The ancient Indian mythology dealt with huge numbers quite comfortably. The mythology was quite at ease when it dealt with subjects like the origin and the age of Universe. The eminent astrophysiscist late Carl Sagan has touched upon this in his "Cosmos", saying that quite surprisingly the Indians came close to the Big Bang estimate.
Relativistic ReasoningThe Indian mythology also treats the passing of time, in a relativistic way. For example,
360 man years = 1 holy year
12,000 holy years = 1 yuga (4,320,000 years)
1000 yugas = 1 day for Brahma
= 4320,000,000 man years [4.3 billion]
= 1 Kalpa
1 day + 1 night of Brahma = 8.64 billion years 1 year of Brahma = 8.64 x 360 billion years = 3.110,400 trillion years 100 years of Brahma (life)= 311.040 trillion years Note: Another variation gives Brahma's lifespan as [43200 Kalpa = Life of a Brahma = 1 Mahakalpa = 186,624,000,000,000 years Here the age of
Brahma is taken as 120 years (120 X 360 = 43200 days). After a Brahma dies an equal time has to
pass before he is born again! |
Interestingly enough
this article first appeared here some time in 1995-96.
Very few pages were available on the net on Indian
Cosmology that time. Today it is all changed. Articles relating to the same issue is abundant on the net now with references to other documents and books. A scientist has analyzed smiliar issues and has written several articles in recent years including many in 2002. Here is the link to Artciles by Subhash Kak on Indian Cosmology and Others It will be interesting to note that some of the views expressed on this page you are viewing (independently arrived at by the author) is also found in Subhash Kak's articles which are arrived at by solid research in the area. |
It is amazing how the old people thought about such enormous numbers. Also the concept of "one day" differs depending upon the "frame of reference". This goes well in hand with the Theory of Relativity! Guinness Book of World Records acknowledge this : "the longest measure of time is the Kalpa in Hindu Chronology" (Page 77, 1988 Edition).
The mythology goes even further. It says the "current" Universe ends in a flood at the end of every Kalpa (4320 million years). The next "day" the Universe is re-created again. This process repeats every "day" of Brahma's life - 43200 times. After that there will be a "void" for an equivalent period. Then again the whole process starts with another Brahma.
Basically, this is the classical case of "Cyclic Universe", which is discussed by some of the astro-physiscists today. It also explains, in a way, what was there before the "Big Bang".
| Since we wrote this (1995-97) more and more in the scientific community have come in support of cyclic universe model as against a single Big Bang. The latest is an article in National Geographic Page on 25th April 2002. Not only does the new model support Cyclic Universe, but even talk about figures of the order of trillions of years! Here are some excerpts and the link. |
| Universe Reborn
Endlessly in New Model of the Cosmos Ben
Harder This new, cyclic model of the universe offers an appealing alternative to the prevailing theory, according to Paul J. Steinhardt, a theoretical physicist at Princeton University. "It predicts all the features of the standard model, using fewer ingredients," he said. Steinhardt and his colleague Neil Turok of Cambridge University proposed the new model in a report posted April 25th on the Science Express Web site of the journal Science. In the most widely accepted cosmological model, called the inflationary model, the universe was born in an instantaneous creation of matter and energy known as the Big Bang. As the universe has inflated since that event, matter and energy have spread out in clumps. The spreading could potentially continue forever. "The inflation idea has been tremendously influential," noted Robert P. Kirshner, an astrophysicist at Harvard University. "No observation's been found that proves it wrong." But, he added, "that does not, of course, mean that it's right." Nevertheless, the inflationary theory has survived since it was introduced in the late 1970s, while cosmologists have discarded competing ideas one by one. New Theoretical Competition Steinhardt was one of the theorists responsible for devising the inflationary model more than 20 years ago. Yet he shrugs off suggestions that he's trying to corner the cosmological market. "Having more than one theory is very important for motivating new experiments," he said. Although he's excited by the possible implications of the new model, Steinhardt declined to bet on whether it or the conventional model is more representative of the nature of the universe. "The conventional model has come out spectacularly well," he said, adding that he has nevertheless long wondered whether a different model might explain the universe equally well—or perhaps better. "That's what started us on this adventure," he said. Steinhardt said several features of the cosmos can be better explained by the cyclic model, including the geometry of the universe, its overall uniformity, and, in particular, the existence of a phenomenon known as acceleration. Recently gathered data from exploding, dying stars called supernovae have revealed that the universe is not only expanding, as predicted, but that its rate of expansion is accelerating. The only force that could explain such cosmic acceleration is a source of energy, not visible or yet identified by scientists, that permeates the entire universe. Physicists have dubbed the mysterious force "dark energy." The discovery several years ago of acceleration and the underlying dark energy came as a surprise to scientists because the standard model did not predict such features. The new model offers a streamlined alternative. It treats the Big Bang not as the true moment of creation, but as a transition between two cycles in an endless process of cosmological rebirth. According to the model, the Big Bang is followed by a period of slow expansion and gradual accumulation of dark energy. As dark energy becomes dominant, it stimulates cosmic acceleration. The current era is near the transition between these stages, Steinhardt said. Cosmic Crunch As accelerated expansion proceeds over trillions of years, matter and energy are gradually stretched thin across the universe. Eventually, matter, radiation, and even black holes become so stretched out that they are dissipated to almost nothing, leaving behind a massive universe that is virtually empty, Steinhardt explained. At this point in the cycle, particles of matter are so far apart—and moving away from each other so rapidly—that they cannot interact and are effectively separated into distinct universes. Steinhardt and Turok call this vacuum-like stage the "big crunch." The vacuum triggers dark energy to materialize into matter and radiation in another Big Bang, refreshing the cycle of expansion. Other scientists are intrigued by the new model, but it hasn't won them over yet. Kirshner credits Steinhardt and Turok with assembling the new model to be consistent with what is known about the universe. "They've been careful to account for the known facts," he said. The new model, Kirshner said, "is highly speculative, but it's not unthinkable." Rigorously testing the two theories against each other will take some time. Steinhardt already has some ideas about how it could be done. For example, gravitational waves, a feature of the universe predicted by general relativity, would take a different form in these two models. There would not be long-wavelength gravitational waves in a cyclic universe, whereas there would be in an inflationary universe. Efforts are underway to measure and characterize gravitational waves, but it will likely take at least several years to gather useful data. The Planck satellite scheduled to be launched by the European Space Agency about 2008 may help settle the question, Steinhardt said. Source : National Geographic News 2002 |
It is not surprising that the number system and notation we use today originated in ancient India. By 500 AD Hindus devised a positional notation for the decimal system. Until then higher numbers were represented by letters (just the same way we use A..F for hexadecimal notation). "The Hindus threw out the now-needless letter symbols...Although subsequently modernized, these nine Hindu letter symbols are what we today know as numbers 1 through 9." (Mathematics, Time-Life Books, Page 17). The all important zero came still later and was popularized in Europe by Arabs.
Note: the word Hindu is used in a non-religious sense here. It only means the ancient inhabitants of the region we now know as the Indian Subcontinent. Both the words Hindu and India originated from Indus (Sindhu in Sanskrit), the river which was the home of the ancient Indus Valley Civilization.
at http://www.geocities.com/Athens/Forum/4737/kalpa.html
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