Astronomy:Karaṇa (pañcāṅga)

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In Indian astronomy, a karaṇa is a half of a tithi. It is the duration of time in which the difference of the longitudes of the Sun and the Moon is increased by 6 degrees.[1][2] A lunar month has 30 tithi-s and so the number of karaṇa-s in a lunar month is 60. These sixty karaṇa-s are not individually named. In stead, the originators of the concept have chosen 11 names to be associated with the karaṇa-s which means several karaṇa-s will be associated with the same name. Of these 11 names, four are fixed or immovables (or sthira-s) in the sense that they are associated with four unique karaṇa-s in a lunar month. These constant names are Śakuni, Catuṣpāda, Nāga and Kimstughna. The remaining seven names are variable or movable (or, cara-s) in the sense that there are several karaṇa-s associated with each of them. These names are Bava, Bālava, Kaulava, Taitila, Gara, Vaṇij and Vṛṣṭi.

Assignment of names

The four fixed names are assigned as follows:

Kṛṣṇa pakṣa caturdasi second half :           Śakuni
Amāvāsya first half : Catuṣpāda
Amāvāsya second half : Nāga
Śukla pakṣa pratipad first half : Kimstughna

The fifty-six half tithi-s starting from Śukla pakṣa pratipad second half to Kṛṣṇa pakṣa caturdasi first half are given the variable names Bava, Bālava, Kaulava, Taitila, Gara, Vaṇij and Vṛṣṭi in a cyclical order. These names are repeated in the same order eight times so that the same name is assigned to eight different half tithi-s.

The fixed and variable names are assigned as in the following table.

Names of karaṇa-s
Pakṣa Tithi Half Name               Pakṣa Tithi Half Name
Śukla Pratipad First Kimstughna Kṛṣṇa ... ... ...
,, ,, Second Bava ,, Ekādasi First Bava
,, Dvitīya First Bālava ,, ,, Second Bālava
,, ,, Second Kaulava ,, Dvādaśī First Kaulava
,, Tṛtīya First Taitila ,, ,, Second Taitila
,, ,, Second Gara ,, Trayodaśī First Gara
,, Caturthi First Vaṇij ,, ,, Second Vaṇij
,, ,, Second Vṛṣṭi ,, Caturdaśī First Vṛṣṭi
,, Pañcami First Bava ,, ,, Second Śakuni
,, ,, Second Bālava ,, Amāvāsya First Catuṣpāda
,, ... ... ... ,, ,, Second Nāga

Algorithm to determine the karaṇa

The name of the karaṇa at a particular moment on any given day can be determined by the following algorithm.[2]

  1. Let the longitudes of the Sun and the Moon be S and M respectively at a particular moment on a given day.
  2. If M >= S, then D = M - S.
  3. If M < S, then D = (M - S) + 360°.
  4. Divide D by 6°. Let K be the quotient (an integer).
  5. If K = 57, 58, 59, or 0 then the karaṇa is Śakuni, Catuṣpāda, Nāga, or Kimstughna in that order.
  6. Otherwise, if K > 7, subtract the nearest multiple of 7 from K and let K be the resulting number.
  7. Then the karaṇa at the particular moment is the K-th karaṇa in the list of seven variable karaṇa-s, namely, Bava, Bālava, Kaulava, Taitila, Gara, Vaṇij and Vṛṣṭi.

Karaṇa names in Malayalam

In the Malayalam astronomical literature, the eleven karaṇas are assigned names which are words for various animals. The English equivalents of the animal words representing the various karaṇas are given below.[3]

Karaṇa name Malayalam name Meaning of Malayalam
name in English
Śakuni        പുള്ള്        Shikra
Catuṣpāda നാൽക്കാലി Quadruped
Nāga പാമ്പ് Snake
Kimstughna പുഴു Worm
Bava സിംഹം Lion
Bālava പുലി Tiger
Kaulava പന്നി Pig
Taitila കഴുത Donkey
Gara ആന Elephant
Vaṇij പശു Cow
Vṛṣṭi പട്ടി Dog

Origin and history of the concept of karaṇa

Most probably the concept of karaṇa arose almost simultaneously with the concept of tithi. Tithi-s are related to lunar-days and lunar-days are similar in concept to solar days or sāvana days. A sāvana day is the duration of time from one sunrise to the next sunrise. Roughly one half of a sāvana day is the duration of time from sunrise to the next sunset and the other half is the duration of time from sunset to the next sunrise. Before the introduction of the modern concept of tithi, the concept of a lunar day was in vogue. It was the duration of time from one moon-rise to the next moon-rise. Similar to the division of a sāvana day, the lunar-day can also be divided into two halves: One half being the duration of time from moon-rise to the next moon-set (the lunar day time) and the other half being the duration of time from moon-set to the next moon-rise (lunar night time). The concept of karaṇa has originated in this division of the lunar day. Later, when the concept of tithi got established, the concepts of the lunar day time and lunar night time got replaced by the modern artificial concept of half-tithi-s. The works of the Vedāṅga period - Atharva Jyotiṣa and Ṛk-pariśiṣṭa mention the karaṇa-s. So the origination of the oncept of karaṇa-s can be traced to as early as the period of Vedāṅga Jyotiṣa, that is, around 500 BCE.[4][5]

See also

References

  1. Robert Sewell and Sankara Balakrishna Dikshit (1896). The Indian Calendar. London: Swan Sonnenschein & Co.. https://archive.org/details/indiancalendarwithtablesofconversionrobertsewellsankarabalkrishnadikshit_587_x/page/n17/mode/2up?view=theater. Retrieved 2 January 2024. 
  2. 2.0 2.1 S. Balachandra Rao (2000). Indian Astronomy: An Introduction. Hyderabad: Universities Press. p. 69. https://archive.org/details/indianastronomyanintroductionbalachandraraos._425_y/page/69/mode/2up?view=theater. Retrieved 2 January 2024. 
  3. K. Pappootty (June 2006). ജ്യോതിഷവും ജ്യോതിശ്ശാസ്ത്രവും (Astronomy and astrology). Thrissur, Kerala: Kerala Sastra Sahithya Parishad. p. 78. https://ml.wikisource.org/wiki/%E0%B4%9C%E0%B5%8D%E0%B4%AF%E0%B5%8B%E0%B4%A4%E0%B4%BF%E0%B4%B7%E0%B4%B5%E0%B5%81%E0%B4%82_%E0%B4%9C%E0%B5%8D%E0%B4%AF%E0%B5%8B%E0%B4%A4%E0%B4%BF%E0%B4%B6%E0%B5%8D%E0%B4%B6%E0%B4%BE%E0%B4%B8%E0%B5%8D%E0%B4%A4%E0%B5%8D%E0%B4%B0%E0%B4%B5%E0%B5%81%E0%B4%82/%E0%B4%85%E0%B4%A7%E0%B5%8D%E0%B4%AF%E0%B4%BE%E0%B4%AF%E0%B4%82_2. Retrieved 3 January 2024.  (in Malayalam)
  4. Sankar Balakrishna Dikshit (1981). English translation of "Bharatiya Jyotish Shastra" (History of Indian Astronomy) Part II. Kolkota: India Metereological Department, Govt of India. p. 277 - 279. https://archive.org/details/BharatiyaJyotishSastra2/page/276/mode/2up?view=theater. Retrieved 3 January 2024.  (Translated by R. V. Vaidya from Marathi originally published in 1896.)
  5. Shakti Dhara Sharma (1998). "Development of Pancanga from vedic times upto the present". Bulletin of the Astronomical Society of India 26: 75–90. https://articles.adsabs.harvard.edu//full/1998BASI...26...75S/0000075.000.html. Retrieved 1 January 2024.