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This page presents calendar or chronologic table which allows to
correlate hexagrams of the Chinese Book of Changes i-ching to numbers
and dates of annual astronomical cycle of the sun, also with
physiognomic symbols of human facial emotions and parameters of
meteorological atmospheric processes according to which it is possible
to forecast weather.
Four days of solstices and equinoxes of astronomical solar cycle in the
calendar table correspond with four hexagrams in the Book of Changes i-ching.
1 - winter solstice.
64 - spring equinox.
2 - summer solstice.
63 - autumn equinox.
Other 60 hexagrams in the Book of Changes correspond with six-days
periods during chronological solar cycle. But days on 31st of August and
29th of February do not correspond with symbols of i-ching.
Total 60x6=360+4+1=365 or 60x6=360+4+2=366 days form solar year, that
allows to correlate sixty four Chinese hexagrams i-ching to numbers and
dates of Gregorian calendar which is the modern international system for
measurement of time.
First column of the shown chronologic table of annual solar cycle
specifies names of twelve months and numbers of Gregorian calendar.
Second column shows consecutive order of hexagrams i-ching according to
spatial positions in four rings which correspond to four seasons of
annual solar cycle.
Third column shows consecutive order of hexagrams i-ching according to
serial numbers in the Chinese classical Book of Changes.
Also second and third columns shows physiognomic symbols of human facial
emotions which correspond with hexagrams i-ching.
Fourth column specifies parameters of meteorological atmospheric
processes which are compared to lines in hexagrams i-ching and facial
traits of physiognomic symbols according to which it is possible to
forecast weather.
|
Top lines in hexagrams and emotions of eyebrows. |
For example, for six days from 29th of December till 3rd of January
there corresponds hexagram i-ching which has serial number 13 and
concerns to the first spatial ring which corresponds with winter season
of annual solar cycle. Or for six days from 29th of December till 3rd of
January there corresponds hexagram i-ching with serial number 4
according to consecutive order in the Book of Changes.
Look detail information about four spatial rings and serial numbers
of sixty four hexagrams in the Chinese Book of Changes, and also about
ratio of symbols i-ching with annual chronological cycle of the sun and
meteorological parameters of natural atmospheric processes on separate page.
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| 1 | 2 | 3 | 4 |
| December 22 solstice |
 01 |
||
| 23-24-25-26-27-28 |
 14 |
03
 |
short-term precipitation warm temperature strong impulses of winds |
| January 29-30-31-01-02-03 |
 13 |
04
 |
long-term precipitation warm temperature continuous strong wind |
| 04-05-06-07-08-09 |
 30 |
05
 |
short-term precipitation fall in temperature windless weather |
| 10-11-12-13-14-15 |
 49 |
06
 |
low humidity rise in temperature continuous strong wind |
| 16-17-18-19-20-21 |
 55 |
07
 |
high humidity warm temperature continuous strong wind |
| 22-23-24-25-26-27 |
 43 |
08
 |
short-term precipitation warm temperature even movement of air |
| February 28-29-30-31-01-02 |
 34 |
09
 |
low humidity fall in temperature windless weather |
| 03-04-05-06-07-08 |
 62 |
10
 |
low humidity rise in temperature windless weather |
| 09-10-11-12-13-14 |
 31 |
11
 |
high humidity fall in temperature windless weather |
| 15-16-17-18-19-20 |
 32 |
12
 |
low humidity rise in temperature even movement of air |
| 21-22-23-24-25-26 |
 28 |
13
|
low humidity cold temperature strong impulses of winds |
| March 27-28-(29)-01-02-03-04 |
 50 |
14
|
long-term precipitation cold temperature windless weather |
| 05-06-07-08-09-10 |
 44 |
15
 |
high humidity fall in temperature even movement of air |
| 11-12-13-14-15-16 |
 56 |
16
 |
high humidity rise in temperature even movement of air |
| 17-18-19-20-(21)-22-23 |
 33 |
17
 |
short-term precipitation rise in temperature strong impulses of winds |
| 21 equinox |
 64 |
||
| 24-25-26-27-28-29 |
06 |
18
 |
long-term precipitation fall in temperature continuous strong wind |
| April 30-31-01-02-03-04 |
 35 |
19
 |
high humidity warm temperature windless weather |
| 05-06-07-08-09-10 |
12 |
20
 |
low humidity warm temperature even movement of air |
| 11-12-13-14-15-16 |
10 |
21
 |
long-term precipitation rise in temperature strong impulses of winds |
| 17-18-19-20-21-22 |
 38 |
22
 |
long-term precipitation fall in temperature strong impulses of winds |
| 23-24-25-26-27-28 |
 25 |
23
 |
long-term precipitation warm temperature even movement of air |
| May 29-30-01-02-03-04 |
21 |
24
 |
high humidity warm temperature strong impulses of winds |
| 05-06-07-08-09-10 |
17 |
25
|
low humidity rise in temperature strong impulses of winds |
| 11-12-13-14-15-16 |
 51 |
26
 |
long-term precipitation fall in temperature windless weather |
| 17-18-19-20-21-22 |
 58 |
27
 |
long-term precipitation warm temperature strong impulses of winds |
| 23-24-25-26-27-28 |
 54 |
28
|
short-term precipitation cold temperature continuous strong wind |
| June 29-30-31-01-02-03 |
16 |
29
 |
short-term precipitation warm temperature continuous strong wind |
| 04-05-06-07-08-09 |
 45 |
30
|
long-term precipitation cold temperature strong impulses of winds |
| 10-11-12-13-14-15 |
 40 |
31
|
short-term precipitation cold temperature even movement of air |
| 16-17-18-19-20-(21)-22 |
 47 |
32
|
high humidity cold temperature continuous strong wind |
| 21 solstice |
 02 |
||
| 23-24-25-26-27-28 |
08 |
33
|
low humidity cold temperature even movement of air |
| July 29-30-01-02-03-04 |
07 |
34
|
high humidity cold temperature windless weather |
| 05-06-07-08-09-10 |
29 |
35
|
long-term precipitation rise in temperature even movement of air |
| 11-12-13-14-15-16 |
04 |
36
 |
high humidity fall in temperature strong impulses of winds |
| 17-18-19-20-21-22 |
 59 |
37
 |
low humidity fall in temperature strong impulses of winds |
| 23-24-25-26-27-28 |
23 |
38
|
long-term precipitation rise in temperature windless weather |
| August 29-30-31-01-02-03 |
20 |
39
 |
short-term precipitation fall in temperature even movement of air |
| 04-05-06-07-08-09 |
 61 |
40
|
high humidity rise in temperature continuous strong wind |
| 10-11-12-13-14-15 |
 41 |
41
|
long-term precipitation warm temperature windless weather |
| 16-17-18-19-20-21 |
 42 |
42
|
low humidity warm temperature strong impulses of winds |
| 22-23-24-25-26-27 |
27 |
43
|
short-term precipitation cold temperature windless weather |
| September 28-29-30-(31)-01-02-03 |
03 |
44
|
low humidity cold temperature continuous strong wind |
| 04-05-06-07-08-09 |
24 |
45
|
short-term precipitation rise in temperature even movement of air |
| 10-11-12-13-14-15 |
 60 |
46
 |
high humidity fall in temperature continuous strong wind |
| 16-17-18-19-20-21 |
19 |
47
|
short-term precipitation rise in temperature continuous strong wind |
| 22-(23)-24-25-26-27-28 |
36 |
48
 |
short-term precipitation fall in temperature continuous strong wind |
| 23 equinox |
 63 |
||
| October 29-30-01-02-03-04 |
05 |
49
|
short-term precipitation cold temperature strong impulses of winds |
| 05-06-07-08-09-10 |
11 |
50
|
long-term precipitation cold temperature continuous strong wind |
| 11-12-13-14-15-16 |
15 |
51
|
high humidity rise in temperature strong impulses of winds |
| 17-18-19-20-21-22 |
39 |
52
 |
long-term precipitation fall in temperature even movement of air |
| 23-24-25-26-27-28 |
46 |
53
 |
low humidity fall in temperature even movement of air |
| November 29-30-31-01-02-03 |
48 |
54
|
high humidity rise in temperature windless weather |
| 04-05-06-07-08-09 |
18 |
55
|
high humidity cold temperature strong impulses of winds |
| 10-11-12-13-14-15 |
 57 |
56
|
long-term precipitation cold temperature even movement of air |
| 16-17-18-19-20-21 |
52 |
57
|
low humidity fall in temperature continuous strong wind |
| 22-23-24-25-26-27 |
53 |
58
|
short-term precipitation rise in temperature windless weather |
| December 28-29-30-01-02-03 |
09 |
59
|
low humidity warm temperature continuous strong wind |
| 04-05-06-07-08-09 |
26 |
60
|
short-term precipitation warm temperature windless weather |
| 10-11-12-13-14-15 |
37 |
61
|
low humidity warm temperature windless weather |
| 16-17-18-19-20-21 |
22 |
62
|
high humidity cold temperature even movement of air |
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Beginning of consecutive order of hexagrams i-ching in the shown
calendar table is correlated with day of winter solstice, but
meteorological weather conditions in various regions and natural zones,
and also on different continents of the Earth are not identical.
Therefore it is possible to correlate the beginning to day of summer
solstice, or with days of spring and autumn equinoxes. Or for
forecasting weather it is possible to use any other logic sequences
according to which hexagrams of the Chinese Book of Changes i-ching and
corresponding physiognomic symbols of human emotions can be coordinated
with variations of atmospheric meteorological processes on concrete
territories of terrestrial surface.
Days of equinoxes and solstices in the table are symbolical marks which
specify beginnings of four solar seasons, and consequently hexagrams
these dates do not mean parameters of atmospheric meteorological
processes and natural phenomena.
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