2006-11-07 11:44:55 · 5 answers · asked by Anonymous in Science & Mathematics ➔ Astronomy & Space
In India the first references to astronomy are to be found in the Rig Veda which is dated around 2000 B.C. Vedic Aryans in fact deified the Sun, Stars and Comets. Astronomy was then interwoven with astrology and since ancient times Indians have involved the planets (called Grahas) with the determination of human fortunes. The planets Shani, i.e. Saturn and Mangal i.e. Mars were considered inauspicious.
In the working out of horoscopes (called Janmakundali), the position of the Navagrahas, nine planets plus Rahu and Ketu (mythical demons, evil forces) was considered. The Janmakundali was a complex mixture of science and dogma. But the concept was born out of astronomical observations and perception based on astronomical phenomenon. In ancient times personalities like Aryabhatta and Varahamihira were associated with Indian astronomy.
It would be surprising for us to know today that this science had advanced to such an extent in ancient India that ancient Indian astronomers had recognized that stars are same as the sun, that the sun is center of the universe (solar system) and that the circumference of the earth is 5000 Yojanas. One Yojana being 7.2 kms., the ancient Indian estimates came close to the actual figure.
In Indian languages, the science of Astronomy is today called Khagola-shastra. The word Khagola perhaps is derived from the famous astronomical observatory at the University of Nalanda which was called Khagola. It was at Khagola that the famous 5th century Indian Astronomer Aryabhatta studied and extended the subject.
Aryabhatta is said to have been born in 476 A.D. at a town called Ashmaka in today's Indian state of Kerala. When he was still a young boy he had been sent to the University of Nalanda to study astronomy. He made significant contributions to the field of astronomy. He also propounded the Heliocentric theory of gravitation, thus predating Copernicus by almost one thousand years.
Aryabhatta's Magnum Opus, the Aryabhattiya was translated into Latin in the 13th century. Through this translation, European mathematicians got to know methods for calculating the areas of triangles, volumes of spheres as well as square and cube root. Aryabhatta's ideas about eclipses and the sun being the source of moonlight may not have caused much of an impression on European astronomers as by then they had come to know of these facts through the observations of Copernicus and Galileo.
But considering that Aryabhatta discovered these facts 1500 years ago, and 1000 years before Copernicus and Galileo makes him a pioneer in this area too. Aryabhatta's methods of astronomical calculations expounded in his Aryabhatta-Siddhatha were reliable for practical purposes of fixing the Panchanga (Hindu calendar). Thus in ancient India, eclipses were also forecast and their true nature was perceived at least by the astronomers.
The lack of a telescope hindered further advancement of ancient Indian astronomy. Though it should be admitted that with their unaided observations with crude instruments, the astronomers in ancient India were able to arrive at near perfect measurement of astronomical movements and predict eclipses.
Indian astronomers also propounded the theory that the earth was a sphere. Aryabhatta was the first one to have propounded this theory in the 5th century. Another Indian astronomer, Brahmagupta estimated in the 7th century that the circumference of the earth was 5000 yojanas. A yojana is around 7.2 kms. Calculating on this basis we see that the estimate of 36,000 kms as the earth's circumference comes quite close to the actual circumference known today.
There is an old Sanskrit Sloka (couplet) which is as follows:
"Sarva Dishanaam, Suryaha, Suryaha, Suryaha."
This couplet means that there are suns in all directions. This couplet which describes the night sky as full of suns, indicates that in ancient times Indian astronomers had arrived at the important discovery that the stars visible at night are similar to the Sun visible during day time. In other words, it was recognized that the sun is also a star, though the nearest one. This understanding is demonstrated in another Sloka which says that when one sun sinks below the horizon, a thousand suns take its place.
This apart, many Indian astronomers had formulated ideas about gravity and gravitation. Brahmagupta, in the 7th century had said about gravity that "Bodies fall towards the earth as it is in the nature of the earth to attract bodies, just as it is in the nature of water to flow".
About a hundred years before Brahmagupta, another astronomer, Varahamihira had claimed for the first time perhaps that there should be a force which might be keeping bodies stuck to the earth, and also keeping heavenly bodies in their determined places. Thus the concept of the existence of some attractive force that governs the falling of objects to the earth and their remaining stationary after having once fallen; as also determining the positions which heavenly bodies occupy, was recognized.
It was also recognized that this force is a tractive force. The Sanskrit term for gravity is Gurutvakarshan which is an amalgam of Guru-tva-akarshan. Akarshan means to be attracted Thus the fact that the character of this force was of attraction was also recognized. This apart, it seems that the function of attracting heavenly bodies was attributed to the sun.
The term Guru-tva-akarshan can be interpreted to mean, 'to the attracted by the Master". The sun was recognized by all ancient people to be the source of light and warmth. Among the Aryans the sun was defiled.
The sun (Surya) was one of the chief deities in the Vedas. He was recognized as the source of light (Dinkara), source of warmth (Bhaskara). In the Vedas he is also referred to as the source of all life, the centre of creation and the centre of the spheres.
The last statement is suggestive of the sun being recognized as the centre of the universe (solar system). The idea that the sun was looked upon as the power that attracts heavenly bodies is supported by the virile terms like Raghupati and Aditya used in referring to the sun.
While the male gender is applied to refer to the sun, the earth (Prithivi, Bhoomi, etc.,) is generally referred to as a female. The literal meaning of the term Gurutvakarshan also supports the recognition of the heliocentric theory, as the term Guru corresponds with the male gender, hence it could not have referred to the earth which was always referred to as a female.
Many ancient Indian astronomers have also referred to the concept of heliocentrism. Aryabhata has suggested it in his treatise Aryabhattiya. Bhaskaracharya has also made references to it in his Magnum Opus Siddhanta-Shiromani.
But it has to be conceded that the heliocentric theory of gravitation was also developed in ancient times (i.e. around 500 B.C.) by Greek astronomers.
(Its only illustrative & not Exaustive)
2006-11-08 02:15:18 · answer #1 · answered by veerabhadrasarma m 7 · 0⤊ 0⤋
Names Of Famous Astronomers
2016-11-04 12:37:46 · answer #2 · answered by ? 4 · 0⤊ 0⤋
1. Bhaskara 2. Lilavati (Bhaskara's daughter) 3. Varaha mihira 4. Aryabhata 5. Brahma gupta I use here the Sanskrit phonetic practice of ending names with a vowel and not the Hindi-Urdu (Hindustani) rule and that is why every name ends with a 'a'. Many things in Mathematics with which we are familiar now are attributed to these (and some more). The format, notation and presentation of today are entirely different from those in ancient times. So, to say with certainity 'Yes! this is his invention', is difficult. Even though foundation for 'Calculus' was laid by both Newton and 'Leibnitz'; Newton's notation is cumbersome and we follow Leibnitz's. Almost all ancient Indian mathematicians were concerned with astronomy and solving astronomical problems. This is so because unlike today, those people used to look at the sky daily (often) and unwittingly keep track of happenings there (primary thing like moon's phases). Much of this knowledge is with us for calculations (algorithms) in Panchangam, the proof of which is the accuracy of predictions of eclipses. For instance Aryabhata devised a notation for Trigonometrical functions, not in the way we write like 'Sine', 'Cosine' but 'Versign' which simply is 'arc sine' of which the angle is. Roughly their contributions are in Algebra (Beeja ganitham), Pythagous' proof of a right-angled triangle, solution of quadratic equation, continued fractions, number theory since 'zero' (0) was formulated and used by them much before Romans were grappling with Roman numerals and representation of numbers with them, elemnts of Trigonometry. I suggest you to go to 'Wikipedia' now, armed with the above names.
2016-03-19 05:09:25 · answer #3 · answered by Anonymous · 0⤊ 0⤋
Varahmihir,Bhaskaracharya
2006-11-07 11:54:13 · answer #4 · answered by Anonymous · 0⤊ 0⤋
Bhaskaracharya and Aryabhatta
2006-11-07 17:39:46 · answer #5 · answered by Santhosh S 5 · 0⤊ 0⤋
baskaracharya,nurupatungaand most of the indian kings and their subjects.
2006-11-07 18:42:04 · answer #6 · answered by srikanta 2 · 0⤊ 0⤋