the six thousand year barrier — an essay on hindu astrology2
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W
The Six Thousand Year Barrier
An Essay on Hindu Astrology
by Glen R. Smith
Introduction1.
Basis of the Sexagesimal System2.
The Seven Day Week3.
Nakshatras4.
Hindu Cosmological Time Cycles5.
Outline of Hindu Cosmology6.
Infrastructure of the Kalpa Period7.
Derivation of Astronomical Values8.
Three Mean Motions of the Sun9.
Proof of the Sexagesimal Number System10.
Vedic Evidence of the Sidereal Year11.
Precesional Constant Demonstrated12.
Comparison With Modern Science13.
Breaking The Barrier14.
estern archeologists have a curious notion that although human beings have been around for hundreds
of thousands of years, civilization itself is a recent invention of only six thousand years ago. It is
believed and taught that the cradle of civilization began in the fertile crescent of the Mesopotamian valley and
from there spread to Egypt, India and beyond. But there seems to be reason to believe that as one becomes
free from cultural and religious bias one may discover that important accomplishments of mankind may be
traceable to far beyond that time barrier.
The problems in tracing origins back through time are many. First is the fact that great periods of time have a
tendency to erase traces of cultures. When all traces decay then the culture is effectively obliterated.
Whatever is left undestroyed by time becomes subjected to the cultural and personal opinions of
archeologists. Such opinions may destroy and obliterate knowledge of the culture much more effectively than
time ever could. Another problem is in the epistemology or method of knowledge used by countries foreign to
the country or culture being studied. In the west we have a tradition of trying to understand life by studying
corpses or trying to know health by studying disease. Archeology becomes an exercise of the imagination
when trying to reconstruct a living culture based on remains of pot shards, bones and bricks.
Prior to the nineteenth century, it was piously believed in western civilization that the earth was created in
seven days at around five thousand years ago. The Biblical version of creation was challenged by the dual
developments of Darwinism and the discovery of dinosaur fossils. Even though the gradual acceptance of
these new ideas forced a revision of geological time scales, a corresponding revision within archeological
studies lagged. Part of this may have been due to another emerging ideology of the nineteenth century called
progressivism. Progressivism is the idea that human beings are in a progressive march towards a goal of better
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living and greater knowledge. This seductive ideology had its roots in earlier centuries but had its greatest
impact in the second half of the nineteenth century where it influenced the thinking of such great men as
Darwin and Marx. Although it is easy to accept and defend this way of thinking as logical and sound, it does
have some devious implications. In a simplistic way it implies that we as a species are infinitely more cleaver
than our ancestors. Since it is possible to measure our advancement in linear terms, there must be a point
beyond which in the past human beings were infinitely stupid and not clever. Such human beings were
incapable of civilization and they must have lived just prior to six thousand years ago.
These ethnocentric blinders that some western thinkers unconsciously wear before venturing into the past
have resulted in the tunnel vision view of history as we know it today. The western tradition of writing history
may be traced to the Judeo‐Christian scriptures wherein one group of people with shared beliefs write about
the happenings of that group and the people outside that group. The six‐thousand year barrier seems to be a
common trait to that tradition. Other cultures, the Hindus for example, regard the earth in terms of billions of
years old and civilization in terms of hundreds of thousands of years. The Hindus do not think of time in linear
terms with a beginning and an end. Rather, they think in terms of great cycles of thousands and millions of
years. The archeological method of digging, study and dating of artifacts may be ill‐suited to understanding
different cultures that don't share similar attitudes towards time scales.
Hindu scriptures were routinely disparaged by early British indologists as exaggerated stories an myths.
Biblical stories on the other hand where accepted by the same indologists as being somewhere between
salient fact and articles of faith. German indologist Max Müller proposed the theory about Aryan invaders
colonizing India from the north. This implies that the Indians are so inferior that it is unlikely, if not
impossible, for them to civilize themselves without outside help. Native versions of the Indian origins found
within living tradition and culture were totally ignored and thought to be unreliable. The British occupation of
India produced scholars who's pious duty was to discredit the Hindu tradition and culture. Dates of events
given in Hindu scripture based thousands of years ago were redated by the English to have occurred after the
birth of Christ for no other reason than one could never rely on the version of a Hindu; the speculations of an
English nobleman being wholly preferable. It remains ironic, however, that even if the dates given by the
English be accepted at face value, the Hindu accomplishments in art, architecture, science, mathematics,
literature, medicine and philosophy were made at a time when the English and all of Europe were still living a
neolithic lifestyle.
To diminish this embarrassing fact, the European scholars have held up ancient Greece as their cultural
champion even to the point of making ridiculous claims that the Hindus borrowed all the salient features of
science and civilization from them. In no uncertain terms we are lead to believe that the Hindus were
incapable of any high scientific reasoning on their own and therefore depended upon help from outside
sources for further development. Contrary to this point of view, it can be shown that not only did the Hindus
develop a mature culture independent from western influences, the western cultures borrowed from the
Hindus more often than otherwise.
One thing to point out is that each major culture of the ancient world had calendars that were unique in
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themselves. Calendars are dependent upon the accurate observation of heavenly phenomenon. In this
endeavor the ancients were not lacking. The five major time schemes of the ancient world are of the Mayan,
Egyptian, Mesopotamian, Indian and Chinese cultures. The Jewish calendar is based upon an earlier
Babylonian system and has nothing uniquely original. The Greeks had no calendar that possessed
characteristics different enough to place them in a separate and distinct category for they also followed the
Mesopotamian standard. The Romans, who borrowed heavily from the Greeks, found it necessary to borrow
from the Egyptians in order to improve accuracy. This demonstrates that the Romans considered the Greek
chronography incomplete and lacking.
Hindu astronomy, their method of observation and the resulting calendrics differs considerably from the
Greeks. Now the question arises that if the Hindus borrowed from the Greeks why didn't the Hindus also
modify their calendar with the Greek calendar? Remember that ancient astronomy and calendrics were
inseparable. Another point: It is a usual occurrence that a borrowed concept takes along a borrowed
technique. The methods of observation usually accompanies the knowledge of the things observed. Why is it
that the Hindus have a totally unique system of measurement and observation indigenous to their
astronomical lore? The champions of western culture would have us overlook these details.
It seems highly evident that the co‐existing Indian and Mesopotamian cultures exchanged ideas long before
the Greeks learned how to civilize themselves. Any similarity between Greek and Hindu sciences is either
co‐incidental or due to Greek plagiarism of Indian and Mesopotamian concepts. Yet the bias regarding Greek
primacy in all things ancient persists in western educational institutions today. Cultural bias is as destructive
of fact as is the passage of time erasing artifacts. What is often passed off as profound knowledge and
discovery is nothing more than the reinforcement of bias.
The main concern that would indicate the existence of civilization long before six thousand years ago is that
of time measurement or calendrics, the study of which reveals much of what is missing from the digging and
dating of bones. The calendar is a vital point of focus for any organized culture or society. Religious,
economic and agricultural activities revolve around the calendar. To construct accurate tables of heavenly
cycles, a culture must observe the sky for many centuries or at least borrow tables from another culture that
has spent centuries studying the heavens. The amount of accuracy derived from observing the heavens over a
long period of time suggests that the roots of civilization and some of its earliest accomplishments are much
older than six thousand years. Specifically the Indian and Mesopotamian cultures.
Basis of the Sexagesimal System
The sexagesimal system of measurement is based on the number sixty. There are sixty seconds in a minute,
sixty minutes in a hour. When we measure angles, we use the sexagesimal to express units in degrees, minutes
and seconds. This method of measurement familiar to both the Indian and Mesopotamian cultures. It may be
that one culture borrowed from the other or that both developed the system independently. Or it could be of
such antiquity that both cultures shared a common origin. Whatever the case, it seems quite evident that the
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sexagesimal system may be based in large part upon the observation of the planets, specifically Jupiter and
Saturn.
After every sixty years, Jupiter and Saturn will return to the same relative place in the zodiac. Even though
they conjoin every twenty years, it is every third conjunction that they will be in the same zodiacal position as
they were sixty years before. Jupiter takes twelve years to complete one circuit of the zodiac. It takes thirty
years for Saturn to complete a similar circuit.
Consider the following:
Jupiter takes twelve years years to transit the zodiac. The zodiac has twelve signs. Jupiter travels an
average thirty degrees or one complete sign in one solar year.
1.
Saturn takes an average thirty years to transit the zodiac. Each zodiacal sign has thirty degrees and
Saturn travels one degree per month. Thirty months for Saturn to travel one sign. Three hundred and
sixty months for Saturn to transit the entire zodiac. Jupiter divides the zodiac into twelve parts or signs.
The number derived from Saturn's motion suggests the division of each sign into thirty parts or degrees.
2.
Jupiter and Saturn take sixty years between conjunctions to reach the same place in the zodiac. This
joint motion suggests the third and fourth division of the degree into sixty minutes and each minute into
sixty seconds.
3.
The sixty years cycle of Jupiter and Saturn gives rise to another interesting number. In a sixty year period,
Jupiter will complete five circuits of the zodiac and Saturn will complete two circuits. The combined
individual cycles equal seven which is also the total number of visible planets plus the two luminaries.
The Seven Day Week
The primacy given to Saturn and Jupiter becomes apparent by the study of the origination of the seven day
week which, contrary to common opinion, was not followed by everyone in the ancient world.
The ancient Egyptians had a ten‐day week. The Vedic Indians had a six‐day week. The ancient Babylonians
who started the month on the day after the new moon, had the first, eighth, fifteenth and the twenty second
day marked out for religious services. This was a kind of seven‐day week with sabbaths, but the last week
might be of eight or nine days duration, according as the month, which was lunar, had a length of 29 or 30
days. The ancient Iranians had a separate name for each day of the month, but some days, at intervals of
approximately seven, were marked out as Din‐i-Parvan, for religious practices. The pattern followed appears
to have been similar to the Babylonian practice.
The continuous seven‐day week was evolved on astrological grounds by unnamed Chaldean astronomers at
an unknown epoch, but at least, long before the first century AD, the Jews adopted it as a cardinal part of their
faith during the days of their contact with the Chaldeans.
Chaldean astronomers flourished between the seventh century BC and the third century AD. They gave
particular attention to the study of the movement of the Sun, the Moon, and the planets, which they identified
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with their gods. They believed the destiny of kings and states were controlled by the gods, (the planets), and
attached the greatest importance to the observation of their positions and movements. They attached magical
value to the number seven which was the number of planets or gods controlling human destiny. The two
outermost planets, Jupiter and Saturn, moved slowly and solemnly and therefore determined the measured
boundaries of all planets within. After every sixty years Jupiter and Saturn meet in the same general area of
the zodiac. During that sixty years, Jupiter completed five circuits of the zodiac and Saturn completed two
circuits. The combined number of circuits for these ponderous planets is seven.
Jupiter and Saturn along with the Sun, Moon, Mercury, Venus and Mars, were identified with the chief gods of
the Babylonian pantheon.
Table 1: Babylonian gods
represented in the heavens by the
planets.
Body God Function
1 Saturn Ninib God of Pestilence and Misery
2 Jupiter Marduk King of the Gods
3 Mars Nergal God of War
4 Sun Shamash God of Law and Justice
5 Venus Ishtar God of Fertility
6 Mercury Nabu God of Writing
7 Moon Sin God of Agriculture
Notice that the order of the planets in Table 1 coincides with the apparent average daily motion of the planets
from the slowest, Saturn, to the fastest, the Moon.
These seven gods, sitting in solemn conclave, control the destinies of kings and countries, and it was believed
that their will and judgment with respect to a particular country or its ruler could be obtained from an
interpretation of the position of the seven planets in the heavens, and the nature of the motion of the planets
(direct or retrograde). Part of the divinatory practices included knowing what part of the day or night was
being ruled or watched over by the gods. Occurrences during a particular watch was believed to forebode
particular events consistent with the nature of the watching god.
The day was divided into 24 hours, and each of the seven gods was supposed to keep watch on the world over
each hour of the day in rotation. The particular day was named after the god who kept watch at the first hour
at Sunrise. Thus on Saturday, the watching god on the first hour was Saturn, and the day was named after him.
The succeeding hours of Saturday were watched by the seven gods in rotation as follows:
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Above shows the picture for Saturday. On this day Saturn keeps watch at the first hour, so the day is named
after him. The second hour is watched over by (2)Jupiter, third by (3)Mars and so on. Saturn is thus seen to
preside at the 8th
, 15th
and 22nd
hours of Saturday. Then for the 23rd
, 24th
and 25th
hours come in succession
(2)Jupiter, (3)Mars and (4)Sun. The 25th
hours is the first hour of the next day, which is accordingly named
after the presiding planet of the hour, viz, (4) which is the Sun. We thus get Sunday following Saturday. If we
now repeat the process, we get the names of the week days following each other, as follows:
Saturday, Sunday, Monday, Tuesday, Wednesday, Thursday, and Friday.
The Jews, it may be mentioned, reckon the days by ordinal numbers—the first, second, third…seventh day.
Although they derived their calendar almost entirely from the Babylonians, they eschewed the god names as
being inconsistent with their monotheistic religion. the ordinal first day is Saturday, which is their sabbath.
The ancient Indians did not use the seven day week. The most ancient usage of day names used in India was
that of the Nakshatra. There are twenty seven lunar asterisms or constellations in the old lunar zodiac. This
number was derived from the average number of days it took the Moon to complete one circuit of the
heavens in relation to any particular star (one sidereal revolution). Since the Hindus didn't use hours to divide
their day, the natural consequence of using a seven day week would not follow. Instead they divided a day
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into 60 equal parts called ghatikas. Each ghatika is equal to 24 minutes. The word "ghatika" means little jar
and thus the use of water clocks suggest itself. A ghatika is further divided into 60 vinadikas. So between the
two cultures, it was the Hindus who made direct use of the sexagesimal system whereas the Chaldeans used
an indirect method of 24 hours.
It wasn't until much later in the third century AD where we find the first usage of the seven day week in India.
Indeed much of the rest of the world had not adopted it until after the first century AD. It was unknown to the
writers of the New Testament who did not mention anything about the day of the week on which Christ was
crucified or the the week day which he is alleged to have ascended to heaven. The fixing of Friday and
Sunday for these incidents is a later concoction, dating from the fifth century after Christ. All that the New
Testament books say is that he was crucified on the day before the Hebrew festival of Passover which used to
be celebrated and is still celebrated on the full‐moon day of the month of Nisan. The continuous seven day
week was unknown to the classical Greeks, the Romans, the Hindus and early Christians. It was introduced
into the Christian world by an edict of the Roman emperor Constantine, about 323 AD, who changed the
Sabbath to the Lord's Day (Sunday), the week day next to the Jewish Sabbath. Its introduction into India is
about the same time and from the same sources. The week days are not found in earlier Hindu scriptures like
the Vedas of the classics like the great epic Mahabharata. They occur only from 484 AD, but not in
inscriptions of 300 AD or earlier. Even now, they form but an unimportant part in the religious observances of
the Hindus which are determined by the Moon's phases and lunar asterisms.
In the schema of the Moon's phases we see a repeated pattern to that of Jupiter and Saturn. A lunar month is
made up of 30 tithis. Each tithi is determined when the moon moves in advance of twelve degrees ahead of
the Sun. Here we see the numbers 30 and 12 that are common with Saturn and Jupiter. A complete synodic
period (a complete revolution around the zodiac in relation to the Sun) of the Moon, however, takes only 29
civil days. (A civil day for the Indians is reckoned from sunrise to sunrise). It is quite a regular occurrence for
a tithi to be expunged from the consecutive civil day count. This characteristic of the Hindu calendar is not
found in the Greek, Chinese or Mesopotamian calendars. Other cultures, without exception, use solely a civil
day count of 28, 29 and 30 days for their lunation cycles and had not even considered a pure lunar day count
independent from the civil reckoning. The consistency of the Hindu astronomical methods make it unlikely
that they borrowed their knowledge from other sources. And the repeated usage of the sexagesimal
measurement makes it more like that they were the inventors of the system.
The lunar asterisms (nakshatras) are derived from the average daily motion of the Moon's mean sidereal
cycle, which is 13° 20′ of arc. In a circle of 360 degrees this would make twenty seven nakshatras. Each
nakshatra has a planetary ruler and they are shown as follows:
Table 2: Nakshatras and their
associated planetary rulers.
Nakshatra Ruler
1 Ashvini Ketu
2 Bharani Venus
3 Krittika Sun
4 Rohini Moon
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Nakshatra Ruler
5 Mrigashia Mars
6 Aridra Rahu
7 Punarvasu Jupiter
8 Pushya Saturn
9 Aslesha Mercury
10 Magha Ketu
11 Purva Phalguni Venus
12 Uttara Phalguni Sun
13 Hasta Moon
14 Chitra Mars
15 Svati Rahu
16 Vishakha Jupiter
17 Anuradha Saturn
18 Jyeshtha Mercury
19 Mula Ketu
20 Purva Ashadha Venus
21 Uttara Ashadha Sun
22 Shravana Moon
23 Dhanishtha Mars
24 Shatabhisha Rahu
25 Purva Bhadra Jupiter
26 Uttaea Bhadra Saturn
27 Revati Mercury
In the above table you may have noticed the two strange words "Rahu" and "Ketu". These are the nodes of
the moon and their usage in astronomy is important for predicting the eclipses of the Sun and the Moon.
Although they possess no mass or density, they are treated as planets in the sense that they have an effect on
human affairs.
Nakshatras
Whatever constellation (nakshatra) the Moon was in at sunrise, the entire day was named after it. The nine
rulers of the nakshatras are repeated three times in sequence. So in this sense you can say that the Hindus
followed a nine‐day week. The same effect as a weekday is thereby achieved in terms of socio‐religious
significance. Whereas the Chaldeans used an unbroken consecutive day count of hour and day rulers. The
Hindus used a more concrete system of the observable Moon in a group of stars. But there is a common
thread that is stitched between both the seven‐day week and the twenty seven nakshatras. It is this: As we
look back to Figure 2 we see a seven pointed star indicating the weekday lords. Saturn is placed at the top
because he is the slowest planet and the week was deemed to start with Saturday. Lets rotate that star and
place the Sun at the top.
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Now in Figure 4, lets make room for two more planets:
This figure appears in a book by Chiero the famous palmist in which he refers to this as the "Seal of
Solomon." Other writers assert that ther are many different Seals of Solomon and that this is only one.
Whatever the case may be, if we were to add two more planets to this seal the obvious place would be in the
areas vacated by the points of Jupiter and Mercury. Their placement in the seal is shown in Figure 5.
Hindu astrology treats the nodes as planets even though they possess no mass and density. They are sensitive
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points where the path of the Moon crosses the path of the Sun. Being invisible, it is quite fitting that they
should not have a point of the star aiming at them in the diagram shown above.
But note the general position of the planets and see how they are unchanged from the Chaldean star order.
Now, the next diagram, Figure 6, will show the connection with the Hindu nakshatra order.
Compare this diagram with Table 2, Nakshatras and Rulers. Here the order is clockwise starting with Ketu,
going to Venus, the Sun, down to the Moon, back up to Mars, over to Rahu, Jupiter, Saturn and finally
bypassing over to Mercury. The detour down to the Moon doesn't seem so strange when you consider that the
nakshatra reckoning is entirely dependent upon the Moon's position in the constellations. In fact, this diagram
may taken as a single pointed star with the significant planet being at the single point.
It seems that the similarities between Hindu astronomy and Chaldean magical seals are too great to be a mere
coincidence. It is quite likely that the two share a similar origin or that one was derived from the other. But
since ancient Hindu tradition and current usage make more consistent usage of a direct base sixty system of
counting, and the other cultures use a derivative of that, it seems more likely that the sexagesimal is of Hindu
origin.
It may be argued that the sexagesimal was not founded upon the joint cycles of Jupiter and Saturn but upon
some other measurement such as the average number of three hundred and sixty days in a year. This, of
course, is assuming that ancient man was incapable of counting the correct number of days in a year and that
he was infinitely unclever. For the sake of argument, lets accept that position. There still remains the problem
of dividing the year into parts that would yield a base sixty system of counting. The Babylonians divided their
year into three seasons. The Hindus, however, divided their year into six seasons. Of the two cultures which
do you think would arrive at a base sixty system?
But judging from the rest of Hindu astronomical techniques it is clear that they knew precisely how long the
solar year was. All the other planetary cycles were also studied with great scrutiny. From this it may be
tempting to think that the sexagesimal was arrived at in order to provide the great average mean of
measurement for celestial phenomena just as today the binary mode of counting is most convenient for
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computer science. Three hundred and sixty, which is a multiple of the sexagesimal, is the midpoint number
between the 365 day solar year and the 354 day lunar year. One synodic period of mars is 780 days which is
equally divided by 60 thirteen times. Between two consecutive conjunctions of Saturn and Jupiter in a twenty
year period, Mercury will go retrograde a little over sixty times. The Hindus also based their knowledge of
breath control, Pranayama, upon the sexagesimal system. In one twenty four hour period, or between two
consecutive sunrises, a person takes an average of 21600 breaths, each breath being four seconds long. This
number, 21600 divided by 60 equals 360.
To all but the harshest critic the above may be evidence enough to form an opinion on the origin of the
sexagesimal system. But the critic may remain unconvinced for various reasons. The above is only
circumstantial. One can apply any number of coincidental facts to any ancient culture and come up with some
pretty amazing things. After all, no ancient text were quoted giving support to Hindu origins. To quell these
doubts we present final evidence that not only shows the superiority of Hindu astronomy but also proves
damaging to the theory that the Greeks were the greatest in all matters of the ancient world.
Hindu Cosmological Time Cycles
The structure of Hindu astronomy is built upon the foundation of their unique concept of cosmological time
cycles. No other culture on Earth has or is known to have such a unique system of cosmology. The only other
culture to come close to the vast scale of time conceived by the Hindus are the Mayan. Western scholars have
completely misunderstood the value of the Hindu cosmological time cycles and believed them to be nothing
more than crude number speculations. In their translation of the Surya Siddhanta, the editors Burgess and
Whitney routinely disparage the Hindu authors:
The system of periods is not of astronomical origin…Its artificial and arbitrary character is
apparent. It is the system of the Puranas and Manu, a part of the received Hindu cosmogony, to
which astronomy was compelled to adapt itself… The arbitrary and artificial method in which the
fundamental elements of the solar system are here represented is not peculiar to the Surya‐
Siddhanta; It is also adopted by all other text books, and is to be regarded as a characteristic
feature of the general astronomical system of the Hindus.
Not only is this opinion in error but the astronomical quantities derived from these cosmological time cycles
are vastly more accurate than anything achieved by the Greeks. And they were in use at a time when the
Britons were still living a neolithic lifestyle.
Outline of Hindu Cosmology
Prior to the creation of the universe, Lord Vishnu lies asleep on the ocean of all causes. He rests upon a
serpent bed with thousands of cobra‐like hoods. While asleep, a lotus sprouts from His navel. Upon this lotus
is born Brahma the creator of the universe. Lord Brahma lives for a hundred years and then dies, while Lord
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Vishnu remains. One year of Brahma consists of three hundred and sixty days. At the beginning of each day
Brahma creates the living beings that reside in the universe and at the end of each day the living beings are
absorbed into Brahma while he sleeps on the lotus. One day of Brahma is known as a kalpa. Within each
kalpa there are fourteen manus and within each manu are seventy one chatur‐yugas. Each chatur‐yuga is
divided into four parts called yugapadas.
From the first chapter of Surya‐Siddhanta, the most revered authoritative source of Hindu astronomy, we
have the following passage:
11 That which begins with respirations (prana) is called real… Six respirations make a vinadi,
sixty of these a nadi: 12
And sixty nadis make a sidereal day and night. Of thirty of these sidereal
days is composed a month; a civil (savana) month consists of as many sunrises; 13 A lunar month,
of as many lunar days (tithi); a solar (saura) month is determined by the entrance of the Sun into
a sign of the zodiac; twelve months make a year. This is called a day of the gods. 14
The day and
night of the gods and of the demons are mutually opposed to one another. Six times sixty of them
are a year of the gods, and likewise to the demons. 15
Twelve thousand of these divine years are
denominated a chatur‐yuga; of ten‐thousand times four hundred and thirty two solar years is
composed that chatur‐yuga, with its dawn and twilight. 16
The difference of the krita‐yuga and
the other yugas, as measured by the difference in the number of the feet of virtue in each is as
follows: 17
The tenth part of a chatur‐yuga, multiplied successively by four, three, two, and one,
gives the length of the krita and the other yugas: the sixth part of each belongs to its dawn and
twilight. 18 One and seventy chatur‐yugas make a manu; at its end is a twilight which has the
number of years of a krita‐yuga, and which is a deluge. 19
In a kalpa are reckoned fourteen
manus with their respective twilights; at the commencement of the kalpa is a fifteenth dawn,
having the length of a krita‐yuga. 20
The kalpa, thus composed of a thousand chatur‐yugas, and
which brings about the destruction of all that exists, is a day of Brahma; his night is of the same
length. 21
His extreme age is a hundred, according to this valuation of a day and a night. The half
of his life is past; of the remainder, this is the firsts kalpa. 22
And of this kalpa, six manus are
past, with their respective twilights; and of the Manu son of Vivasvat, twenty seven chatur‐yugas
are past; 23
Of the present, the twenty eighth chatur‐yuga, this krita‐yuga is past…
Now to make plain what is stated above. Commentaries are very clear on the fact that in verse 12 the
"sidereal day" refers to a revolution of the Earth relative to any fixed star and is the true revolution reference
point of the Earth. Verse 13 refers to "a day of the gods" means one sidereal year. A night of the gods is half a
sidereal year. Verse 21 mentions "his extreme age is a hundred refers to the lifespan of Brahma and consists
of one hundred years of 360 days. Each of these days being two kalpas long. Verse 23 shows that the Surya‐
Siddhanta was composed right after krita‐yuga and during the treta‐yuga. The present yuga we are in right
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now is the kali‐yuga which is said to have begun on Friday February 18th
3102 BC of the Julian calendar. This
becomes clearer when represented in a tabular form.
Table 3: Infrastructure of the
Chatur–Yuga period.
Divine Years Solar Years
Krita–Yuga Period
Dawn 400 144,000
Krita–Yuga 4,000 1,440,000
Twilight 400 144,000
Subtotal 4,800 1,728,000
Treta–Yuga Period
Dawn 300 108,000
Treta–Yuga 3,000 1,080,000
Twilight 300 108,000
Subtotal 3,600 1,296,000
Dvapara–Yuga Period
Dawn 200 72,000
Dvapara–Yuga 2,000 720,000
Twilight 200 72,000
Subtotal 2,400 864,000
Kali–Yuga Period
Dawn 100 36,000
Kali–Yuga 1,000 360,000
Twilight 100 36,000
Subtotal 1,200 432,000
Total 12,000 4,320,000
Infrastructure of the Kalpa Period
Two kalpas make a day and night of Brahma. The kalpa is 4,320,000,000 sidereal years made up of 1,000
chatur‐yugas or 10,000 kali‐yugas. An additional dawn and twilight of 1,728,000 years each is made to fit the
kalpa.
one Chatur‐Yuga = 4,320,000 sidereal years
one Manu = 71 Chatur‐Yugas = 306,720,000 sidereal years
+ 1 Krita‐Yuga = 1,728,000 sidereal years
= 308,448,000 sidereal years
one Kalpa = 14 Manus = 4,318,272,000 sidereal years
+ 1 Krita‐Yuga = 1,728,000 sidereal years
= 4,320,000,000 sidereal years
The entire lifepsan of Brahma may be measured thus:
Day of Brahma 4,320,000 sidereal years
Night of Brahma 4,320,000 sidereal years
8,640,000 sidereal years
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× 360 days in a year 3,110,400,000,000 sidereal years
× 100 years 311,040,000,000,000 sidereal years
After Brahma dies it takes a period of time equal to his lifespan until he is reborn and the cycle starts over.
Derivation of Astronomical Values
Now that the Hindu cosmological time cycles are completed we can derive useful astronomical values from
them. The first is the measurement of the day which begins with the breath. One respiration is a prana. Six
prana equal one vinadi. Sixty vinadis equal one nadi, (also known as a ghatika). Sixty nadis equal one sidereal
day. A sidereal day equal the time it takes for the earth to make one complete rotation on its axis in relation to
a fixed star. A sidereal day is slightly shorter than a civil day of 24 hours. A sidereal day is equal to 23 hours,
56 minutes and 3.4446 seconds.
one sidereal day 23h 56m 03.4446s
sixty nadis 23h 56m 03.4446s
one nadi (ghatika) 23m 56.06s
vinadi 23.93s
one prana 3.99s
It is clear in the text of Surya‐Siddhanta and the current practice of Indian astrology that sidereal
measurements are of primary importance. Tropical measurements are also used but in a secondary way.
Three Mean Motions of the Sun
The three mean motions of the Sun used to construct the Cosmological Time Cycles shown above are as
follows:
one sidereal year = 360 sidereal days
+ 6 sidereal days
+ 0.2563795 sidereal days
= 366.2563795 sidereal days
Remember we are not talking about civil solar days here, we are talking about the total number of times the
Earth rotates on its axis in relation to a single star during the course of one year. This happens to be one
greater than the mean solar days in a year which is…
One sidereal year
= 365.2563795 mean solar days
These three mean motions of the Sun may be compared to the hour, minute and second hands of a clock.
Each cycle is counted and completed separately. Using this system of the three mean motions, the ancients
reckoned time that put the day, year and longer periods of time into exact correspondence with each other.
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Proof of the Sexagesimal Number System
The first two mean solar motions, that of 360 + 6 Earth revolutions, generate the sexagesimal number system
completely. A count of six for every 360 is the same as one for every 60. This is the basis of the six seasons of
the year observed by the Hindus. Counting six days per year, the second mean motion of the Sun completes a
cycle of 360, the number of degrees in a circle, after 60 years which correlates with the Babylonian sossos
period and the cycles of Jupiter and Saturn.
Table 4: The structure of the
Babylonian sossos period.
Year
First
Mean
Motion
Second
Mean
Motion
Total
1 360 6 366
2 720 12 732
3 1080 18 1098
4 1440 24 1464
5 1800 30 1830
10 3600 60 3660
(sossos) 60 21,600 360 21,960
(neros) 600 216,000 3600 219,600
(saros) 3600 1,296,000 21,600 1,317,600
In the same interval that the first mean motion completes a count of 21600 it has done so at a rate 60 times
greater than the second mean motion 360 × 60 and represents the number of arc minutes in a circle. The
number 21600 is also the same average number of breaths (prana) a person will make in a 24 hour period.
Vedic Evidence of the Sidereal Year
The Rig Veda, the earliest of the Hindu scriptures says the following:
Twelve spokes, one wheel, navels three. Who can comprehend this? On it are placed together
three hundred and sixty like pegs. They shake not in the least. (Dirghatama Rishi, Rig Veda
1.164.48)
A seven‐named horse does draw this three‐naved wheel… Seven steeds draw the seven‐wheeled
chariot… Wise poets have spun a seven‐strand tale around this heavenly calf, the Sun.
(Dirghatama Rishi, Rig Veda 1.164.1‐5)
The number seven related to the Sun has much significance when understanding the third mean solar motion
(0.2563795). The Kali‐yuga of 432,000 years is the unit of reference for determining the length of the sidereal
year in Hindu cosmological time cycles. During the course of 10,000 years there are seven rotations of the
third mean solar motion. For a single year the count is 0.2563795 diurnal revolutions of the earth. For two
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years it is .512759 and so on. One complete rotation (to equal 366.2564…) of the third motion takes
1428.571429 sidereal years. Or you can reduce it to a fraction of 1428⁴⁄₇ sidereal years.
366.2563795…
0.2563795… = 10000
7
= 1428⁴⁄₇ sidereal years
The integer of this sidereal interval, 1428 years, multiplied by the number of years in a Kali‐yuga and then
further multiplied by seven equals the number of years of fourteen Manus. (see table 4).
1428 × 432,000 × 7 = 4,318,272,000 = 14 manus
The fractional part of this sidereal interval, ⁴⁄₇ years, multiplied by seven and further multiplied by the number
of years in a Kali‐yuga equals the time of an introductory dawn (see table 4).
⁴⁄₇ × 7 × 432,000 = 1,728,000 years = introductory dawn.
Relating the Vedic verses above to what we have just demonstrated it is clear that the "navels three" refer to
the three mean motions of the Sun and "seven‐wheeled chariot" to the rate of precession of the equinoxes.
Thus, there can be no doubt that the cosmological time cycles were already an established conclusion at the
time of the Vedic era and not in the formative stages.
Precesional Constant Demonstrated
Before demonstrating the unmistakable fact of the precession inherent in the cosmological time cycles, let us
show the readers how the Western translators of the Surya‐Siddhanta made fools of themselves when they
wrote:
To make such a division accurate, the year ought to be tropical, and not the sidereal; but the
author of the Surya‐Siddhanta has not yet begun to take into account the precession…The
earliest Hindu astronomers were ignorant of, or ignored, the periodical motion of the equinoxes…
Again this opinion is in error. If Burgess and Whitney were not so blinded by cultural arrogance and conceit
they might have been able to improve their knowledge by careful study of the Surya‐Siddhanta. The
precession is clearly derived from the cosmological time cycles as shown below. The chatur‐yuga of
4,320,000 years is the unit of reference for determining the rate of precession used in the construction of the
Hindu cosmological time cycles.
The constant rate of precession is 50″.4 = 0°.014 = ⁷⁄₅₀₀ degrees of precession per sidereal year.
This is the same as one degree of precession in 71³⁄₇ = 71.42857 sidereal years.
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This correlates to the cosmological time cycles as follows:
One manu
= 71.4 chatur‐yugas
¹⁄₁₄th of an introductory dawn
= 0.02857… chatur‐yugas
¹⁄₁₄th kalpa
= 71.42857… chatur‐yugas
In the interval of ¹⁄₁₄th kalpa there are:
(71³⁄₇) × 4,320,000 × 0°.014 = 4,320,000 degrees of precession = 12,000 precessional years
From table one we see that a period of one chatur yuga is 4,320,000 years and is equivalent to 12,000 divine
years.
Is it just a happy coincidence that the Cosmological Time Cycles agree with the precession? Burgess and
Whitney would probably think so.
Other related values of interest are:
1 precessional year
= 25,714²⁄₇ sidereal years
7 precessional years
= 180,000 sidereal years
= 7 × 18 (126) cycles of the 3rd
mean mothion of the Sun
7 × 24 (168) precessional years
= 1 chatur‐yuga
168,000 precessional years
= 1 kalpa
(4,320,000 ÷ 168) × 0°.014 = 360°
Derivation of the Tropical Year
In a chatur‐yuga there are: 4,320,000 sidereal years = 4,320,000 + 168 tropical years, where 168 is the
number of precessional years. Therefore:
1 tropical year =
4,320,000 × (366.2563795… −1)
4,320,168
= 365.2421756… mean solar days
It has been shown conclusively that the Hindu Cosmological time cycles are based upon the diurnal motion of
the Earth in reference to any particular fixed star, hence it is purely of sidereal origin. The later practice of
adopting the ahargana or "heap of days" is based upon solar and civil day reckoning which is of obvious
practical value for calendrics. The sidereal basis of the cosmological time cycles is without question the oldest
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known positive proof of the origin for the sexagesimal number system.
Comparison With Modern Science
The standard values for the tropical year and annual precession in longitude determined by Simon Newcomb
for the epoch 1900.0, mean noon at Greenwich December 31st
1899 are:
One tropical year
= 365.2421988
Precession in one year
= 50″.2564
The sidereal year and its precessional constant may be derived from these values.
1 sidereal year (1900.0) =
360°
360° − 50″.2564 × 365.2421988 + 1
= 366.2563627 diurnal revolutions of the Earth
Precession in longitude in one year = 50″.2564 ×
365.2563627
365.2421988
= 50″.2583
The following shows the astronomical quantities used in the construction of Hindu cosmological time cycles
with those of Simon Newcomb for the epoch 1900.0
Hindu Newcomb Difference
Constant of Precession 50″.4 / year 50″.2583 / year 0″.1417 / year
Sidereal Year (Solar) 365.2563795 365.2563627 1.4 seconds / year
Tropical Year 365.2421756 365.2421988 −2.0 seconds / year
The sidereal year in the above table refers to the number of solar civil days it takes for the earth to orbit the
sun in relation to any particular star. The former is a sidereal‐diurnal relation and the later is a sidereal‐solar
relation. The very close agreement between the length of the year as measured by Hindu cosmological time
cycles and that determined by modern science, together with the demonstrated great antiquity of the cycles,
shows that the rotation of the Earth is not being sensibly retarded by "tidal friction" or any other cause.
Astronomers today would do well to look for lack of accuracy in their measurement of the Sun's mean motion
and to the variations of long periods in the rotation of the Earth to explain the so‐called slowing down of the
earth.
Breaking The Barrier
The question may be asked how could such accurate constants of precession, as that of the Hindu
cosmological time cycles, have been obtained without modern instruments and techniques? At least one thing
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must be allowed for and that is a very long period of uninterrupted observation.
Naked eye observations are accurate up to one sixth of a degree. In the case of observing the precession
moving uniformly on the celestial sphere, it would then be possible to obtain an accurate rate up to three
decimal places in not less than 50″ × (72 years ÷ 1°) or 3,600 years. Measuring the precession is not as simple
as that, however. Before attempting to measure the precession, the exact times of the equinoxes must be
measured first. Ptolemy, the Greek astronomer, speaks with pride in the Almagest of "very accurately"
observing the equinox to within a quarter of a day! That is, to within at best one quarter of one degree of arc.
Add to this the difficulty presented by the proper motion of the stars. The star Sirius, for example, has a very
large proper motion of −0″.553 ecliptic longitude per year. It would take 1,000 years for Sirius to move one
sixth of a degree and for this mistake to be noticed by a naked eye observer. In addition to this, still, the
motion of the Earth's perihelion would become noticeable and have to be accounted for. With all these
factors, it is difficult to imagine how they can be resolved into a system that would allow continuous
observation to produce a constant of precession accurate to three decimal places in less than 10,000 years.
Similar arguments can be put forth to show that to measure the sidereal period of the Sun to eight decimal
places could not be accomplished by naked eye observations alone in any less time.
Even if we cannot comprehend a civilization going back 10,000 years prior to the six‐thousand year barrier,
we still must face the incredible genius of the cosmological time cycles themselves: a calendar for eternity so
accurate that its formulations must be considered as laws of nature, while at the same time a structure so
simple, symmetrical, and orderly, that the best scholars and astronomers of modern times have completely
failed to see the astronomical basis. In this light we can understand why the Hindus regarded this knowledge
as a revelation from the gods.
Text and images © 1999 Glenn R. Smith, 2004–2006 Nicholas Shanks.
This page is a mirror of the document originally at http://www.hawaiian.net/~durgadas/Barrier/6000yb.html,
however that URL is no longer functional. Apologies to Mr Smith if re‐posting his work causes offence, none is intended. Another
mirror, without my extensive markup changes, also exists.
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