, R=7:Tg, R=8:Ch, R=9:Ke, R=10:Im, R=11:Su]. Co=Ch. `Ch' is an `Houron' and `Ch=10-A[h/2] (Mod 12)'. Thus, Co=10-A[h/2] (Mod 12). Co=10-A[(13+15/60)/2] (Mod 12). Co=10-A[(13.25)/2] (Mod 12). Co=10-A[6.625] (Mod 12). Co=10-7 (Mod 12). Co=3 (Mod 12). Co=3. Thus, the location of timeon `Co’ is in `Zone 3'. Since `Ch' is an `Houron', it moves from one location to another location in two hour's time. the `Countenance' of the person is classified as very active.
Example II: Co=Houron	If y=1990, m=2, d=19, h=21:35 and Chz=11, find out the value of `R' in `R=R[y/12]' first. R=R[1990/12]. R=10. Apply the Countenance Formula, Co=BM=Chzon/Houron:R=R[y/12]&C[R=0:Le, R=1:Tg, R=2:Ch, R=3:Ke, R=4:Im, R=5:Su, R=6:Le, R=7:Tg, R=8:Ch, R=9:Ke, R=10:Im, R=11:Su]. Co=Im. Timeon `Im' in `y’ A.D. is: Im=3+3xR[(y+3)/4]-5xR[(y+1)/2]+7xI[R[(y+3)/4]/3]+A[h/2] (Mod 12). Thus, Co=3+3xR[(y+3)/4]-5xR[(y+1)/2]+7xI[R[(y+3)/4]/3]+A[h/2] (Mod 12). Co=3+3xR[(1990+3)/4]-5xR[(1990+1)/2]+7xI[R[(1990+3)/4]/3]+A[(21+35/60)/2] (Mod 12). Co=3+3xR[1993/4]-5xR[1991/2]+7xI[R[1993/4]/3]+A[(21+0.5833)/2] (Mod 12). Co=3+3x1-5x1+7xI[1/3]+A[21.5833/2] (Mod 12). Co=3+3-5+7xI[0.3333]+A[10.79165] (Mod 12). Co=1+7x0+11 (Mod 12). Co=12 (Mod 12). Co=12-12. Co=0. Thus, the location of timeon `Co’ is in `Zone 0'. Since `Im' is an `Houron', it moves from one location to another location in two hour's time. the `Countenance' of the person is classified as very active.