Turaganga: Difference between revisions
(Created page with "... is an Indian name, used by the Indian Vedic tradition. Most of these names are roughly 3000 years old. They pre-date Hinduism but were taken over by it. ==Concordance, Etymology, History== What does the term mean, does it always have the same meaning - was it changed over time. ===Origin of Constellation=== ===Transfer and Transformation of the Constellation=== ==Religion/ Tales/ Mythology== mnemonic tales and cultural significance ==Weblinks== *{{NAMESPACE}} ==Refer...") Tags: Visual edit Disambiguation links |
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... is an Indian name, used by the Indian Vedic tradition. Most of these names are roughly 3000 years old. They pre-date Hinduism but were taken over by it. |
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[[File:IdentTuraganga.png|thumb|map for the identification of Turaganga (CC BY B.S. Shylaja).]] |
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Turagānga (तुरगान्ग) is an Indian name that occurs in a 17th century star catalog. Most likely, it refers to a body part of the ancient Greek constellation of [[Pegasus]] and [[Pisces]]. |
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==Concordance, Etymology, History== |
==Concordance, Etymology, History== |
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Turgānga means a body part (anga, अन्ग) of the horse (turaga, तुरग). |
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What does the term mean, does it always have the same meaning - was it changed over time. |
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===Spelling Variants=== |
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* Turagānga |
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* Turangaamsa |
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===Origin of Constellation=== |
===Origin of Constellation=== |
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The name is listed in a 17th century star catalogue by Nityānanda in the work ''Siddhāntarāja'' (1639 CE).<ref>Pai and Shylaja, 2021, JOAA, vol 42, 113</ref> |
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The verse provides the coordinates with numbers coded as ''sārdhadvaya'' (two and a half) and ''gobhūmi'' (19) <blockquote>Half of a degree added to two degrees 2|30 [is one of the coordinates of] the star Turagānga |
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which shines with second order brightness along the north [latitude] as nineteen degrees 19|0.</blockquote>It is mentioned in the twelfth Rāśi (राशिः), Mina (Pisces). |
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Since the Greek period in the fourth century CE, Indian astral science used not only the older (Vedic) division of the observable "path of the moon" into 27 nakṣatras, but adopted also the Graeco-Roman division into twelve equal sections called Rāśi (राशिः), equaling the traditional zodiacal signs. A rāśi (राशिः) or zodiacal sign is a section of 30° alongside the ecliptic. Since (Greek) antiquity, ecliptic longitudes are typically not counted from one to 359, but are given as "zodiacal sign ''xy''" or "rāśi ''xy''", where 0 ≤ ''xy'' ≤ 30. |
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Therefore, the statement "Mina 2|30" equalling 2.5° of the twelfth Rāśi, means we need to add 11x30=330 and 2.5° to obtain the ecliptic longitude ''λ''=332.5° or ''dhruvaka''=332|30. This is not corrected for precession. |
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For the ''vikṣepa'' (polar latitude measured along the hour circle) is 19|0 N. |
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[[File:TetPsc+alfPeg stellarium.jpg|thumb|Stellarium map of the region in question with tet Psc in the centre and naksatra and rasi displayed (SMH 2025).]] |
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If 19.0 is the ecliptic latitude, the star α Peg would have the correct latitude and the longitude of 332.5° would point to a date of measurement in 488/ 489 CE (1200 years prior to Nityānanda' star catalogue). If 19.0 is measured along the hour circle, only ζ Peg would have the correct latitude, but the longitude of 341° in 1639 CE would point to a date of the measurement of 1019 CE. |
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{| class="wikitable" |
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|+ |
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! |
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! colspan="3" |in 1639 |
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! |
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! |
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|- |
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! rowspan="2" |name |
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!ecliptic longitude λ |
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!ecliptic latitude β |
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!β (RA) |
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! rowspan="2" |source |
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! rowspan="2" |Indian Name |
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!''dhruvaka'' |
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! |
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!''viksepa'' |
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|- |
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|Turaganga |
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|332.5° |
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|19° |
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|Nityānanda |
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|α Peg |
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|348.5 |
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|19.5 |
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|21° 15' |
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|Stellarium (1639) |
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|Ajapāda |
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|- |
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|θ Psc |
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|350.2 |
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|9° |
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|9° 45' |
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|Stellarium (1639) |
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|- |
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|ζ Peg |
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|341° |
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|17.75° |
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|19° |
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|Stellarium (1639) |
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|- |
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|γ Peg |
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|4.1° |
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|13° 40' |
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|Ahirbudhnya |
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|ι Psc |
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|352.6° |
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|7° 50' |
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Shylaja proposes the identification of "Turangana" with θ Psc or ι Psc. She checked another manuscript with solved examples. It gives the precession correction as 18 degrees for 1620 CE. So without bothering about the errors in ''dhruvaka'' and ''viksepa'', if she simply adds the precession correction it fits with theta Piscium. |
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However, the text seems to be erroneous, as it gives the difference in coordinates (which does not depend on precession) with errors of 6° to 10°. This lets us doubt the reliability of this text. |
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===Transfer and Transformation of the Constellation=== |
===Transfer and Transformation of the Constellation=== |
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==Religion/ Tales/ Mythology== |
==Religion/ Tales/ Mythology== |
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mnemonic tales and cultural significance |
mnemonic tales and cultural significance |
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==Weblinks== |
==Weblinks== |
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* |
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*{{NAMESPACE}} |
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==References== |
==References== |
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*[[References]] (general) |
*[[References]] (general) |
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[[Category:Indian]] [[Category:Asterism]] [[Category:Constellation]][[Category:Eurasia]][[Category:South Asian]] |
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Latest revision as of 16:17, 10 November 2025
Turagānga (तुरगान्ग) is an Indian name that occurs in a 17th century star catalog. Most likely, it refers to a body part of the ancient Greek constellation of Pegasus and Pisces.
Concordance, Etymology, History
Turgānga means a body part (anga, अन्ग) of the horse (turaga, तुरग).
Spelling Variants
- Turagānga
- Turangaamsa
Origin of Constellation
The name is listed in a 17th century star catalogue by Nityānanda in the work Siddhāntarāja (1639 CE).[1]
The verse provides the coordinates with numbers coded as sārdhadvaya (two and a half) and gobhūmi (19)
Half of a degree added to two degrees 2|30 [is one of the coordinates of] the star Turagānga which shines with second order brightness along the north [latitude] as nineteen degrees 19|0.
It is mentioned in the twelfth Rāśi (राशिः), Mina (Pisces).
Since the Greek period in the fourth century CE, Indian astral science used not only the older (Vedic) division of the observable "path of the moon" into 27 nakṣatras, but adopted also the Graeco-Roman division into twelve equal sections called Rāśi (राशिः), equaling the traditional zodiacal signs. A rāśi (राशिः) or zodiacal sign is a section of 30° alongside the ecliptic. Since (Greek) antiquity, ecliptic longitudes are typically not counted from one to 359, but are given as "zodiacal sign xy" or "rāśi xy", where 0 ≤ xy ≤ 30.
Therefore, the statement "Mina 2|30" equalling 2.5° of the twelfth Rāśi, means we need to add 11x30=330 and 2.5° to obtain the ecliptic longitude λ=332.5° or dhruvaka=332|30. This is not corrected for precession.
For the vikṣepa (polar latitude measured along the hour circle) is 19|0 N.
If 19.0 is the ecliptic latitude, the star α Peg would have the correct latitude and the longitude of 332.5° would point to a date of measurement in 488/ 489 CE (1200 years prior to Nityānanda' star catalogue). If 19.0 is measured along the hour circle, only ζ Peg would have the correct latitude, but the longitude of 341° in 1639 CE would point to a date of the measurement of 1019 CE.
| in 1639 | |||||
|---|---|---|---|---|---|
| name | ecliptic longitude λ | ecliptic latitude β | β (RA) | source | Indian Name |
| dhruvaka | viksepa | ||||
| Turaganga | 332.5° | 19° | Nityānanda | ||
| α Peg | 348.5 | 19.5 | 21° 15' | Stellarium (1639) | Ajapāda |
| θ Psc | 350.2 | 9° | 9° 45' | Stellarium (1639) | |
| ζ Peg | 341° | 17.75° | 19° | Stellarium (1639) | |
| γ Peg | 4.1° | 13° 40' | Ahirbudhnya | ||
| ι Psc | 352.6° | 7° 50' | |||
Shylaja proposes the identification of "Turangana" with θ Psc or ι Psc. She checked another manuscript with solved examples. It gives the precession correction as 18 degrees for 1620 CE. So without bothering about the errors in dhruvaka and viksepa, if she simply adds the precession correction it fits with theta Piscium.
However, the text seems to be erroneous, as it gives the difference in coordinates (which does not depend on precession) with errors of 6° to 10°. This lets us doubt the reliability of this text.
Transfer and Transformation of the Constellation
Religion/ Tales/ Mythology
mnemonic tales and cultural significance
Weblinks
References
- References (general)
- ↑ Pai and Shylaja, 2021, JOAA, vol 42, 113
