SECTION XL. SECRET CYCLES.

The former five‐year cycle comprehends sixty solar‐sidereal months of 1800 days, sixty‐one solar months (or 1830 days); sixty‐two lunar months (or 1860 lunations), and sixty‐seven lunar‐asterismal months (or 1809 such days). In his _Kâla Sankalita_, Col. Warren very properly regards these years as cycles; this they are, for each year has its own special importance as having some bearing upon, and connection with, specified events in individual horoscopes. He writes that in the cycle of sixty there Are contained five cycles of twelve years, each supposed equal to one year of the planet (Brihaspati, or Jupiter) ... I mention this cycle because I found it mentioned in some books, but I know of no nation or tribe that reckons time after that account.(639) The ignorance is very natural, since Col. Warren could know nothing of the secret cycles and their meanings. He adds: The names of the five cycles or Yugas are: ... (1) Samvatsara, (2) Parivatsara, (3) Idvatsara, (4) Anuvatsara, (5) Udravatsara. The learned Colonel might, however, have assured himself that there were “other nations” which had the same secret cycle, if he had but remembered that the Romans also had their _lustrum_ of five years (from the Hindus undeniably) which represented the same period if multiplied by 12.(640) Near Benares there are still the relics of all these cycle‐records, and of astronomical instruments cut out of solid rock, the everlasting records of Archaic Initiation, called by Sir W. Jones (as suggested by the prudent Brâhmans who surrounded him) old “back records” or reckonings. But in Stonehenge they exist to this day. Higgins says that Waltire found the barrows of tumuli surrounding this giant‐temple represented accurately the situation and magnitude of the fixed stars, forming a complete orrery or planisphere. As Colebrooke found out, it is the cycle of the _Vedas_, recorded in the _Jyotisha_, one of the Vedângas, a treatise on Astronomy, which is the basis of calculation for all other cycles, larger or smaller;(641) and the _Vedas_ were written in characters, archaic though they be, long after those natural observations, made by the aid of their gigantic mathematical and astronomical instruments, had been recorded by the men of the Third Race, who had received their instruction from the Dhyân Chohans. Maurice speaks truly when he observes that all such Circular stone monuments were intended as durable symbols of astronomical cycles by a race who, not having, or for political reasons, forbidding the use of letters, had no other permanent method of instructing their disciples or handing down their knowledge to posterity. He errs only in the last idea. It was to conceal their knowledge from profane posterity, leaving it as an heirloom only to the Initiates, that such monuments, at once rock observatories and astronomical treatises, were cut out. It is no news that as the Hindus divided the earth into seven zones, so the more western peoples—Chaldæans, Phœnicians, and even the Jews, who got their learning either directly or indirectly from the Brâhmans—made all their secret and sacred numerations by 6 and 12, though using the number 7 whenever this would not lend itself to handling. Thus the numerical base of 6, the exoteric figure given by Ârya Bhatta, was made good use of. From the first secret cycle of 600—the Naros, transformed successively into 60,000 and 60 and 6, and, with other noughts added into other secret cycles—down to the smallest, an Archæologist and Mathematician can easily find it repeated in every country, known to every nation. Hence the globe was divided into 60 degrees, which, multiplied by 60, became 3,600 the “great year.” Hence also the hour with its 60 minutes of 60 seconds each. The Asiatic people count a cycle of 60 years also, after which comes the lucky seventh decad, and the Chinese have their small cycle of 60 days, the Jews of 6 days, the Greeks of 6 centuries—the Naros again. The Babylonians had a great year of 3,600, being the Naros multiplied by 6. The Tartar cycle called Van was 180 years, or three sixties; this multiplied by 12 times 12 = 144, makes 25,920 years, the exact period of revolution of the heavens. India is the birthplace of arithmetic and mathematics; as “Our Figures,” in _Chips from a German Workshop_, by Prof. Max Müller, shows beyond a doubt. As well explained by Krishna Shâstri Godbole in _The Theosophist_: The Jews ... represented the units (1‐9) by the first nine letters of our alphabet; the tens (10‐90) by the next nine letters; the first four hundreds (100‐400) by the last four letters, and the remaining ones (500‐900) by the second forms of the letters “kâf” (11th), “mîm” (13th), “nûn” (14th), “pe” (17th), and “sâd” (18th); and they represented other numbers by combining these letters according to their value.... The Jews of the present period still adhere to this practice of notation in their Hebrew books. The Greeks had a numerical system similar to that used by the Jews, but they carried it a little farther by using letters of the alphabet with a dash or slant‐line behind, to represent thousands (1000‐9000), tens of thousands (10,000‐90,000) and one hundred of thousands (100,000) the last, for instance, being represented by “rho” with a dash behind, while “rho” singly represented 100. The Romans represented all numerical values by the combination (additive when the second letter is of equal or less value) of six letters of their alphabet: i (= 1), v (= 5), x (= 10), c (for “centum” = 100), d (= 500), and m (= 1000): thus 20 = xx, 15 = xv, and 9 = ix. These are called the Roman numerals, and are adopted by all European nations when using the Roman alphabet. The Arabs at first followed their neighbours, the Jews, in their method of computation, so much so that they called it Abjad from the first four Hebrew letters—“alif,” “beth,” “gimel”—or rather “jimel,” that is, “jim” (Arabic being wanting in “g”), and “daleth,” representing the first four units. But when in the early part of the Christian era they came to India as traders, they found the country already using for computation the decimal scale of notation, which they forthwith borrowed literally; _viz._, without altering its method of writing from left to right, at variance with their own mode of writing, which is from right to left. They introduced this system into Europe through Spain and other European countries lying along the coast of the Mediterranean and under their sway, during the dark ages of European history. It has thus become evident that the Âryas knew well mathematics or the science of computation at a time when all other nations knew but little, if anything, of it. It has also been admitted that the knowledge of arithmetic and algebra was first introduced from the Hindus by the Arabs, and then taught by them to the Western nations. This fact convincingly proves that the Âryan civilisation is older than that of any other nation in the world; and as the _Vedas_ are avowedly proved the oldest work of that civilisation, a presumption is raised in favour of their great antiquity.(642) But while the Jewish nation, for instance—regarded so long as the first and oldest in the order of creation—knew nothing of arithmetic and remained utterly ignorant of the decimal scale of notation—the latter existed for ages in India before the actual era. To become certain of the immense antiquity of the Âryan Asiatic nations and of their astronomical records one has to study more than the _Vedas_. The secret meaning of the latter will never be understood by the present generation of Orientalists; and the astronomical works which give openly the real dates and prove the antiquity of both the nation and its science, elude the grasp of the collectors of ollas and old manuscripts in India, the reason being too obvious to need explanation. Yet there are Astronomers and Mathematicians to this day in India, humble Shâstris and Pandits, unknown and lost in the midst of that population of phenomenal memories and metaphysical brains, who have undertaken the task and have proved to the satisfaction of many that the _Vedas_ are the oldest works in the world. One of such is the Shâstri just quoted, who published in _The Theosophist_(643) an able treatise proving astronomically and mathematically that: If the Post‐Vaidika works alone, the Upanishads, the Brâhmanas, etc., down to the Purânas, when examined critically carry us back to 20,000 B.C., then the time of the composition of the _Vedas_ themselves cannot be less than 30,000 B.C., in round numbers, a date which we may take at present as the age of that Book of books.(644) And what are his proofs? Cycles and the evidence yielded by the asterisms. Here are a few extracts from his rather lengthy treatise, selected to give an idea of his demonstrations and bearing directly on the quinquennial cycle spoken of just now. Those who feel interested in the demonstrations and are advanced mathematicians can turn to the article itself, “The Antiquity of the _Vedas_,”(645) and judge for themselves. 10. Somâkara in his commentary on the _Shesha Jyotisha_ quotes a passage from the _Satapatha Brâhmana_, which contains an observation on the change of the tropics, and which is also found in the _Sâkhâyana Brâhmana_, as has been noticed by Prof. Max Müller in his preface to _Rigveda Samhitâ_ (p. xx. foot‐note, vol. iv.). The passage is this: ... “The full‐moon night in Phâlguna is the first night of Samvatsara, the first year of the quinquennial age.” This passage clearly shows that the quinquennial age which, according to the sixth verse of the _Jyotisha_, begins on the 1st of Mâgha (January‐February), once began on the 15th of Phâlguna (February‐March). Now when the 15th of Phâlguna of the first year called Samvatsara of the quinquennial age begins, the moon, according to the _Jyotisha_, is in 3/4th of the Uttar Phâlgunî, and the sun in 1/4th of Pûrva Bhâdrapadâ. Hence the position of the four principal points on the ecliptic was then as follows: The winter solstice in 3°29’ of Purva Bhâdrapadâ. The vernal equinox in the beginning of Mrigashîrsha. The summer solstice in 10 of Purva Phâlgunî. The autumnal equinox in the middle of Jyeshtha. The vernal equinoctial point, we have seen, coincided with the beginning of Krittikâ in 1421 B.C.; and from the beginning of Krittikâ to that of Mrigashîrsha, was, in consequence, 1421 + 26‐2/3 x 72 = 1421 + 1920 = 3341 B.C., supposing the rate of _precession_ to be 50° a year. When we take the rate to be 3°20" in 247 years, the time comes up to 1516 + 1960·7 = 3476·7 B.C. When the winter solstice by its retrograde motion coincided after that with the beginning of Pûrva Bhâdrapadâ, then the commencement of the quinquennial age was changed from the 15th to the 1st of Phâlguna (February‐March). This change took place 240 years after the date of the above observation, that is, in 3101 B.C. This date is most important, as from it an era was reckoned in after times. The commencement of the Kali or Kali Yuga (derived from “kal,” “to reckon”), though said by European scholars to be an imaginary date, becomes thus an astronomical fact. INTERCHANGE OF KRITTIKÂ AND ASHVINÎ.(646) We thus see that the asterisms, twenty‐seven in number, were counted from the Mrigashîrsha when the vernal equinox was in its beginning, and that the practice of thus counting was adhered to till the vernal equinox retrograded to the beginning of Krittikâ, when it became the first of the asterisms. For then the winter solstice had changed, receding from Phâlguna (February‐March) to Mâgha (January‐February), one complete lunar month. And, in like manner, the place of Krittikâ was occupied by Ashvinî, that is, the latter became the first of the asterisms, heading all others, when its beginning coincided with the vernal equinoctial point, or, in other words, when the winter solstice was in Pansha (December‐February). Now from the beginning of Krittikâ to that of Ashvinî there are two asterisms, or 26‐2/3°, and the time the equinox takes to retrograde this distance at the rate of 1 in 72 years is 1920 years; and hence the date at which the vernal equinox coincided with the commencement of Ashvinî or with the end of Revatî is 1920 ‐ 1421 = 499 A.D. BENTLEY’S OPINION. 12. The next and equally‐important observation we have to record here is one discussed by Mr. Bentley in his researches into the Indian antiquities. “The first lunar asterism,” he says, “in the division of twenty‐eight was called Mûla, that is to say, the root or origin. In the division of twenty‐seven the first lunar asterism was called Jyeshtha, that is to say, the eldest or first, and consequently of the same import as the former” (_vide_ his _Historical View of the Hindu Astronomy_, p. 4). From this it becomes manifest that the vernal equinox was once in the beginning of Mûla, and Mûla was reckoned the first of the asterisms when they were twenty‐eight in number, including Adhijit. Now there are fourteen asterisms, or 180°, from the beginning of Mrigashîrsha to that of Mûla, and hence the date at which the vernal equinox coincided with the beginning of Mûla was at least 3341 + 180 × 72 = 16,301 B.C. The position of the four principal points on the ecliptic was then as given below: The winter solstice in the beginning of Uttara Phâlgunî in the month of Shrâvana. The vernal equinox in the beginning of Mûla in Kârttika. The summer solstice in the beginning of Pûrva Bhâdrapadâ in Mâgha. The autumnal equinox in the beginning of Mrigashîrsha in Vaishâkha. A PROOF FROM THE BHAGAVAD GÎTÂ. 13. The _Bhagavad Gîtâ_, as well as the _Bhâgavata_, makes mention of an observation which points to a still more remote antiquity than the one discovered by Mr. Bentley. The passages are given in order below: “I am the Mârgashîrsha [_viz._ the first among the months] and the spring [_viz._ the first among the seasons].” This shows that at one time the first month of spring was Mârgashîrsha. A season includes two months, and the mention of a month suggests the season. “I am the Samvatsara among the years [which are five in number] and the spring among the seasons, and the Mârgashîrsha among the months and the Abhijit among the asterisms [which are twenty‐eight in number].” This clearly points out that at one time in the first year called Samvatsara, of the quinquennial age, the Madhu, that is, the first month of spring, was Mârgashîrsha, and Abhijit was the first of the asterisms. It then coincided with the vernal equinoctial point, and thence from it the asterisms were counted. To find the date of this observation: There are three asterisms from the beginning of Mûla to the beginning of Abhijit, and hence the date in question is at least 16,301 + 3/7 × 90 × 72 = 19,078 or about 20,000 B.C. The Samvatsara at this time began in Bhâdrapadâ, the winter solstitial month. So far then 20,000 years are mathematically proven for the antiquity of the _Vedas_. And this is simply exoteric. Any mathematician, provided he be not blinded by preconception and prejudice, can see this, and an unknown but very clever amateur Astronomer, S. A. Mackey, has proved it some sixty years back. His theory about the Hindu Yugas and their length is curious—as being so very near the correct doctrine. It is said in volume ii. p. 131, of _Asiatic Researches_ that: “The great ancestor of Yudhister reigned 27,000 years ... at the end of the brazen age.” In volume ix. p. 364, we read: “In the _beginning of the Cali Yuga_, in the reign of Yudhister. And Yudhister ... began his reign immediately after the flood called Pralaya.” Here we find three different statements concerning Yudhister ... to explain these seeming differences we must have recourse to their books of science, where we find the heavens and the earth divided into _five parts_ of unequal dimensions, by circles parallel to the equator. Attention to these divisions will be found to be of the utmost importance ... as it will be found that from them arose the division of their Maha‐Yuga into its four component parts. Every astronomer knows that there is a point in the heavens called the pole, round which the whole seems to turn in twenty‐four hours; and that at ninety degrees from it they imagine a _circle_ called the _equator_, which divides the heavens and the earth into two equal parts, the north and the south. Between this circle and the pole there is another imaginary circle called the circle of _perpetual apparition_: between which and the equator there is a point in the heavens called the zenith, through which let another imaginary circle pass, parallel to the other two; and then there wants but the circle of perpetual occultation to complete the round.... No astronomer of Europe besides myself has ever applied them to the development of the Hindu mysterious numbers. We are told in the _Asiatic Researches_ that Yudhister brought Vicramâditya to reign in Cassimer, which is in the latitude of 36 degrees. And in that latitude the circle of perpetual apparition would extend up to 72 degrees altitude, and from that to the zenith there are but 18 degrees, but from the zenith to the equator in that latitude there are 36 degrees, and from the equator to the circle of perpetual occultation there are 54 degrees. Here we find the semi‐circle of 180 degrees divided into four parts, in the proportion of 1, 2, 3, 4, _i.e._, 18, 36, 54, 72. Whether the Hindu astronomers were acquainted with the motion of the earth or not is of no consequence, since the appearances are the same; and if it will give those gentlemen of _tender consciences_ any pleasure I am willing to admit that they imagined the heavens rolled round the earth, but they had observed the stars in the path of the sun to move _forward_ through the equinoctial points, at the rate of fifty‐four seconds of a degree in a year, which carried the whole zodiac round in 24,000 years; in which time they also observed that the angle of obliquity varied, so as to _extend_ or _contract_ the width of the tropics 4 degrees on each side, which rate of motion would carry the tropics from the equator to the poles in 540,000 years: in which time the Zodiac would have made twenty‐two and a half revolutions, which are expressed by the parallel circles from the equator to the poles ... or what amounts to the same thing, the north pole of the ecliptic would have moved from the north pole of the earth to the equator.... Thus the poles become inverted in 1,080,000 years, which is their Maha Yuga, and which they had divided into four unequal parts, in the proportions of 1, 2, 3, 4, for the reasons mentioned above; which are 108,000, 216,000, 324,000, and 432,000. Here we have the most positive proofs that the above numbers originated in _ancient astronomical observations_, and consequently are not deserving of those epithets which have been bestowed upon them by the Essayist, echoing the voice of Bentley, Wilford, Dupuis, etc. I have now to show that the reign of Yudhister for 27,000 years is neither _absurd nor disgusting_, but perhaps the Essayist is not aware that there were several Yudhisters or Judhisters. In volume ii. p. 131, _Asiatic Researches_: “The great ancestor of Yudhister reigned 27,000 years at the end of the brazen or third age.” Here I must again beg your attention to this projection. This is a plane of that machine which the second gentleman thought so very clumsy; it is that of a _prolong spheroid_, called by the ancients an atroscope. Let the longest axis represent the poles of the earth, making an angle of 28 degrees with the horizon; then will the seven divisions above the horizon to the North Pole, the temple of Buddha, and the seven from the North Pole to the circle of perpetual apparition represent the fourteen Manvantaras, or very long periods of time, each of which, according to the third volume of _Asiatic Researches_, p. 258 or 259, was the reign of a Menu. But Capt. Wilford, in volume v. p. 243, gives us the following information: “The Egyptians had fourteen dynasties, and the Hindus had fourteen dynasties, the _rulers_ of which are called Menus.” ... Who can here mistake the fourteen very long periods of time for those which constituted the Cali Yuga of Delhi, or any other place in the latitude of 28 degrees, where the blank space from the foot of Meru to the seventh circle from the equator, constitutes the part passed over by the tropic in the next age; which proportions differ considerably from those in the latitude of 36; and because the numbers in the Hindu books differ, Mr. Bentley asserts that: “This shows what little dependence is to be put in them.” But, on the contrary, it shows with what accuracy the Hindus had _observed_ the motions of the heavens in different latitudes. Some of the Hindus inform us that “the earth has _two spindles_ which are surrounded by _seven tiers of heavens and hells_ at the distance of _one Raju_ each.” This needs but little explanation when it is understood that the seven divisions from the equator to their zenith are called _Rishis_ or _Rashas_. But what is most to our present purpose to know is that they had given names to each of those divisions which the tropics passed over during each revolution of the Zodiac. In the latitude of 36 degrees where the Pole or Meru was nine steps high at Cassimere, they were called _Shastras_; in latitude 28 degrees at Delhi, where the Pole or Meru was seven steps high, they were called Menus; but in 24 degrees, at Cacha, where the Pole or Meru was but six steps high, they were called Sacas. But in the ninth volume (_Asiatic Researches_) Yudhister, the son of Dherma, or _Justice_, was the first of the six Sacas; the name implies the _end_, and as everything has two ends, Yudhister is as applicable to the first as to the last. And as the division on the north of the circle of perpetual apparition is the first of the Cali Yuga, supposing the tropics to be ascending, it was called the division or reign of Yudhister. But the division which immediately precedes the circle of perpetual apparition is the last of the third or _brazen age_, and was therefore called Yudhister, and as his reign preceded the reign of the other, as the tropic ascended to the Pole or Meru, he was called _the father_ of the other—“the great ancestor of Yudhister, who reigned _twenty‐seven thousand years, at the end_ of the brazen age.” (Vol. ii. _Asiatic Researches_.) The ancient Hindus observed that the Zodiac went forward at about the rate of fifty‐four seconds a year, and to avoid greater fractions, stated it at that, which would make a complete round in 24,000 years; and observing the angle of the poles to vary nearly 4 degrees each round, stated the three numbers as such, which would have given _forty‐five rounds of the Zodiac_ to half a revolution of the poles; but finding that forty‐five rounds would not bring the northern tropic to coincide with the circle of perpetual apparition by thirty minutes of a degree, which required the Zodiac to move one sign and a half more, which we all know it could not do in less than 3,000 years, they were, in the case before us, added to the end of the _brazen age_; which lengthen the reign of _that_ Yudhister to 27,000 years instead of 24,000, but, at another time they did not alter the regular order of 24,000 years to the reign of each of these long‐winded monarchs, but rounded up the time by allowing a _regency_ to continue three or four thousand years. In volume ii. p. 134, _Asiatic Researches_, we are told that: “Paricshit, the great nephew and successor of Yudhister, is allowed without controversy to have reigned in the interval between the _brazen and earthen_, or Cali Ages, and to have died at the setting‐in of the Cali Yug.” Here we find an _interregnum_ at the _end_ of the _brazen_ age, and _before_ the setting‐in of the Cali Yug: and as there can be but one brazen or Treta Yug, _i.e._, the third age, in a Maha Yuga of 1,080,000 years: the reign of this Paricshit must have been in the second Maha Yuga, when the pole had returned to its original position, which must have taken 2,160,000 years: and this is what the Hindus call the Prajanatha Yuga. Analogous to this custom is that of some nations more modern, who, fond of even numbers, have made the common year to consist of twelve months of thirty days each, and the five days and odd measure have been represented as the reign of a little serpent biting his tail, and divided into five parts, etc. But “Yudhister began his reign immediately _after the flood called Pralaya_,” _i.e._, at the end of the Cali Yug (or age of heat), when the tropic had passed from the pole to the other side of the circle of perpetual apparition, which coincides with the northern horizon; here the tropics or summer solstice would be again in the same parallel of north declination, at the _commencement_ of their first age, as he was at the _end_ of their _third age_, or Treta Yug, called the brazen age.... Enough has been said to prove that the Hindu books of science are not disgusting absurdities, originated in ignorance, vanity, and credulity; but books containing the most profound knowledge of astronomy and geography. What, therefore, can induce those gentlemen of tender consciences to insist that Yudhister was a real mortal man I have no guess; unless it be that they fear for the fate of Jared and his grandfather, Methuselah?