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*Surya Siddhanta*

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The * Surya Siddhanta* is the name of multiple treatises (siddhanta) in Hindu astronomy.
The extant text as edited by Burgess (1860) is medieval (c. 12th century), but it is clearly based on older versions, which may go back to before the Common Era

^{[citation needed]}.

It has rules laid down to determine the true motions of the luminaries, which conform to their actual positions in the sky. It gives the locations of several stars other than the lunar nakshatras and treats the calculation of solar eclipses as well as solstices, e.g., summer solstice 21/06. Significant coverage is on kinds of time, length of the year of gods and demons, day and night of god Brahma, the elapsed period since creation, how planets move eastwards and sidereal revolution. The Earth's diameter and circumference are also given. Eclipses and color of the eclipsed portion of the moon are mentioned.

## Contents

## Textual history and influence

In a work called the *Pañca-siddhāntikā* composed in the sixth century by Varāhamihira, five astronomical treatises are named and summarised: *Paulīśa-siddhānta*, *Romaka-siddhānta*, *Vasiṣṭha-siddhānta*, * Sūrya-siddhānta*, and

*Paitāmaha-siddhānta*.

^{[1]}

^{:50}Judging from the epoch dates in the work, Plofker suggests that this Sūrya-siddhānta was composed or revised in the early sixth century.

^{[1]}

^{:50}

Utpala, a 10th-century commentator of Varahamihira, quotes six shlokas of the *Surya Siddhanta* of his day, not one of which is to be found in the text now known as the *Surya Siddhanta*. The present version was modified by Bhaskaracharya during the Middle Ages.^{[citation needed]}
It is partly based on Vedanga Jyotisha, which itself might reflect traditions going back to the Indian Iron Age (around 700 BCE).^{[2]}.

It is hypothesized that there were cultural contacts between the Indian and Greek astronomers via cultural contact with Hellenistic Greece, specifically the work of Hipparchus. There were many similarities between Suryasiddhanta and Greek astronomy in Hellenistic period. For example, Suryasiddhanta provides more accurate and detailed table of sines than Hipparchus^{[3]}. However, the epicyclical model of Suryasiddhanta was simpler than that made by Ptolemy in the 2nd century ^{[4]}.

The table of sines may reflect the only extant version of the original table by Hipparchus, which was lost in the West,^{[5]} but which underwent tradition within Indian astronomy for at least a millennium before reaching its extant form.
Because the tradition of Hellenistic astronomy was essentially stopped short in the West after the end of Late Antiquity, the *Surya Siddhanta* came to play an important part in the history of science, as its survival allowed transmission of the knowledge of trigonometry into Islamic astronomy and from there back to medieval Europe by the 12th century.^{[6]} Surya Siddhanta was one of the two books in Sanskrit translated in Arabic in the later half of eighth century during the reign of Abbasid Khalifa Almansur, and was one of the first books to be translated during the movement for translating world heritage in Arabic.^{[citation needed]}

## Contents

### Astronomy

The table of contents in this text are:

- The Mean Motions of the Planets
- True Places of the Planets
- Direction, Place and Time
- The Moon and Eclipses
- The Sun and Eclipses
- The Projection of Eclipses
- Planetary Conjunctions
- Of the Stars
- Risings and Settings
- The Moon's Risings and Settings
- Certain Malignant Aspects of the Sun and Moon
- Cosmogony, Geography, and Dimensions of the Creation
- The Gnomon
- The Movement of the Heavens and Human Activity

Methods for accurately calculating the shadow cast by a gnomon are discussed in both Chapters 3 and 13.

#### Time cycles

The astronomical time cycles contained in the text were remarkably accurate at the time. The Hindu Time Cycles, copied from an earlier work, are described in verses 11–23 of Chapter 1:

- 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 of the demons.
- 15. Twelve thousand of these divine years are denominated a caturyuga; of ten thousand times four hundred and thirty-two solar years
- 16. Is composed that caturyuga, with its dawn and twilight. The difference of the krtayuga 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 caturyuga, multiplied successively by four, three, two, and one, gives the length of the krta and the other yugas: the sixth part of each belongs to its dawn and twilight.
- 18. One and seventy caturyugas make a manu; at its end is a twilight which has the number of years of a krtayuga, 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 krtayuga.
- 20. The kalpa, thus composed of a thousand caturyugas, 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 first kalpa.
- 22. And of this kalpa, six manus are past, with their respective twilights; and of the Manu son of Vivasvant, twenty-seven caturyugas are past;
- 23. Of the present, the twenty-eighth, caturyuga, this krtayuga is past....

#### Planetary diameters

The *Surya Siddhanta* also estimates the diameters of the planets. The estimate for the diameter of Mercury is 3,008 miles, an error of less than 1% from the currently accepted diameter of 3,032 miles. It also estimates the diameter of Saturn as 73,882 miles, which again has an error of less than 1% from the currently accepted diameter of 74,580. Its estimate for the diameter of Mars is 3,772 miles, which has an error within 11% of the currently accepted diameter of 4,218 miles. It also estimated the diameter of Venus as 4,011 miles and Jupiter as 41,624 miles, which are roughly half the currently accepted values, 7,523 miles and 88,748 miles, respectively.^{[7]}

### Trigonometry

The *Surya Siddhanta* contains the roots of modern trigonometry. Its trigonometric functions * jyā and koti-jyā*
(reflecting the chords of Hipparchus) are the direct source (via Arabic transmission) of the terms sine and cosine.
It also contains the earliest use of the tangent and secant when discussing the shadow cast by a gnomon in verses 21–22 of Chapter 3:

Of [the sun's meridian zenith distance] find thejya("base sine") andkojya(cosine or "perpendicular sine"). If then thejyaand radius be multiplied respectively by the measure of the gnomon in digits, and divided by thekojya, the results are the shadow and hypotenuse at mid-day.

In modern notation, this gives the shadow of the gnomon at midday as

<math>s = \frac{g \sin \theta}{\cos \theta} = g \tan \theta</math>

and the hypotenuse of the gnomon at midday as

<math>h = \frac{g r}{\cos \theta} = g r \frac{1}{\cos \theta} = g r \sec \theta</math>

where <math>\ g</math> is the measure of the gnomon, <math>\ r</math> is the radius of the gnomon, <math>\ s</math> is the shadow of the gnomon, and <math>\ h</math> is the hypotenuse of the gnomon.

## Calendrical uses

The Indian solar and lunisolar calendars are widely used, with their local variations, in different parts of India. They are important in predicting the dates for the celebration of various festivals, performance of various rites as well as on all astronomical matters. The modern Indian solar and lunisolar calendars are based on close approximations to the true times of the Sun’s entrance into the various rasis.

Conservative "panchang" (almanac) makers still use the formulae and equations found in the *Surya Siddhanta* to compile and compute their panchangs. The panchang is an annual publication published in all regions and languages in India containing all calendrical information on religious, cultural and astronomical events. It exerts great influence on the religious and social life of the people in India and is found in most Hindu households.

## Editions

*Translation of the Sûrya-Siddhânta: A text-book of Hindu astronomy, with notes and an appendix*by Ebenezer Burgess Originally published:*Journal of the American Oriental Society***6**(1860) 141–498. Commentary by Burgess is much larger than his translation.*Surya-Siddhanta: A Text Book of Hindu Astronomy*by Ebenezer Burgess, ed. Phanindralal Gangooly (1989/1997) with a 45-page commentary by P. C. Sengupta (1935).- Translation of the
*Surya Siddhanta*by Bapu Deva Sastri (1861) ISBN 3-7648-1334-2, ISBN 978-3-7648-1334-5. Only a few notes. Translation of*Surya Siddhanta*occupies first 100 pages; rest is a translation of the*Siddhanta Siromani*by Lancelot Wilkinson. *Surya Siddhanta*Sanskrit text in Devanagari.**सूर्यसिद्धान्त**(in Unicode Devanagari) . This page has been deleted and transferred to the following : [1]

## See also

## Notes

- ^
^{a}^{b}Kim Plofker (2009).*Mathematics In India*. Princeton University Press. ISBN 978-0-691-12067-6. **^**Romesh Chunder Dutt,*A History of Civilization in Ancient India, Based on Sanscrit Literature*, vol. 3, ISBN 0-543-92939-6 p. 208.**^**"There are many evident indications of a direct contact of Hindu astronomy with Hellenistic tradition, e.g. the use of epicycles or the use of tables of chords which were transformed by the Hindus into tables of sines. The same mixture of elliptic arcs and declination fo circles is found with Hipparchus aind in the early Siddhantas (note: [...] In the Surya Siddhanta, the zodiacal signs are used in similar fashion to denote arcs on any great circle. Otto Neugebauer,*The Exact Sciences in Antiquity, vol. 9 of Acta historica scientiarum naturalium et medicinalium, Courier Dover Publications, 1969, p. 186.***^**"The epicyclic model in the*Siddnahta Surya*is much simpler than Ptolemy's and supports the hypothesis that the Indians learned the original system of Hipparchus when they had contact with the West. Greek knowledge was absorbed, however, without the Greek method. That is, the*Siddhanta Surya*is considered a divine work, with the authority for its rules resting on relevation, not reason. This is nowhere more strikingly revealed than in the table of sines in the*Siddhanta Surya*(Brennand 1896). This table correctiy gives the sines for angles from zero to 90° in steps of 3.75°, indicating that it was originally constructed Hipparchus' simpler theorems. Remarkably, however, the*Siddhanta Surya*itself gives a rule for constructing the table that is mathematically preposterous." Alan Cromer,*Uncommon Sense : The Heretical Nature of Science*, Oxford University Press, 1993, p. 111.**^**"There are many evident indications of a direct contact of Hindu astronomy with Hellenistic tradition, e.g. the use of epicycles or the use of tables of chords which were transformed by the Hindus into tables of sines. The same mixture of elliptic arcs and declination fo circles is found with Hipparchus aind in the early Siddhantas (note: [...] In the Surya Siddhanta, the zodiacal signs are used in similar fashion to denote arcs on any great circle. Otto Neugebauer,*The Exact Sciences in Antiquity, vol. 9 of Acta historica scientiarum naturalium et medicinalium, Courier Dover Publications, 1969, p. 186.***^**"Despite the relatively primitive state of the Greek science in the Siddhanta Surya, by stimulating Arabic science, this work played an important role in the history of science." Alan Cromer,*Uncommon Sense : The Heretical Nature of Science*, Oxford University Press, 1993, p. 112.**^**Richard Thompson (1997), "Planetary Diameters in the Surya-Siddhanta" (PDF),*Journal of Scientific Exploration***11**(2): 193–200 [196]

## Further reading

- Victor J. Katz.
*A History of Mathematics: An Introduction*, 1998.

## External links