Pingala

Pingala
Pingala
Born	unclear, 3rd or 2nd century BCE
Academic background
Academic work
Era	Maurya or post-Maurya
Main interests	Sanskrit prosody, Indian mathematics, Sanskrit grammar
Notable works	Author of the Chandaḥśāstra (also called Pingala-sutras), the earliest known treatise on Sanskrit prosody. Creator of Pingala's formula.
Notable ideas	mātrāmeru, binary numeral system, arithmetical triangle

Acharya Pingala^[2] (piṅgala; c. 3rd/2nd century BCE)^[1] was an ancient Indian poet and mathematician,^[3] and the author of the Chandaḥśāstra (also called Pingala-sutras), the earliest known treatise on Sanskrit prosody.^[4]

The Chandaḥśāstra is a work of eight chapters in the late Sūtra style, not fully comprehensible without a commentary. It has been dated to the last few centuries BCE.^[5]^[6] In the 10th-century, Halayudha wrote a commentary elaborating on the Chandaḥśāstra.

Combinatorics[]

The Chandaḥśāstra presents the first known description of a binary numeral system in connection with the systematic enumeration of meters with fixed patterns of short and long syllables.^[7] The discussion of the combinatorics of meter corresponds to the binomial theorem. Halāyudha's commentary includes a presentation of Pascal's triangle (called meruprastāra). Pingala's work also includes material related to the Fibonacci numbers, called mātrāmeru.^[8]

Use of zero is sometimes ascribed to Pingala due to his discussion of binary numbers, usually represented using 0 and 1 in modern discussion, but Pingala used light (laghu) and heavy (guru) rather than 0 and 1 to describe syllables. As Pingala's system ranks binary patterns starting at one (four short syllables—binary "0000"—is the first pattern), the nth pattern corresponds to the binary representation of n−1 (with increasing positional values).

Pingala is credited with using binary numbers in the form of short and long syllables (the latter equal in length to two short syllables), a notation similar to Morse code.^[9] Pingala used the Sanskrit word śūnya explicitly to refer to zero.^[10]

Editions[]

A. Weber, Indische Studien 8, Leipzig, 1863.

Notes[]

^ Jump up to: ^a ^b Plofker, Kim (2009). Mathematics in India. Princeton University Press. pp. 55–56. ISBN 0-691-12067-6.
^ Singh, Parmanand (1985). "The So-called Fibonacci Numbers in Ancient and Medieval India" (PDF). Historia Mathematica. Academic Press. 12: 232.
^ "Pingala – Timeline of Mathematics". Mathigon. Retrieved 2021-08-21.
^ Vaman Shivaram Apte (1970). Sanskrit Prosody and Important Literary and Geographical Names in the Ancient History of India. Motilal Banarsidass. pp. 648–649. ISBN 978-81-208-0045-8.
^ R. Hall, Mathematics of Poetry, has "c. 200 BC"
^ Mylius (1983:68) considers the Chandas-shāstra as "very late" within the Vedānga corpus.
^ Van Nooten (1993)
^ Susantha Goonatilake (1998). Toward a Global Science. Indiana University Press. p. 126. ISBN 978-0-253-33388-9. Virahanka Fibonacci.
^ "Math for Poets and Drummers" (pdf). people.sju.edu.
^ Plofker (2009), pages 54–56: "In the Chandah-sutra of Pingala, dating perhaps the third or second century BC, [...] Pingala's use of a zero symbol [śūnya] as a marker seems to be the first known explicit reference to zero. ... In the Chandah-sutra of Pingala, dating perhaps the third or second century BC, there are five questions concerning the possible meters for any value “n”. [...] The answer is (2)⁷ = 128, as expected, but instead of seven doublings, the process (explained by the sutra) required only three doublings and two squarings – a handy time saver where “n” is large. Pingala’s use of a zero symbol as a marker seems to be the first known explicit reference to zero."

References[]

Amulya Kumar Bag, 'Binomial theorem in ancient India', Indian J. Hist. Sci. 1 (1966), 68–74.
George Gheverghese Joseph (2000). The Crest of the Peacock, p. 254, 355. Princeton University Press.
Klaus Mylius, Geschichte der altindischen Literatur, Wiesbaden (1983).
Van Nooten, B. (1993-03-01). "Binary numbers in Indian antiquity". Journal of Indian Philosophy. 21 (1): 31–50. doi:10.1007/BF01092744.

External links[]

Math for Poets and Drummers, Rachel W. Hall, Saint Joseph's University, 2005.
Mathematics of Poetry, Rachel W. Hall

[plofker55-1] Jump up to: ^a ^b Plofker, Kim (2009). Mathematics in India. Princeton University Press. pp. 55–56. ISBN 0-691-12067-6.

[2] Singh, Parmanand (1985). "The So-called Fibonacci Numbers in Ancient and Medieval India" (PDF). Historia Mathematica. Academic Press. 12: 232.

[3] "Pingala – Timeline of Mathematics". Mathigon. Retrieved 2021-08-21.

[4] Vaman Shivaram Apte (1970). Sanskrit Prosody and Important Literary and Geographical Names in the Ancient History of India. Motilal Banarsidass. pp. 648–649. ISBN 978-81-208-0045-8.

[5] R. Hall, Mathematics of Poetry, has "c. 200 BC"

[6] Mylius (1983:68) considers the Chandas-shāstra as "very late" within the Vedānga corpus.

[7] Van Nooten (1993)

[8] Susantha Goonatilake (1998). Toward a Global Science. Indiana University Press. p. 126. ISBN 978-0-253-33388-9. Virahanka Fibonacci.

[9] "Math for Poets and Drummers" (pdf). people.sju.edu.

[10] Plofker (2009), pages 54–56: "In the Chandah-sutra of Pingala, dating perhaps the third or second century BC, [...] Pingala's use of a zero symbol [śūnya] as a marker seems to be the first known explicit reference to zero. ... In the Chandah-sutra of Pingala, dating perhaps the third or second century BC, there are five questions concerning the possible meters for any value “n”. [...] The answer is (2)⁷ = 128, as expected, but instead of seven doublings, the process (explained by the sutra) required only three doublings and two squarings – a handy time saver where “n” is large. Pingala’s use of a zero symbol as a marker seems to be the first known explicit reference to zero."

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