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Precession of Equinoxes and
Research Associate Distinguished Professor
CAHC, IKS Centre of MoE
5-Nov-2022, BIHS Mumbai
ज्योति:शास्त्रम् (Astral Science)
Starts with observations of - sun, moon and the planets- in the background of stars
Progresses - from broad observations to finer observations of positions and movements
Further progresses towards a computational model
वृद्धगार्गीयज्योतिषम् (VGJ)
Big text ~5000 verses and some prose, 24 aṅga-s , 40 upaṅga-s
CAHC has published a critical edition of 7 chapters from the 1st and 2nd aṅga
Focus of this talk - two Sun Transit chapters of VGJ
1. आदित्यचारः 11th section
2. ऋतुस्वभावः 59th section, chapters 1-6
Sun's Annual Swing
An observer watching every sun rise through the year will see this swing
uttarāyaṇa start vernal equinox
dakṣiṇāyana
autumn equinox
sun's
270°
0°
90°
180°
In one year, the Sun makes
one uttarāyaṇa dakṣiṇāyana (north-to-south) swing
the extreme points are solstices , winter and summer respectively
equinox is the mid point of these swings - vernal and autumn equinoxes
Nakṣatra-s
Nakṣatra-s are zones/stars on the ecliptic belt in the sky through which Moon, Sun and planets travel. They contain one or constituent starsUsing clock analogy
Nakṣatra-s are the dial markings - 27(28)in all
The quicker hand is the Moon - one round a sidereal month
The slower hand is the Sun - one round a sidereal year .
Stars of some nakṣatra-s are unambiguously identified
कृत्तिका, रोहिणी, मघा, हस्ता, चित्रा,स्वाति, विशाखे, ज्येष्ठा, मूला
Others have some ambiguity
आर्द्रा, श्रविष्ठा/धनिष्ठा, रेवती
These sources help identify stars of nakṣatra-s
Gondalekhar(2013), Abhyankar(1991), Saha and Lahiri(1955), PT, VGJ, ...
Precession of the equinoxes
Precession has the following effects
The nakṣatra marking the seasons/equinoxes move by 1 nakṣatra every ~1000 years
The pole star has drifted from abhayadhruva (thuban) around 3000 BCE to around dhruva (polaris) now
It is caused by wobble of the earth's axis much like wobble of a spinning top.
In the clock analogy precession is rotation of the season dial
In direction opposite to Sun/Moon hand
And takes ~26000 years to complete a round
Is an important phenomena to date astronomical observations
In our approach we precess mutiple stars to date observations to minimize errors
Nakṣatra Listings
The table shows 83 constituent stars of the nakṣatra-s per VGJ
Vedic, Jaina & Baudha texts have astrograph and count information
Proxy stars for each nakṣatra , help model the ādi, ardha, anta ( begin, mid, end ) in the text
A few astrographs
आदित्यचारः (Sun's transit )
Verse
From
To
Ṛtu
Span
श्रविष्ठादीनि चत्वारि पौष्णार्धञ्च शैशिरे ॥ 47श्रविष्ठा begin
रेवती mid
शिशिर
270°-330°
रोहिण्यन्तानि पौष्णार्धाद्याच्च भानुमान् ।वासन्तौ कषायं वर्धयन् रसम्॥ 48रेवती mid
रोहिणी end
वसन्त
330°-30°
सार्पार्धान्तानि सौम्याद्यानि तु भानुमान् ।ग्रैष्मिकौ तपते मासौ कटुकं वर्धयन् रसम्॥ 52मृगशिरा begin
आश्लेषा mid
ग्रीष्म
30°-90°
सावित्रान्तानि सार्पार्धाद्यानि भास्करः ।वार्षिकौ तपते मासौ रसमम्लं विवर्धयन्॥ 53आश्लेषा mid
हस्ता end
वर्षा
90°-150°
चित्रादीन्यथ चत्वारि ज्येष्ठार्धञ्च शारदौ लवणाख्यं च तपत्याप्याययन् रसम्॥ 54चित्रा begin
ज्येष्ठा mid
शरद्
150°-210°
ज्येष्ठार्धादीनि चत्वारि वैष्णवान्तानि हेमन्ते तपते मासौ मधुरं वर्धयन् रसम् ॥ 55ज्येष्ठा mid
श्रवण end
हेमन्त
210°-270°
Similar information is found in the PT as prose
Maps each of 6 ṛtu to a span 4½ nakṣatra ( of 61 days)
PT book dates 6 bright stars( to 1350-1130 BCE , based on visibility in their stated seasons
An improved dating fits below for their stated seasons
9 circled seasonals( 27 proxy stars 83 constituent stars This yields 50 years around 1250 BCE - a finer window
आदित्यचारः - date estimation
From the text
nakṣatra-s are equally spaced at 13.33° - given seasons are of equal of 4½ nakṣatra-s शिशिर start is sun with श्रविष्ठादि taken as 270°
Given the nakṣatra-s sequence and above, span of each nakṣatra is obtained
The best fit method finds the epoch where most stars of nakṣatra-s are in their prescribed span
Get longitude of 83 stars from -2500 to 500 in 50 year epoch steps
For each epoch compute this error metric
The epoch with lowest error metric is the best fit
न न त न त न न त न त न त न त न
In closing
2 Ayana/6 Ṛtu based sun transit conceptualized earlier - ~ 1700 BCEVGJ/आदित्यचारः observations date to ~1250 BCE with 4½ nakṣatra-s span per seasonVGJ/ऋतुस्वभावः observations date to ~500 BCE with 12 solar months VGJ is layered and contains information across generations of observations and inferencesSolar zodiac is certainly part of original Indian knowledge - that has been recorded and evolved over time
From Observations to Computations
Vedic
अथर्ववेद परिशिष्ट
Atharvaveda-pariśiṣṭa (AVP)
Vedāṅga
पराशरतन्त्रम्
Parāśara Tantram(PT)
व्रद्धगार्गीय ज्योतिषम् Vṛddhagārgīyā Jyotiṣam (VGJ)
लागधीय वेदाङ्गज्योतिषम्
Lagadhiyā Vedāṅga Jyotiṣam (LVJ)
Jain
सूर्य चन्द्र प्रज्ञप्ति
Sūrya-candra-prajñapti (SCP)
Baudha
शार्दूलकर्णावदान
Śardūlakarṇāvadāna (SKA)
Siddhānta
आर्यभटीयम्
Āyrabhaṭīyam(AB)
Transition from 28 to 27 nakṣatra-s (अभिजित् , श्रवण, धनिष्ठा/श्रविष्ठा)
Winter solstice drift can be seen
श्रविष्ठार्धा in Maitrayani Aranyaka Upanishad to
श्रविष्ठादि in PT/VGJ
At some point in the transition period
धनिष्ठा is named the winter solstice nakṣatra
अभिजित् is eliminated to pack 6 ṛtu of 4½ nakṣatra-s
27 nakṣatra-s equal regime takes hold for the sun
28 nakṣatra-s unequal regime stays for the moon
Validating the transition period with
श्रविष्ठा as β Aqr, श्रवण as β Del(श्रवण/धनिष्ठा post transition) per Abhyankar
the 9 seasonal nakṣatra-s remain in bound from 1700-1350bce
The 6 solar ṛtu system
started ~1700 BCE with day counts and per ṛtu
stabilized ~1300 BCE with 4½ nakṣatra-s per ṛtu
KYV Samhita
4.4.10 अनुवाक 10 नक्षत्रेष्टकाः कृत्तिका नक्षत्रमग्निर्देवताऽग्ने रुचः स्थ प्रजापतेर्धातुः सोमस्यर्चे त्वा रुचे त्वा द्युते त्वा भासे त्वा ज्योतिषे त्वा
अर्यमा देवता फल्गुनी नक्षत्रम् भगो देवता हस्तो नक्षत्रं सविता देवता चित्रा नक्षत्रमिन्द्रो देवता स्वाती नक्षत्रं वायुर्देवता विशाखे नक्षत्रमिन्द्राग्नी देवता अनूराधा नक्षत्रम् मित्रो देवता रोहिणी नक्षत्रमिन्द्रो देवता विचृतौ नक्षत्रम् पितरो देवताऽषाढा नक्षत्रमापो देवताऽषाढा नक्षत्रं विश्वे देवा देवता श्रोणा नक्षत्त्रं विष्णुर्देवता श्रविष्ठा नक्षत्रं वसवो
देवता शतभिषङ् नक्षत्रमिन्द्रो देवता प्रोष्ठपदा नक्षत्रमज एकपाद् देवता प्रोष्ठपदा नक्षत्रमहिर् बुध्नियो देवता रेवती नक्षत्रम् पूषा देवताऽश्वयुजौ नक्षत्रमश्विनौ देवताऽपभरणीर्नक्षत्रं यमो देवता
4.4.11 अनुवाक 11 ऋतव्या इष्टकाः मधुश्च माधवश्च वासन्तिकाव् ऋतू
References
Abhyankar, K. D. (1991). Misidentification of some Indian nakṣatras. Indian Journal of History of Science, 26(1), 1–10.https://insa.nic.in/writereaddata/UpLoadedFiles/IJHS/Vol26_1_1_KDAbhyankar.pdf
Iyengar, R. N., & Chakravarty, S. (2022). Transit of sun through the seasonal nakṣatra cycle in the Vṛddha-Gārgīya Jyotiṣa. Indian Journal of History of Science.https://doi.org/10.1007/s43539-021-00018-w
Iyengar, R. N. (2014). Parāśara’s six season solar zodiac and heliacal visibility of star Agastya in 1350–1130 BCE. Indian Journal of History of Science, 49(3), 223–238.https://www.academia.edu/9331134/Parāśara_s_Six_Season_Solar_Zodiac_and_Heliacal_Visibility_of_Star_Agastya_in_1350_1130_BCE
Saha, M. N., & Lahiri. (1955). Report of the calendar reform committee. Council for Scientific and Industrial Research.
Possible period of the design of Nakstras - Sudha Bhujle and M N Vahiahttps://www.tifr.res.in/~vahia/period-of-nakshatras.pdf-
This Presentationhttps://cahc.jainuniversity.ac.in/assets/talks/bihs/sun-transit/sun-transit.html
Diff of Nakṣatra-s list
- This is a 11 slide deck,
- Based on a paper published last year
- Cover Sun's transit info in VGJ
- Context info on Ayana, Equinox, Precession, Nakshatra's
- Will walk through dating techniques
- Trace Evolution of Indian solar zodiac
- VGJ contains observations and portends
- Observations are the focus of this talk
- Mention pre-sidd PT/VGJ/LVJ/Vedic .
- Siddhantic - Aryabhatiyam, , Bhaskaracharya, Madhava, etc
- While Uttarayana is the start, the zero is at the equinox
- This is for computation ease as longitutes are available wrt equinox
- In this pic moon is with Rohini :)
- Tropical year is uttyna to uttyna 365.25 days
- Sidereal year/month is Naks to Naks ( 20min shorter than 365.25 )/27.3
- Synodic month is amavasya to amavasya 29.5
- Naks sequence has remained stable for a long duration
- Starting with कृत्तिका 4.4.10 of KYV, Ashwini is the current memorized sequence
- Abhijit continues to be SCP , while VGJ/PT text have dropped
- Eqnx defn is sun at the junction of ecliptic and equator
- Sun rise is most due east
- Precession causes equinox to drift by 1 day every 72 days - Uttarayana drift is an example
- Try color Invert Top RtMan|Invert Colors
- Precession is the reason why the *nakṣatra* marking the seasons/equinoxes move by 1 *nakṣatra* every ~1000 years
- It is caused by wobble of the earth's axis much like wobble of a spinning top.
- Precession is rotation of the *nakṣatra* dial
- In direction opposite to Sun/Moon hand
- And takes ~26000 years to complete a round
- Lists by Lahiri, Abhyankar, RNI ( largely overlap)
- Nakshatra spans are equal 13.33 deg
- 27 nakshatras are 360 deg
- Proxy stars/83 stars are unqually spaced
- Unequal treatment needs more work - for moon motion
- talk about 9 seasonal , 6 bright PT, 26 proxy and 83 constituent stars
- Ensure PT prose is mentioned
- Improved dating because it uses multiple actual stars, factoring aadi, ardha, anta and not 1 star and with the assumptions that others are well defined on that basis
- With a single star - choice of an alternate star 6 degrees away is a 500 year error margin
- Error measures how far Naks is from its prescribed span.
- The span is derived from Shravistadi at 270 and the naks sequence
- Stellarium scripts to scrape longitudes
- Python to crunch and plot
- The smooth lines are for better visualization ; possible connection to moons wavy path
- The Chaitradi month names are used for solar months - like tamil months now
- The months names closely map with sun's naks of the opposite season
- We can surmise that the month name is derived from full moon naks
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Fitting Stars to Nakshatras
