Śaṅkaranārāyaṇa

This article is about an astronomer. For the Diwan, see Sankaranarayana Iyen.
Śaṅkaranārāyaṇa
Born c.840 CE
Died c.940 CE
Residence Kodungallur in Kerala, India
Nationality Indian
Ethnicity Namputiri
Occupation Astronomer-mathematician
Known for Setting up the Mahodayapuram observatory, the first astronomical observatory in India
Notable work Laghu-bhāskarīya-vivaraṇa
Religion Hindu

Śaṅkaranārāyaṇa (c. 840 – c. 900) was an Indian astronomer and mathematician in the court of King Sthanu Ravi Varman (844- 885 CE) of the Later Cheras in Kerala.[1] He is believed to have established the first astronomical observatory in India at Kodungallur in Kerala.[1][2] His most famous work was the Laghubhāskarīyavivaraṇa[3] which was a commentary on the Laghubhāskarīya of Bhaskara I which in turn is based on the work of Aryabhata I.[4] The Laghubhāskarīyavivaraṇa was written 869 CE for the author writes in the text that it is written in the Shaka year 791 which translates to a date CE by adding 78.[4]

Śaṅkaranārāyaṇa was a student of the astronomer and mathematician Govindasvami (c. 800 – c. 860).

Śaṅkaranārāyaṇa's observatory

Information on observatories in India is meager. Many astronomers patronized by kings carried out astronomical observations. The places of these observations could be called as observatories. The first extant reference to a place of observation with some instruments in India is in the treatise Laghubhāskarīyavivaraṇa authored by Śaṅkaranārāyaṇa. In this work, Śaṅkaranārāyaṇa speaks of a place with instruments in the capital city Mahodayapuram of King Sthanu Ravi Varma of the Kulasekhara dynasty in Kerala. Mahodayapuram has been identified with the present day Kodungallur.[1] The observatory was fitted with an armillary sphere which is a model of the celestial sphere. At the directions of Śaṅkaranārāyaṇa, in every 'Kadigai' duration of 34 minutes, bells were sounded at different important centres of the town to announce correct time.

The following is a translation of the verses in Laghubhāskarīyavivaraṇa containing references to the existence of an observatory in Mahodayapura:[5]

Mathematical achievements

List of Chera kings
Early Cheras
Uthiyan Cheralathan  ·   Nedum Cheralathan  ·   Selva Kadumko Valiathan   ·   Senguttuvan Chera  · Illam Cheral Irumporai  ·   Mantaran Cheral
Interregnum (c.300800)
Later Cheras
Kulashekhara Varma 800-820
Rajashekhara Varma 820-844
Sthanu Ravi Varma 844-885
Rama Varma Kulashekhara 885-917
Goda Ravi Varma 917-944
Indu Kotha Varma 944-962
Bhaskara Ravi Varma I 962-1019
Bhaskara Ravi Varma II 1019-1021
Vira Kerala 1021-1028
Rajasimha 1028-1043
Bhaskara Ravi Varma III 1043–1082
Ravi Rama Varma 1082-1090
Rama Varma Kulashekhara 1090-1102
Related articles
Silappatikaram  ·   Patiṟṟuppattu
Muchiri  ·   Thondi  · Vanchi
Tholan  · Śaṅkaranārāyaṇa
Cheraman Perumal  ·   Mukundamala
Kollam Era
Battle of Kandalur Salai
School of Astronomy and Mathematics  ·   Vazhapalli plates

Laghubhāskarīyavivaraṇa covers the standard mathematical methods of Aryabhata I such as the solution of the indeterminate equation by = ax ± c (a, b, c integers) in integers which is then applied to astronomical problems. The Indian method involves using the Euclidean algorithm. It is called kuttakara ("pulveriser").[4]

The most unusual feature of the Laghubhāskarīyavivaraṇa is the use of katapayadi system of numeration as well as the place-value Sanskrit numerals which Laghubhāskarīyavivaraṇa frequently uses.[4] Śaṅkaranārāyaṇa is the first author known to use katapayadi system of numeration with this name but he did not invent it for it appears to be identical to a system invented earlier which was called varnasamjna. The numeration system called varnasamjna was invented by the astronomer Haridatta, and it was explained by him in a text which was written in 684.

The system is based on writing numbers using the letters of the Indian alphabet:

Under this system 1 to 5 are represented by four different letters. For example 1 is represented by the letters ka, ta, pa, ya which give the system its name (ka, ta, pa, ya becomes katapaya). Then 6, 7, 8 are represented by three letters and finally nine and zero are represented by two letters. The system was a spoken one in the sense that consonants and vowels which are not vocalised have no numerical value. The system is a place-value system with zero. In fact many different "words" could represent the same number and this was highly useful for works written in verse.

See also

References

  1. 1 2 3 George Gheverghese Joseph (2009). A Passage to Infinity. New Delhi: SAGE Publications Pvt. Ltd. p. 13. ISBN 978-81-321-0168-0.
  2. Virendra Nath Sharma (1995). Sawai Jai Singh and His Astronomy. Delhi: Motilal Banarsidass Publishers. ISBN 81-208-1256-X.
  3. S. Venkitasubramonia Iyar; S.Kochukunju Asari, eds. (1949). Laghubhaskariyavivarana 162. Trivandrun: TSS.
  4. 1 2 3 4 O'Connor, John J.; Robertson, Edmund F., "Sankara Narayana", MacTutor History of Mathematics archive, University of St Andrews.
  5. J.B. harley; David Woodward, eds. (1992). The history of cartography : Volume 2 Book 1 : Cartography in the traditional Islamic and South Asian societies. University of Chicago Press. p. 360. ISBN 0-226-31635-1.
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