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Surya Siddhanta

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Nakshatra ( Sanskrit : नक्षत्रम् , romanized :  Nakṣatram ) is the term for Lunar mansion in Hindu astrology and Buddhist astrology. A nakshatra is one of 27 (sometimes also 28) sectors along the ecliptic. Their names are related to a prominent star or asterisms in or near the respective sectors. In essence (in Western astronomical terms), a nakshatra simply is a constellation . Every nakshatra is divided into four padas ( lit. "steps") related to the Char Dham , a set of four pilgrimage sites in India.

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62-479: The Surya Siddhanta ( IAST : Sūrya Siddhānta ; lit.   ' Sun Treatise ' ) is a Sanskrit treatise in Indian astronomy dated to 4th to 5th century, in fourteen chapters. The Surya Siddhanta describes rules to calculate the motions of various planets and the moon relative to various constellations , diameters of various planets, and calculates the orbits of various astronomical bodies . The text

124-571: A Telugu language commentary on the text before composing the Sanskrit-language Surya-siddhanta-tika in 1178. Kalpakurti Allanarya-suri wrote another Telugu language commentary on the text, known from a manuscript copied in 1869. ( Archive ) IAST The International Alphabet of Sanskrit Transliteration ( IAST ) is a transliteration scheme that allows the lossless romanisation of Indic scripts as employed by Sanskrit and related Indic languages. It

186-433: A font, etc. It can be enabled in the input menu in the menu bar under System Preferences → International → Input Menu (or System Preferences → Language and Text → Input Sources) or can be viewed under Edit → Emoji & Symbols in many programs. Equivalent tools – such as gucharmap ( GNOME ) or kcharselect ( KDE ) – exist on most Linux desktop environments. Users of SCIM on Linux based platforms can also have

248-551: A list of 27 stars or asterisms is given, many of them corresponding to the later nakshatras: This 27-day cycle has been taken to mean a particular group of stars. This has to do with the periodicity with which the Moon travels past the specific star fields called nakshatras. Hence, the stars are more like numbers on a clock, through which the hands of time (the moon) pass. This concept is described by J. Mercay (2012) in connection with Surya Siddhanta . In Hindu astronomy, there

310-707: A modifier key to type letters with diacritical marks. For example, alt + a = ā. How this is set up varies by operating system. Linux/Unix and BSD desktop environments allow one to set up custom keyboard layouts and switch them by clicking a flag icon in the menu bar. macOS One can use the pre-installed US International keyboard, or install Toshiya Unebe's Easy Unicode keyboard layout. Microsoft Windows Windows also allows one to change keyboard layouts and set up additional custom keyboard mappings for IAST. This Pali keyboard installer made by Microsoft Keyboard Layout Creator (MSKLC) supports IAST (works on Microsoft Windows up to at least version 10, can use Alt button on

372-480: A rhyming meter in the form of a terse shloka . This method of expressing and sharing knowledge made it easier to remember, recall, transmit and preserve knowledge. However, this method also meant secondary rules of interpretation, because numbers don't have rhyming synonyms. The creative approach adopted in the Surya Siddhanta was to use symbolic language with double meanings. For example, instead of one,

434-448: A stationary globe around which sun, moon and five planets orbit. It makes no mention of Uranus, Neptune and Pluto. It presents mathematical formulae to calculate the orbits, diameters, predict their future locations and cautions that the minor corrections are necessary over time to the formulae for the various astronomical bodies. The text describes some of its formulae with the use of very large numbers for " divya-yuga ", stating that at

496-565: A time when the Vedic month was recognised as having exactly 30 days. In India and China the original 28 lunar mansions were not equal. Weixing Nui provides a list of the extent of the original 28 Nakshatras expressed in Muhurtas (with one Muhurta = 48 minutes of arc). Hindu texts note there were 16 Nakshatras of 30 Muhurtas, 6 of 45 Muhurtas, 5 of 15 Muhurtas and one of 6 Muhurtas. The 28 mansions of

558-513: A year equal 365 in both Indian (Hindu) and Egyptian–Persian year. Further, adds Ôhashi, the Mesopotamian formula is different than Indian formula for calculating time, each can only work for their respective latitude, and either would make major errors in predicting time and calendar in the other region. Kim Plofker states that while a flow of timekeeping ideas from either side is plausible, each may have instead developed independently, because

620-419: Is a compendium of astronomy that is easier to remember, transmit and use as reference or aid for the experienced, but does not aim to offer commentary, explanation or proof. The text has 14 chapters and 500 shlokas. It is one of the eighteen astronomical siddhanta (treatises), but thirteen of the eighteen are believed to be lost to history. The Surya Siddhanta text has survived since the ancient times, has been

682-435: Is actually glottal , not velar . Some letters are modified with diacritics : Long vowels are marked with an overline (often called a macron ). Vocalic (syllabic) consonants, retroflexes and ṣ ( / ʂ ~ ɕ ~ʃ/ ) have an underdot . One letter has an overdot: ṅ ( /ŋ/ ). One has an acute accent : ś ( /ʃ/ ). One letter has a line below: ḻ ( / ɭ / ) (Vedic). Unlike ASCII -only romanisations such as ITRANS or Harvard-Kyoto ,

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744-684: Is based on a scheme that emerged during the 19th century from suggestions by Charles Trevelyan , William Jones , Monier Monier-Williams and other scholars, and formalised by the Transliteration Committee of the Geneva Oriental Congress , in September 1894. IAST makes it possible for the reader to read the Indic text unambiguously, exactly as if it were in the original Indic script. It is this faithfulness to

806-501: Is found in Puranas where as Surya Siddhanta sticks with measurable time. The text measures a savana day from sunrise to sunrise. Thirty of these savana days make a savana month. A solar ( saura ) month starts with the entrance of the sun into a zodiac sign , thus twelve months make a year. The text further states there are nine modes of measuring time. "Of four modes, namely solar, lunar, sidereal, and civil time, practical use

868-454: Is known for some of the earliest known discussions of fractions and trigonometric functions . The Surya Siddhanta is one of several astronomy-related Hindu texts. It represents a functional system that made reasonably accurate predictions. The text was influential on the solar year computations of the luni-solar Hindu calendar . The text was translated into Arabic and was influential in medieval Islamic geography . The Surya Siddhanta has

930-410: Is known from a 15th-century CE palm-leaf manuscript , and several newer manuscripts . It was composed or revised probably c. 800 CE from an earlier text also called the Surya Siddhanta . The Surya Siddhanta text is composed of verses made up of two lines, each broken into two halves, or pãds , of eight syllables each. As per al-Biruni , the 11th-century Persian scholar and polymath, a text named

992-427: Is made among men; by that of Jupiter is to be determined the year of the cycle of sixty years; of the rest, no use is ever made". Surya Siddhanta asserts that there are two pole stars, one each at north and south celestial pole . Surya Siddhanta chapter 12 verse 43 description is as following: मेरोरुभयतो मध्ये ध्रुवतारे नभ:स्थिते। निरक्षदेशसंस्थानामुभये क्षितिजाश्रिये॥१२:४३॥ This translates as "On both sides of

1054-545: Is the inclination of the plane of the ecliptic. With radius of 3438 and sine of 1397, the corresponding angle is 23.975° or 23° 58' 30.65" which is approximated to be 24°. Question: How Can the Earth Be a Sphere? Thus everywhere on the terrestrial globe (bhūgola), people suppose their own place higher, yet this globe (gola) is in space where there is no above nor below. — Surya Siddhanta, XII.53 Translator: Scott L. Montgomery, Alok Kumar The text treats earth as

1116-414: Is the value by which each successive sine increases from the previous and similarly the 2nd order difference is the increment in the 1st order difference values. Burgess says, it is remarkable to see that the 2nd order differences increase as the sines and each, in fact, is about 1/225th part of the corresponding sine. The tilt of the ecliptic varies between 22.1° to 24.5° and is currently 23.5°. Following

1178-423: Is time which can be known. This latter type is further defined as having two types: the first is Murta (Measureable) and Amurta (immeasureable because it is too small or too big). The time Amurta is a time that begins with an infinitesimal portion of time ( Truti ) and Murta is a time that begins with 4-second time pulses called Prana as described in the table below. The further description of Amurta time

1240-711: The Hellenistic period . For example, Surya Siddhanta provides table of sines function which parallel the Hipparchian table of chords , though the Indian calculations are more accurate and detailed. The influence of Greek ideas on early medieval era Indian astronomical theories, particularly zodiac symbols ( astrology ), is broadly accepted by the Western scholars. According to Pingree, the 2nd-century CE cave inscriptions of Nasik mention sun, moon and five planets in

1302-763: The ISO 15919 standard for transliterating Indic scripts emerged in 2001 from the standards and library worlds. For the most part, ISO 15919 follows the IAST scheme, departing from it only in minor ways (e.g., ṃ/ṁ and ṛ/r̥)—see comparison below. The Indian National Library at Kolkata romanization , intended for the romanisation of all Indic scripts , is an extension of IAST. The IAST letters are listed with their Devanagari equivalents and phonetic values in IPA , valid for Sanskrit , Hindi and other modern languages that use Devanagari script, but some phonological changes have occurred: * H

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1364-467: The Surya Siddhanta being a living text is the work of medieval Indian scholar Utpala , who cites and then quotes ten verses from a version of Surya Siddhanta , but these ten verses are not found in any surviving manuscripts of the text. According to Kim Plofker , large portions of the more ancient Sūrya-siddhānta was incorporated into the Panca siddhantika text, and a new version of the Surya Siddhanta

1426-432: The Surya Siddhanta was written by Lāṭadeva , a student of Aryabhatta I . The second verse of the first chapter of the Surya Siddhanta attributes the words to an emissary of the solar deity of Hindu mythology , Surya , as recounted to an asura called Maya at the end of Satya Yuga , the first golden age from Hindu texts, around two million years ago. The text asserts, according to Markanday and Srivatsava, that

1488-553: The Surya Siddhanta . The various old and new versions of Surya Siddhanta manuscripts yield the same solar calendar. According to J. Gordon Melton, both the Hindu and Buddhist calendars that are in use in South and Southeast Asia are rooted in this text, but the regional calendars adapted and modified them over time. The Surya Siddhanta calculates the solar year to be 365 days 6 hours 12 minutes and 36.56 seconds. On average, according to

1550-530: The Surya Siddhanta, developed other linear measures of angles, made their calculations differently, "introduced the versine, which is the difference between the radius and cosine, and discovered various trigonometrical identities". For instance "where the Greeks had adopted 60 relative units for the radius, and 360 for circumference", the Indians chose 3,438 units and 60x360 for the circumference thereby calculating

1612-509: The "ratio of circumference to diameter [pi, π] of about 3.1414". The Surya Siddhanta was one of the two books in Sanskrit that were translated into Arabic in the later half of the eighth century during the reign of Abbasid caliph Al-Mansur . The tradition of Hellenistic astronomy ended in the West after Late Antiquity . According to Cromer, the Surya Siddhanta and other Indian texts reflect

1674-428: The 360° lunar zodiac total 831 Muhurtas or 27.7 days. This is sometimes described as an inaccurate estimate of our modern sidereal period of 27.3 days, but using the ancient Indian calendar with Vedic months of 30 days and a daily movement of the Moon of 13 degrees, this early designation of a sidereal month of 831 Muhurtas or 27.7 days is very precise. Later some Indian savants dropped

1736-533: The Earth is of a spherical shape. It treats Earth as stationary globe around which Sun orbits, and makes no mention of Uranus, Neptune and Pluto. It calculates the Earth's diameter to be 8,000 miles (modern: 7,928 miles), the diameter of the Moon as 2,400 miles (actual ~2,160) and the distance between the Moon and the Earth to be 258,000 miles (now known to vary: 221,500–252,700 miles (356,500–406,700 kilometres). The text

1798-574: The Hindu text Atharvaveda (~1000 BCE or older) the idea already appears of twenty eight constellations and movement of astronomical bodies. According to Pingree, the influence may have flowed the other way initially, then flowed into India after the arrival of Darius and the Achaemenid conquest of the Indus Valley about 500 BCE. The mathematics and devices for time keeping mentioned in these ancient Sanskrit texts, proposes Pingree, such as

1860-656: The Indian thought is Romaka Siddhanta , a title of one of the Siddhanta texts contemporary to Surya Siddhanta , a name that betrays its origin and probably was derived from a translation of a European text by Indian scholars in Ujjain , then the capital of an influential central Indian large kingdom. According to mathematician and historian of measurement John Roche, the astronomical and mathematical methods developed by Greeks related arcs to chords of spherical trigonometry. The Indian mathematical astronomers, in their texts such as

1922-604: The Meru (i.e. the north and south poles of the earth) the two polar stars are situated in the heaven at their zenith. These two stars are in the horizon of the cities situated on the equinoctial regions". The Surya Siddhanta provides methods of calculating the sine values in chapter 2. It divides the quadrant of a circle with radius 3438 into 24 equal segments or sines as described in the table. In modern-day terms, each of these 24 segments has angle of 3.75°. differences differences differences differences The 1st order difference

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1984-542: The Nakshatra named Abhijit to reduce the number of divisions to 27, but the Chinese retained all of their original 28 lunar mansions. These were grouped into four equal quarters which would have been fundamentally disrupted if it had been decided to reduce the number of divisions to 27. Irrespective of the reason why ancient early Indian astronomers followed a Vedic calendar of exactly 12 months of 30 days it

2046-547: The area of Sanskrit studies make use of free OpenType fonts such as FreeSerif or Gentium , both of which have complete support for the full repertoire of conjoined diacritics in the IAST character set. Released under the GNU FreeFont or SIL Open Font License , respectively, such fonts may be freely shared and do not require the person reading or editing a document to purchase proprietary software to make use of its associated fonts. Nakshatra The starting point for

2108-513: The asterisms is attributed to Daksha . The Nakshatras are personified as daughters of Daksha and as wives of Chandra , the god of the Moon. When Chandra neglected his 26 other wives in favour of Rohini , his father-in-law cursed him with leprosy and proclaimed that the Moon would wax and wane each month. The Nakshatras are also alternatively described as the daughters of Kashyapa . In the Atharvaveda (Shaunakiya recension, hymn 19.7)

2170-455: The best known and the most referred astronomical text in the Indian tradition. The fourteen chapters of the Surya Siddhanta are as follows, per the much cited Burgess translation: The methods for computing time using the shadow cast by a gnomon are discussed in both Chapters 3 and 13. The author of Surya Siddhanta defines time as of two types: the first which is continuous and endless, destroys all animate and inanimate objects and second

2232-536: The consumer edition since XP. This is limited to characters in the Basic Multilingual Plane (BMP). Characters are searchable by Unicode character name, and the table can be limited to a particular code block. More advanced third-party tools of the same type are also available (a notable freeware example is BabelMap ). macOS provides a "character palette" with much the same functionality, along with searching by related characters, glyph tables in

2294-528: The diacritics used for IAST allow capitalisation of proper names. The capital variants of letters never occurring word-initially ( Ṇ Ṅ Ñ Ṝ Ḹ ) are useful only when writing in all-caps and in Pāṇini contexts for which the convention is to typeset the IT sounds as capital letters. For the most part, IAST is a subset of ISO 15919 that merges the retroflex (underdotted) liquids with the vocalic ones ( ringed below ) and

2356-407: The end of this yuga , Earth and all astronomical bodies return to the same starting point and the cycle of existence repeats again. These very large numbers based on divya-yuga , when divided and converted into decimal numbers for each planet, give reasonably accurate sidereal periods when compared to modern era western calculations. The solar part of the luni-solar Hindu calendar is based on

2418-711: The largest number of commentators among all the astronomical texts written in India. It includes information about the mean orbital parameters of the planets, such as the number of mean revolutions per Mahayuga , the longitudinal changes of the orbits, and also includes supporting evidence and calculation methods. In a work called the Pañca-siddhāntikā composed in the sixth century by Varāhamihira , five astronomical treatises are named and summarised: Paulīśa-siddhānta , Romaka-siddhānta , Vasiṣṭha-siddhānta , Sūrya-siddhānta , and Paitāmaha-siddhānta . Most scholars place

2480-585: The loan-words typically seen when ideas migrate are missing on both sides as far as words for various time intervals and techniques. It is hypothesized that contacts between the ancient Indian scholarly tradition and Hellenistic Greece via the Indo-Greek Kingdom after the Indian campaign of Alexander the Great , specifically regarding the work of Hipparchus (2nd-century BCE), explain some similarities between Surya Siddhanta and Greek astronomy in

2542-479: The modern constellation of Aries. These compilations, therefore may have been compiled during the centuries when the sun was passing through Aries at the time of the vernal equinox. This version may have been called Meshādi or the " start of Aries ". The first astronomical text that lists them is the Vedanga Jyotisha . In classical Hindu scriptures ( Mahabharata , Harivamsa ), the creation of

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2604-429: The moon's revolution is right within a second; those of Mercury, Venus and Mars within a few minutes; that of Jupiter within six or seven hours; that of Saturn within six days and a half". The Surya Siddhanta was one of the two books in Sanskrit translated into Arabic during the reign of 'Abbasid caliph al-Mansur ( r.  754–775 CE ). According to Muzaffar Iqbal , this translation and that of Aryabhata

2666-612: The nakshatras according to the Vedas is "Krittika" (it has been argued because the Pleiades may have started the year at the time the Vedas were compiled, presumably at the vernal equinox), but, in more recent compilations, the start of the nakshatras list is the point on the ecliptic directly opposite to the star Spica , called Chitrā in Sanskrit . This translates to Ashwinī, a part of

2728-749: The opportunity to install and use the sa-itrans-iast input handler which provides complete support for the ISO 15919 standard for the romanization of Indic languages as part of the m17n library. Or user can use some Unicode characters in Latin-1 Supplement, Latin Extended-A, Latin Extended Additional and Combining Diarcritical Marks block to write IAST. Only certain fonts support all the Latin Unicode characters essential for

2790-456: The original scripts that accounts for its continuing popularity amongst scholars. Scholars commonly use IAST in publications that cite textual material in Sanskrit, Pāḷi and other classical Indian languages. IAST is also used for major e-text repositories such as SARIT, Muktabodha, GRETIL, and sanskritdocuments.org. The IAST scheme represents more than a century of scholarly usage in books and journals on classical Indian studies. By contrast,

2852-586: The period 7300-7800 BCE based on a computer simulation. The Surya Siddhanta is a text on astronomy and time keeping, an idea that appears much earlier as the field of Jyotisha ( Vedanga ) of the Vedic period. The field of Jyotisha deals with ascertaining time, particularly forecasting auspicious dates and times for Vedic rituals. Vedic sacrifices state that the ancient Vedic texts describe four measures of time – savana , solar, lunar and sidereal, as well as twenty seven constellations using Taras (stars). According to mathematician and classicist David Pingree , in

2914-565: The primitive state of Greek science, nevertheless played an important part in the history of science , through its translation in Arabic and stimulating the Arabic sciences. According to a study by Dennis Duke that compares Greek models with Indian models based on the oldest Indian manuscripts such as the Surya Siddhanta with fully described models, the Greek influence on Indian astronomy is strongly likely to be pre- Ptolemaic . The Surya Siddhanta

2976-471: The right side of the keyboard instead of Ctrl+Alt combination). Many systems provide a way to select Unicode characters visually. ISO/IEC 14755 refers to this as a screen-selection entry method . Microsoft Windows has provided a Unicode version of the Character Map program (find it by hitting ⊞ Win + R then type charmap then hit ↵ Enter ) since version NT 4.0 – appearing in

3038-524: The same order as found in Babylon , but "there is no hint, however, that the Indian had learned a method of computing planetary positions in this period". In the 2nd-century CE, a scholar named Yavanesvara translated a Greek astrological text, and another unknown individual translated a second Greek text into Sanskrit. Thereafter started the diffusion of Greek and Babylonian ideas on astronomy and astrology into India. The other evidence of European influential on

3100-400: The short close-mid vowels with the long ones. The following seven exceptions are from the ISO standard accommodating an extended repertoire of symbols to allow transliteration of Devanāgarī and other Indic scripts , as used for languages other than Sanskrit. The most convenient method of inputting romanized Sanskrit is by setting up an alternative keyboard layout . This allows one to hold

3162-465: The sine tables and methods of calculating the sines, Surya Siddhanta also attempts to calculate the Earth's tilt of contemporary times as described in chapter 2 and verse 28, the obliquity of the Earth's axis , the verse says "The sine of greatest declination is 1397; by this multiply any sine, and divide by radius; the arc corresponding to the result is said to be the declination". The greatest declination

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3224-410: The surviving version of the text variously from the 4th-century to 5th-century CE, although it is dated to about the 6th-century BCE by Markandaya and Srivastava. According to John Bowman, the version of the text existed between 350 and 400 CE wherein it referenced fractions and trigonometric functions, but the text was a living document and revised through about the 10th-century. One of the evidence for

3286-445: The text uses a word that means moon because there is one moon. To the skilled reader, the word moon means the number one. The entire table of trigonometric functions, sine tables, steps to calculate complex orbits, predict eclipses and keep time are thus provided by the text in a poetic form. This cryptic approach offers greater flexibility for poetic construction. The Surya Siddhanta thus consists of cryptic rules in Sanskrit verse. It

3348-468: The text, the lunar month equals 27 days 7 hours 39 minutes 12.63 seconds. It states that the lunar month varies over time, and this needs to be factored in for accurate time keeping. According to Whitney, the Surya Siddhanta calculations were tolerably accurate and achieved predictive usefulness. In Chapter 1 of Surya Siddhanta , "the Hindu year is too long by nearly three minutes and a half; but

3410-487: The transliteration of Indic scripts according to the IAST and ISO 15919 standards. For example, the Arial , Tahoma and Times New Roman font packages that come with Microsoft Office 2007 and later versions also support precomposed Unicode characters like ī . Many other text fonts commonly used for book production may be lacking in support for one or more characters from this block. Accordingly, many academics working in

3472-404: The water clock may also have thereafter arrived in India from Mesopotamia. However, Yukio Ôhashi considers this proposal as incorrect, suggesting instead that the Vedic timekeeping efforts, for forecasting appropriate time for rituals, must have begun much earlier and the influence may have flowed from India to Mesopotamia. Ôhashi states that it is incorrect to assume that the number of civil days in

3534-482: Was an older tradition of 28 Nakshatras which were used as celestial markers in the heavens. When these were mapped into equal divisions of the ecliptic, a division of 27 portions was adopted since that resulted in a clearer definition of each portion (i.e. segment) subtending 13° 20′ (as opposed to 12°  51 + 3 ⁄ 7 ′ in the case of 28 segments). In the process, the Nakshatra Abhijit

3596-463: Was left out without a portion. However, the Abhijit nakshatra becomes important while deciding on the timing of an auspicious event. The Surya Siddhantha concisely specifies the coordinates of the twenty-seven Nakshatras. It is noted above that with the older tradition of 28 Nakshatras each equal segment would subtend 12.85 degrees or 12° 51′. But the 28 Nakshatra were chosen at

3658-424: Was likely revised and probably composed around 800 CE. Some scholars refer to Panca siddhantika as the old Surya Siddhanta and date it to 505 CE. Based on a study of the longitude variation data from the text, Indian scientist Anil Narayanan (2010) concludes that the text has been updated several times in the past, with the last update around 580 CE. Narayan obtained a match for the nakshatra latitudinal data in

3720-467: Was of considerable influence on geographic, astronomy and related Islamic scholarship. The historical popularity of Surya Siddhanta is attested by the existence of at least 26 commentaries, plus another 8 anonymous commentaries. Some of the Sanskrit-language commentaries include the following; nearly all the commentators have re-arranged and modified the text: Mallikarjuna Suri had written

3782-444: Was one of the two books in Sanskrit translated into Arabic in the later half of the eighth century during the reign of Abbasid caliph Al-Mansur . According to Muzaffar Iqbal, this translation and that of Aryabhatta was of considerable influence on geographic, astronomy and related Islamic scholarship. The contents of the Surya Siddhanta is written in classical Indian poetry tradition, where complex ideas are expressed lyrically with

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3844-417: Was this calendar and not a modern calendar of 365 days that they used for the astronomical calculations for the number of days taken for the Moon to complete one sidereal cycle of 360°. This is why initially they named 28 Nakshatras on their lunar zodiac. The following list of nakshatras gives the corresponding regions of sky, per Basham (1954). Each of the 27 Nakshatras cover 13° 20’ of

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