Hindu calendar
Hindu calendar is a collective term for the various lunisolar calendars traditionally used in India. They adopt a similar underlying concept for timekeeping, but differ in their relative emphasis to moon cycle or the sun cycle and the names of months and when they consider the New Year to start.[1] Of the various regional calendars, the most studied and known Hindu calendars are the Shalivahana Shaka found in South India, Vikram Samvat (Bikrami) found in North and Central regions of India, Tamil calendar used in Tamil Nadu, and the Bengali calendar used in the Bengal – all of which emphasize the lunar cycle. Their new year starts in spring, with their heritage dating back to 1st millennium BCE. In contrast, in regions such as Kerala, the solar cycle is emphasized and this is called the Malayalam calendar, their new year starts in autumn, and these have origins in the second half of the 1st millennium CE.[1][2] A Hindu calendar is sometimes referred to as Panchanga (पञ्चाङ्ग).[3]
The ancient Hindu calendar is similar in conceptual design to the Jewish calendar, but different from the Gregorian calendar.[4] Unlike Gregorian calendar which adds additional days to lunar month to adjust for the mismatch between twelve lunar cycles (354 lunar days)[5] and nearly 365 solar days, the Hindu calendar maintains the integrity of the lunar month, but insert an extra full month by complex rules, every few years, to ensure that the festivals and crop-related rituals fall in the appropriate season.[4][2]
The Hindu calendars have been in use in the Indian subcontinent since ancient times, and remains in use by the Hindus in India and Nepal particularly to set the Hindu festival dates such as Holi, Maha Shivaratri, Vaisakhi, Raksha Bandhan, Pongal, Onam, Krishna Janmashtami, Durga Puja, Ram Navami, Vishu and Diwali. Early Buddhist communities of India adopted the ancient Indian calendar, later Vikrami calendar and then local Buddhist calendars. Buddhist festivals continue to be scheduled according to a lunar system.[6] The Buddhist calendar and the traditional lunisolar calendars of Cambodia, Laos, Myanmar, Sri Lanka and Thailand are also based on an older version of the Hindu calendar. Similarly, the ancient Jain traditions have followed the same lunisolar system as the Hindu calendar for festivals, texts and inscriptions. However, the Buddhist and Jaina timekeeping systems have attempted to use the Buddha and the Mahavira's lifetimes as their reference points.[7][8][9]
The Hindu calendar is also important to the practice of Hindu astrology and zodiac system, most of which was adopted by Greece, in centuries after the arrival of Alexander the Great.[1][10] The Indian national calendar or "Saka calendar" was redesigned in an effort that started in 1952 based on the traditional Hindu calendars, and it was adopted on March 22, 1957.[11]
Contents
1 Origins
2 Texts
2.1 Astrology
2.2 Balinese Hindu calendar
3 Year: Samvat
4 Months
4.1 Amanta, Purnimanta systems
4.2 Paksha
4.3 Month names
4.4 Months and approximate correspondence
4.5 Corrections between lunar and solar months
4.5.1 Rare corrections
5 Day
5.1 Weekday/Vāsara
5.2 Five limbs of time
5.2.1 Yoga
5.2.2 Karaṇa
5.2.3 Nakshatra
6 Festival calendar: solar and lunar dates
7 Regional variants
8 See also
9 References
9.1 Bibliography
10 Further reading
11 External links
Origins
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Time keeping
[The current year] minus one,
multiplied by twelve,
multiplied by two,
added to the elapsed [half months of current year],
increased by two for every sixty [in the sun],
is the quantity of half-months (syzygies).
— Rigveda Jyotisha-vedanga 4
Translator: Kim Plofker[12]
Time keeping was important to Vedic rituals, and Jyotisha was the Vedic era field of tracking and predicting the movements of astronomical bodies in order to keep time, in order to fix the day and time of these rituals.[13][14][15] This study was one of the six ancient Vedangas, or ancillary science connected with the Vedas – the scriptures of Hinduism.[13][14] The ancient Indian culture developed a sophisticated time keeping methodology and calendars for Vedic rituals.[16]
David Pingree has proposed that the field of timekeeping in Jyotisha may have been "derived from Mesopotamia during the Achaemenid period",[17] but Yukio Ohashi considers this proposal as "definitely wrong".[18] Ohashi states that this Vedanga field developed from actual astronomical studies in ancient India.[19] The texts of Vedic Jyotisha sciences were translated into the Chinese language in the 2nd and 3rd centuries CE, and the Rigvedic passages on astronomy are found in the works of Zhu Jiangyan and Zhi Qian.[20]
Timekeeping as well as the nature of solar and moon movements are mentioned in Vedic texts.[21] For example, Kaushitaki Brahmana chapter 19.3 mentions the shift in the relative location of the sun towards north for 6 months, and south for 6 months.[22][23]
The Vikrami calendar is named after king Vikramaditya and starts in 57 BCE.[24]
Texts
Sanathana Dharma (Hindu) scholars kept precise time by observing and calculating the cycles of (Surya) i.e. the sun, moon and the planets. These calculations about the sun appear in various Smskrth (Sanskrit) astronomical texts in Sanskrit, such as the 5th century Aryabhatiya by Aryabhata, the 6th century Romaka by Latadeva and Panca Siddhantika by Varahamihira, the 7th century Khandakhadyaka by Brahmagupta and the 8th century Sisyadhivrddida by Lalla.[25] These texts present Surya and various planets and estimate the characteristics of the respective planetary motion.[25] Other texts such as Surya Siddhanta dated to have been completed sometime between the 5th century and 10th century present their chapters on various deified planets with stories behind them.[25]
The manuscripts of these texts exist in slightly different versions. They present Surya, planet-based calculations and Surya's relative motion to earth. These vary in their data, suggesting that the text were open and revised over their lives.[26][27][28] For example, the 1st millennium CE Sanathana Dharma (Hindu) scholars calculated the sidereal length of a year as follows, from their astronomical studies, with slightly different results:[29]
Hindu text | Estimated length of the sidereal year[29] |
Surya Siddhanta | 365 days, 6 hours, 12 minutes, 36.56 seconds |
Paulica Siddhanta | 365 days, 6 hours, 12 minutes, 36 seconds |
Paracara Siddhanta | 365 days, 6 hours, 12 minutes, 31.50 seconds |
Arya Siddhanta | 365 days, 6 hours, 12 minutes, 30.84 seconds |
Laghu Arya Siddhanta | 365 days, 6 hours, 12 minutes, 30 seconds |
Siddhanta Shiromani | 365 days, 6 hours, 12 minutes, 9 seconds |
The Hindu texts used the lunar cycle for setting months and days, but the solar cycle to set the complete year. This system is similar to the Jewish and Babylonian ancient calendars, creating the same challenge of accounting for mismatch between the nearly 354 lunar days in twelve months, versus nearly 365 solar days in a year.[4][30] They tracked the solar year by observing the entrance and departure of surya (sun, at sunrise and sunset) in the constellation formed by stars in the sky, which they divided into 12 intervals of 30 degrees each.[31] Like other ancient human cultures, Hindus innovated a number of systems of which intercalary months became most used, that is adding another month every 32.5 months on average.[30] As their calendar keeping and astronomical observations became more sophisticated, the Hindu calendar became more sophisticated with complex rules and greater accuracy.[30][32][31]
According to Scott Montgomery, the siddhanta tradition at the foundation of Hindu calendars predate the Christian era, once had 18 texts of which only 5 have survived into the modern era.[30] These texts provide specific information and formulae on motions of sun, moon and planets, to predict their future relative positions, equinoxes, rise and set, with corrections for prograde, retrograde motions, as well as parallax. These ancient scholars attempted to calculate their time to the accuracy of a truti (29.63 microseconds). In their pursuit of accurate tracking of relative movements of celestial bodies for their calendar, they had computed the diameter of earth, which though not accurate, was very close to the actual 7,918 miles.[30][31]
Hindu calendars were refined during the Gupta era astronomy by Āryabhaṭa and Varāhamihira in the 5th to 6th century. These in turn were based in the astronomical tradition of Vedāṅga Jyotiṣa, which in the preceding centuries had been standardised in a number of (non-extant) works known as Sūrya Siddhānta. Regional diversification took place in the medieval period. The astronomical foundations were further developed in the medieval period, notably by Bhāskara II (12th century).[citation needed]
Astrology
Later, the term Jyotisha evolved to include Hindu astrology. The astrological application of Hindu calendar was a field that likely developed in the centuries after the arrival of Greek astrology with Alexander the Great,[19][33][34] because their zodiac signs are nearly identical.[14]
The ancient Hindu texts on Jyotisha only discuss time keeping, and never mention astrology or prophecy.[35] These ancient texts predominantly cover astronomy, but at a rudimentary level.[15] Technical horoscopes and astrology ideas in India came from Greece, states European chauvinist Nicholas Campion, and developed in the early centuries of the 1st millennium CE.[10] Later medieval era texts such as the Yavana-jataka and the Siddhanta texts are more astrology-related.[36]
Balinese Hindu calendar
Hinduism and Buddhism were the prominent religions of southeast Asia in the 1st millennium CE, prior to the Islamic conquest that started in the 14th century. The Hindus prevailed in Bali, Indonesia and they have two types of Hindu calendar. One is a 210-day based Pawukon calendar which likely is a pre-Hindu system, and another is similar to lunisolar calendar system found in South India and it is called the Balinese saka calendar which uses Hindu methodology.[37] The names of month and festivals of Balinese Hindus for the most part are different, though the significance and legends have some overlap.[37]
Year: Samvat
Samvat refers to era of the several Hindu calendar systems in India and Nepal, in a manner that the consecutive years 1 BC and AD 1 mark the Christian era and the BC/AD system. There are several samvat found in historic Buddhist, Hindu and Jaina texts and epigraphy, of which three are most significant: Vikrama era, Old Shaka era and Shaka era of 78 AD.[38]
Vikram Samvat: A northern India almanac which started in 57 BCE, and is also called the Vikrama Era. It is related to the Bikrami calendar, and is linked to Vikramaditya. This system is common in epigraphic evidence from northern, western, central and eastern Indian subcontinent, particularly after the early centuries of the 1st millennium CE.[38]
Shaka Samvat: There are two Shaka era system in scholarly use, one is called Old Shaka Era, whose epoch is uncertain, probably sometime in the 1st millennium BCE because ancient Buddhist, Jaina and Hindu inscriptions and texts use it. However, the starting point of Old Shaka Era is a subject of dispute among scholars. The second system is called Saka Era of 78 AD, or simply Saka Era, a system that is common in epigraphic evidence from southern India.[38]- Saka era of Southeast Asia: The Hindu calendar system in Indonesia is attributed to the legend of Hindus arriving with a sage Aji Saka in the 1st century Java, in the March of 78 CE.[41][42] Numerous ancient and medieval era texts and inscriptions found in Indonesian islands use this reference year.[43][44] In mainland southeast Asia, the earliest verifiable use of Hindu Saka methodology in inscriptions is marked Saka 533 in Ankor Borei, which corresponds to 611 CE, while in the Indonesian islands, the Kedukan Bukti inscription in Sumatra, marked to Saka 605 (683 CE) is one of the earliest known.[44] However, these inscriptions set the floruit, and the Hindu calendaring methodology likely existed in southeast Asia before these dates to be used in important monuments. Further, the Hindu calendar system remained popular among the Hindus through about the 15th century, and thereafter in Bali Indonesia.[44]
Indian national calendar (modern): combined many Hindu calendars into one official standardized one, but old ones remain in use.[11]
Months
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Amanta, Purnimanta systems
Two traditions have been followed in the Indian subcontinent with respect to lunar months: Amanta tradition which ends the lunar month on no moon day, while Purnimanta tradition which ends it on full moon day.[45][46]
Amavasyant (Amanta, Mukhyamana) tradition is followed by all Indian states that have a peninsular coastline (except Odisha), as well as Assam and Tripura. Odisha and all other states follow the Purnimanta (Gaunamana) tradition.[45]
Purnimanta tradition was being followed in the Vedic era. It was replaced with Amanta system and in use as the Hindu calendar system prior to 1st century BCE, but the Purnimanta tradition was restarted in 57 BCE by Vikramaditya who wanted to return to the Vedic roots.[46] The presence of this system is one of the factors considered in dating ancient manuscripts and epigraphical evidence of India that have survived into the modern era.[46][47]
Paksha
A month contains two fortnights called pakṣa (पक्ष, literally "side").[2] One fortnight is the bright, waxing half where the moon size grows and it ends in the full moon. This is called Shukla Paksha.[48] The other half is the darkening, waning fortnight which ends in the new moon.[2] The Hindu festivals typically are either on or the day after the full moon night, or the darkest night (amavasya, अमावास्या), except for some associated with Krishna, Durga or Rama. The lunar months of the hot summer and the busy major cropping-related part of the monsoon season typically do not schedule major festivals.[49]
A combination of the Paksha system, and the two traditions of Amanta and Purnimanta systems, has led to alternate ways of dating any festival or event in the historic Hindu, Buddhist or Jain literature, and contemporary regional literature or festival calendars. For example, the Hindu festival of colors called Holi falls on the first day (full moon) of Chaitra lunar month's dark fortnight in the Purnimanta system, while the same exact day for Holi is expressed in Amanta system as the Purnima (full moon) lunar day of Phalguna.[32] Both time measuring and dating systems are equivalent ways of meaning the same thing, they continue to be in use in different regions, though the Purnimanta system is now typically assumed as implied in modern Indology literature if not specified.[32][31]
Month names
There are 12 months in Hindu lunar calendar (Sanskrit: मासाः). If the transits of the Sun through various constellations (Rāśi) are used, then we get solar months, which do not shift with reference to the Gregorian calendar. The solar months along with the corresponding Hindu seasons and Gregorian months are:[31]
Vikrami solar months | Vikrami lunar months[32] | Gregorian months[32] | Ṛtu (season) | Nepali/Hindi / Marathi name | Bengali name | Kannada name | Malayalam name | Odia name | Tamil name | Telugu name | Gujarati name |
---|---|---|---|---|---|---|---|---|---|---|---|
Meṣa | Vaisakha | Apr-May | Grīṣma (summer) | ग्रीष्म | গ্রীষ্ম (Grishsho) | ಗ್ರೀಷ್ಮ ಋತು (Grīṣma Ṛtu) | ഗ്രീഷ്മം (Grīṣmam) | ଗ୍ରୀଷ୍ମ (Griṣma) | இளவேனில் (ilavenil) | గ్రీష్మ ఋతువు (Grīṣma Ṛtuvu) | ગ્રીષ્મ ઋતુ (Grīṣma Ṛtuvu) |
Vṛṣabha | Jyeshtha | May–June | |||||||||
Mithuna | Ashadha | June–July | Varṣā (monsoon) | वर्षा | বর্ষা (Bôrsha) | ವರ್ಷ ಋತು (Varṣa Ṛtu) | വര്ഷം (Varṣām) | ବର୍ଷା (Barṣā) | முதுவேனில் (mudhuvenil) | వర్ష ఋతువు (Varṣa Ṛtuvu) | વર્ષા ઋતુ (Varṣa Ṛtuvu) |
Karkaṭa | Shraavana | July-Aug | |||||||||
Siṃha | Bhadra | Aug-Sept | Śarad (autumn) | शरद | শরৎ(Shôrôt) | ಶರದೃತು (Śaradṛtu) | ശരത് (Śarat) | ଶରତ (Śarata) | கார் (kaar) | శరదృతువు (Śaradṛtuvu) | શરદ ઋતુ (Śaradṛtuvu) |
Kanyā | Ashvin | Sept-Oct | |||||||||
Tulā | Kartik | Oct-Nov | Hemanta (Late-Autumn) | हेमन्त | হেমন্ত (Hemôntô) | ಹೇಮಂತ ಋತು (Hēmaṃta Ṛtu) | ഹേമന്തം (Hemantam) | ହେମନ୍ତ (Hemanta) | குளிர் (kulir) | హేమంత ఋతువు (Hēmaṃta Ṛtuvu) | હેમંત ઋતુ (Hēmaṃta Ṛtuvu) |
Vṛścika | Agahana | Nov-Dec | |||||||||
Dhanu | Pausha | Dec-Jan | Śiśira (Winter) | शिशिर | শীত (Shīth) | ಶಿಶಿರ ಋತು (Śiśira Ṛtu) | ശിശിരം (Śiśiram) | ଶୀତ/ଶିଶିର (Śīta/Śiśira) | முன்பனி (munpani) | శిశిర ఋతువు (Śiśira Ṛtuvu) | શિશિર ઋતુ (Śiśira Ṛtuvu) |
Makara | Magha | Jan-Feb | |||||||||
Kumbha | Phalguna | Feb-Mar | Vasanta (spring) | वसन्त | বসন্ত (Bôsôntô) | ವಸಂತ ಋತು (Vasaṃta Ṛtu) | വസന്തം (Vasaṃtam) | ବସନ୍ତ (Basanta) | பின்பனி (pinpani) | వసంత ఋతువు (Vasaṃta Ṛtuvu) | વસંત ઋતુ (Vasaṃta Ṛtuvu) |
Mīna | Chaitra | Mar-Apr |
Months and approximate correspondence
The names of the Indian months vary by region. Despite the significant differences between Indo-European languages and Dravidian languages, those Hindu calendars which are based on lunar cycle are generally phonetic variants of each other, while the solar cycle are generally variants of each other too, suggesting that the time keeping knowledge travelled widely across the Indian subcontinent in ancient times.[1][31]
The Tamil lunar month names are forward shifted by a month compared to Vikrami month names, in part because Tamil calendar integrates greater emphasis for the solar cycle in a manner similar to the neighboring Kerala region and it follows the Amanta system for lunar months. This is in contrast to Vikrami calendar which keeps the Purnimanta system and emphasizes the lunar cycle.[50] A few major calendars are summarized below:
# | Vikrami (lunar)[32] | Assamese | Bengali | Tamil | Odia | Vikrami (solar) | Malayalam (solar) | Kannada/Telugu | Gregorian |
---|---|---|---|---|---|---|---|---|---|
1 | Vaisākha | Bohag | Boishak | Chithirai | Baisakha | Mesha | Medam | Vaisākha | April–May |
2 | Jyeshta | Zeth | Joistho | Vaigasi | Jyestha | Vrisha | Edavam | Jyeshta | May–June |
3 | Āshāda | Ahar | Ashshar | Aani | Asadha | Mithuna | Midunam | Āshāda | June–July |
4 | Shraavana | Xaün | Shrabon | Aadi | Srabana | Karka | Karkadakam | Shrāvana | July–August |
5 | Bhādra | Bhado | Bhadro | Aavani | Bhadraba | Singa | Chingam | Bhādrapada | August–September |
6 | Ashwina | Ahin | Ashshin | Purataasi | Aswina | Kanya | Kanni | Āswayuja | September–October |
7 | Kartika | Kati | Kartik | Aippasi | Kartika | Tula | Tulam | Kārtika | October–November |
8 | Mārgasirsa (Agrahayana) | Aghün | Agrohoyon | Kartiggai | Margasira | Vrischika | Vrischikam | Mārgasira | November–December |
9 | Pausha | Puh | Poush | Margazhi | Pousa | Dhanus | Dhanu | Pushya | December–January |
10 | Māgha | Magh | Magh | Thai | Magha | Makara | Makaram | Magha | January–February |
11 | Phālguna | Phagun | Falgun | Maasi | Phalguna | Kumbha | Kumbham | Phalguna | February–March |
12 | Chaitra | Sót | Choitro | Panguni | Chaitra | Mina | Minuam | Chaitra | March–April |
Corrections between lunar and solar months
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Twelve Hindu mas (māsa, lunar month) are equal to approximately 354 days, while the length of a sidereal (solar) year is about 365 days. This creates a difference of about eleven days, which is offset every (29.53/10.63) = 2.71 years, or approximately every 32.5 months.[30] The twelve months are subdivided into six lunar seasons timed with the agriculture cycles, blooming of natural flowers, fall of leaves, and weather. To account for the mismatch between lunar and solar calendar, the Hindu scholars adopted intercalary months, where a particular month just repeated. The choice of this month was not random, but timed to sync back the two calendars to the cycle of agriculture and nature.[30][31]
The repetition of a month created the problem of scheduling festivals, weddings and other social events without repetition and confusion. This was resolved by declaring one month as Shudha (pure, clean, regular, proper, also called Deva month) and the other Mala or Adhika (extra, unclean and inauspicious, also called Asura masa).[51]
The Indian mathematicians who calculated the best way to adjust the two years, over long periods of a yuga (era, tables calculating 1000 of years), they determined that the best means to intercalate the months is to time the intercalary months on a 19-year cycle. This intercalation is generally adopted in the 3rd, 5th, 8th, 11th, 14th, 16th and 19th year of this cycle. Further, the complex rules rule out the repetition of Mārgasirsa (also called Agahana), Pausha and Maagha lunar months. The historic Hindu texts are not consistent on these rules, with competing ideas flourishing in the Hindu culture.[52]
Rare corrections
The Hindu calendar makes further rare adjustments, over a cycle of centuries, where a certain month is considered kshaya month (dropped). This occurs because of the complexity of the relative lunar, solar and earth movements. According to the Hindu calendar theory, states uriel Marion Underhill, "when the sun is in perigee, and a lunar month being at its longest, if the new moon immediately precedes a samkranti, then the first of the two lunar months is deleted (called nija or kshaya). This, for example, happened in the year 1 BCE, when there was no new moon between Makara samkranti and Kumbha samkranti, and the month of Pausha was dropped.[53]
Day
Just like months, the Hindu calendar has two measures of a day, one based on the lunar movement and the other on solar. The solar day or civil day, called divasa ( दिवस), has been what most Hindus traditionally use, is easy and empirical to observe, by poor and rich, with or without a clock, and it is defined as the period from one sunrise to another. The lunar day is called tithi (तिथि), and this is based on complicated measures of lunar movement. A lunar day or tithi may, for example, begin in the middle of an afternoon and end next afternoon.[54] Both these days do not directly correspond to a mathematical measure for a day such as equal 24 hours of a solar year, a fact that the Hindu calendar scholars knew, but the system of divasa was convenient for the general population. The tithi have been the basis for timing rituals and festivals, while divasa for everyday use. The Hindu calendars adjust the mismatch in divasa and tithi, using a methodology similar to the solar and lunar months.[55]
A Tithi is technically defined in Indian texts, states John E. Cort, as "the time required by the combined motions of the sun and moon to increase (in a bright fortnight) or decrease (in a dark fortnight) their relative distance by twelve degrees of the zodiac.[56] These motions are measured using a fixed map of celestial zodiac as reference, and given the elliptical orbits, a duration of a tithi varies between 21.5 and 26 hours, states Cort.[56] However, in the Indian tradition, the general population's practice has been to treat a tithi as a solar day between one sunrise to next.[56]
A lunar month has 30 tithi. The technical standard makes each tithi contain different number of hours, but helps the overall integrity of the calendar. Given the variation in the length of a solar day with seasons, and moon's relative movements, the start and end time for tithi varies over the seasons and over the years, and the tithi adjusted to sync with divasa periodically with intercalation.[57]
Weekday/Vāsara
Vāsara refers to the weekdays in Sanskrit.[58] Also referred to as Vara and used as a suffix,[11] the Indian names for the weekdays based on zodiac planets was adopted from the Greeks around the 3rd century CE, because they are not mentioned in earlier Sanskrit or Pali texts, nor are they found in any ancient inscriptions. The correspondence between the names of the week in Hindu and other Indo-European calendars are exact.[59][60] The weekday of a Hindu calendar has been symmetrically divided into 60 ghatika (= 24 hours), each ghatika is divided into 60 pala (= 24 minutes), each pala is subdivided into 60 vipala (= 24 seconds), and so on.[59]
No. | Sanskrit[59][60] | Latin weekday | Celestial object | Nepali | Hindi | Bhojpuri | Punjabi (Hindus and Sikhs)[note 1] | Bengali | Assamese | Marathi | Odia | Kannada | Telugu | Tamil | Malayalam | Gujarati | Kashmiri |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
1 | Ravivāsara रविवासर or Aditya vāsara आदित्य वासर | Sunday/dies Solis | Ravi, Aditya = Sun | Aaitabar आइतवार | Ravivār रविवार | Aitwār अतवार | Aitvār ਐਤਵਾਰ | Rôbibār রবিবার | Dêûbār/Rôbibār দেওবাৰ/ৰবিবাৰ | Ravivār रविवार | Rôbibārô ରବିବାର | Bhānuvāra ಭಾನುವಾರ | Ādivāraṁ ఆదివారం | Nyayiru ஞாயிறு | Njaayar ഞായർ | Ravivār રવિવાર | Āthvār आथु'वार اَتھ وار |
2 | Somavāsara सोमवासर | Monday/dies Lunae | Soma (deity), Chandra = Moon | Sombar सोमवार | Somavār सोमवार | Somār सोमार | Somavār ਸੋਮਵਾਰ | Śombār সোমবার | Xûmbār সোমবাৰ | Somavār सोमवार | Somôbārô ସୋମବାର | Sōmavāra ಸೋಮವಾರ | Sōmavāraṁ సోమవారం | Thingal திங்கள் | Thinkal തിങ്കൾ | Sōmavār સોમવાર | Çāņdėrvār च़'न्दु'रवार ژندر وار |
3 | Maṅgalavāsara मंगलवासर or Bhaumavasara भौम वासर | Tuesday/dies Martis | Maṅgala = Mars | Mangalbar मङ्गलवार | Maṅgalavār मंगलवार | Mangar मंगर | Maṅgalavār ਮੰਗਲਵਾਰ | Môṅgôlbār মঙ্গলবার | Môṅôlbār/Môṅgôlbār মঙলবাৰ/মঙ্গলবাৰ | Maṅgaḷavār मंगळवार | Môṅgôḷôbārô ମଙ୍ଗଳବାର | Maṁgaḷavāra ಮಂಗಳವಾರ | Maṁgaḷavāraṁ మంగళవారం | Chevvai செவ்வாய் | Chovva ചൊവ്വ | Maṅgaḷavār મંગળવાર | Bomvār बोमवार پم وار |
4 | Budhavāsara बुधवासर or Saumya vasara सौम्य वासर | Wednesday/dies Mercurii | Budha = Mercury | Budhabar बुधवार | Budhavāra बुधवार | Buddh बुध | Buddhavār ਬੁੱਧਵਾਰ | Budhbār বুধবার | Budhbār বুধবাৰ | Budhavār बुधवार | Budhôbārô ବୁଧବାର | Budhavāra ಬುಧವಾರ | Budhavāraṁ బుధవారం | Budhan புதன் | Budhan ബുധൻ | Budhavār બુધવાર | Bödvār बॅदवार برھ وار |
5 | Guruvāsara गुरुवासर or Brhaspati vāsara बृहस्पतिवासर | Thursday/dies Iovis/Jupiter | Deva-Guru Bṛhaspati = Jupiter | Bihibar बिहिवार | Guruvār गुरुवार or Brihaspativāra बृहस्पतिवार | Bi'phey बियफे | Vīravār ਵੀਰਵਾਰ | Brihôśpôtibār বৃহস্পতিবার | Brihôspôtibār বৃহস্পতিবাৰ | Guruvār गुरुवार | Gurubārô ଗୁରୁବାର | Guruvāra ಗುರುವಾರ | Guruvāraṁ, Br̥haspativāraṁ గురువారం, బృహస్పతివారం, లక్ష్మీవారం | Vyazhan வியாழன் | Vyaazham വ്യാഴം | Guruvār ગુરુવાર | Brêsvār ब्रसवार برس وار |
6 | Śukravāsara शुक्रवासर | Friday/dies Veneris | Śukra = Venus | Sukrabar शुक्रवार | Śukravār शुक्रवार | Sukkar सुक्कर | Śukkaravār ਸ਼ੁੱਕਰਵਾਰ | Śukrôbār শুক্রবার | Xukurbār/Xukrôbār শুকুৰবাৰ/শুক্রবাৰ | Śukravār शुक्रवार | Śukrôbārô ଶୁକ୍ରବାର | Śukravāra ಶುಕ್ರವಾರ | Śukravāraṁ శుక్రవారం | Velli வெள்ளி | Velli വെള്ളി | Śukravār શુક્રવાર | Shokụrvār शो'कु'रवार شۆکٕروار |
7 | Śanivāsara शनिवासर | Saturday/dies Saturnis | Śani = Saturn | Sanibar शनिवार | Śanivār शनिवार | Sanichchar सनिच्चर | Śanīvār ਸ਼ਨੀਵਾਰ Chhanicchharavār ਛਨਿੱਚਰਵਾਰ | Śônibār শনিবার | Xônibār শনিবাৰ | Śanivār शनिवार | Śônibārô ଶନିବାର | Śanivāra ಶನಿವಾರ | Śanivāraṁ శనివారం | Shani சனி | Shani ശനി | Śanivār શનિવાર | Baţėvār बटु'वार بٹ وار |
^ Punjabi Muslims use Urdu/Arabic words for Friday / Saturday etc.[61]
The term -vāsara is often realised as vāra or vaar in Sanskrit-derived and influenced languages. There are many variations of the names in the regional languages, mostly using alternate names of the celestial bodies involved.
Five limbs of time
The complete Indian calendars contain five angas or parts of information: lunar day (tithi), solar day (vara), asterism (naksatra), planetary joining (yoga) and astronomical period (karanam). This structure gives the calendar the name Panchangam.[11] The first two are discussed above.
Yoga
The Sanskrit word Yoga means "union, joining, attachment", but in astronomical context, this word means latitudinal and longitudinal information. The longitude of the sun and the longitude of the moon are added, and normalised to a value ranging between 0° to 360° (if greater than 360, one subtracts 360). This sum is divided into 27 parts. Each part will now equal 800' (where ' is the symbol of the arcminute which means 1/60 of a degree). These parts are called the yogas. They are labelled:
- Viṣkambha
- Prīti
- Āyuśmān
- Saubhāgya
- Śobhana
- Atigaṇḍa
- Sukarma
- Dhṛti
- Śūla
- Gaṇḍa
- Vṛddhi
- Dhruva
- Vyāghatā
- Harṣaṇa
- Vajra
- Siddhi
- Vyatipāta
- Variyas
- Parigha
- Śiva
- Siddha
- Sādhya
- Śubha
- Śukla
- Brahma
- Māhendra
- Vaidhṛti
Again, minor variations may exist. The yoga that is active during sunrise of a day is the prevailing yoga for the day.
Karaṇa
A karaṇa is half of a tithi. To be precise, a karaṇa is the time required for the angular distance between the sun and the moon to increase in steps of 6° starting from 0°. (Compare with the definition of a tithi.)
Since the tithis are 30 in number, and since 1 tithi = 2 karaṇas, therefore one would logically expect there to be 60 karaṇas. But there are only 11 such karaṇas which fill up those slots to accommodate for those 30 tithis. There are actually 4 "fixed" (sthira) karaṇas and 7 "repeating" (cara) karaṇas.
The 4
Śakuni (शकुनि)
Catuṣpāda (चतुष्पाद)
Nāga (नाग)
Kiṃstughna (किंस्तुघ्न)
The 7 "repeating" karaṇas are:[62]
Vava or Bava (बव)
Valava or Bālava (बालव)
Kaulava (कौलव)
Taitila or Taitula (तैतिल)
Gara or Garaja (गरज)
Vaṇija (वणिज)
Viṣṭi (Bhadra) (भद्रा)
- Now the first half of the 1st tithi (of Śukla Pakṣa) is always Kiṃtughna karaṇa. Hence this karaṇa' is "fixed".
- Next, the 7-repeating karaṇas repeat eight times to cover the next 56 half-tithis. Thus these are the "repeating" (cara) karaṇas.
- The 3 remaining half-tithis take the remaining "fixed" karaṇas in order. Thus these are also "fixed" (sthira).
- Thus one gets 60 karaṇas from those 11 preset karaṇas.
The Vedic day begins at sunrise. The karaṇa at sunrise of a particular day shall be the prevailing karaṇa for the whole day.
Nakshatra
Nakshatras are divisions of ecliptic, each 13° 20', starting from 0° Aries. The purnima of each month is synchronised with a nakshatra.[citation needed]
Festival calendar: solar and lunar dates
Many holidays in the Hindu, Buddhist and Jaina traditions are based on the lunar cycles in the lunisolar timekeeping with foundations in the Hindu calendar system. A few holidays, however, are based on the solar cycle, such as the Vaisakhi, Pongal and those associated with Sankranti.[63] The dates of the lunar cycle based festivals vary significantly on the Gregorian calendar and sometimes as much as weeks. The solar cycle based ancient Indian festivals almost always fall on the same Gregorian date every year and if they vary in an exceptional year, it is by one day.[64]
Regional variants
The Indian Calendar Reform Committee, appointed in 1952, identified more than thirty well-developed calendars, in use across different parts of India.[11]
Variants include the lunar emphasizing Vikrama, the Shalivahana calendars, as well as the solar emphasizing Tamil calendar and Malayalam calendar. The two calendars most widely used today are the Vikrama calendar, which is in followed in western and northern India as well as Nepal, and the Shalivahana Shaka calendar which is followed in the Deccan region of India (Comprising present day Indian states of Telangana, Andhra Pradesh, Karnataka, Maharashtra, and Goa).[65]
See also
- Hindu astrology
- Hindu chronology
- Hindu units of measurement
- List of Hindu festivals
- Panchangam
- Panjika
- Ancient Vedic units of measurement
- Perpetual Calendar of 800 Years
- Pambu Panchangam
- Kollam era
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^ Christopher John Fuller (2004). The Camphor Flame: Popular Hinduism and Society in India. Princeton University Press. pp. 109–110, 291–293. ISBN 978-0-69112-04-85.
^ Regional Varieties of the Indian Calendars, Helmer Aslaksen and Akshay Regulagedda, National University of Singapore (2012)
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Bibliography
Kim Plofker (2009). Mathematics in India. Princeton University Press. ISBN 0-691-12067-6.
Pingree, David (1973). "The Mesopotamian Origin of Early Indian Mathematical Astronomy". Journal for the History of Astronomy. SAGE. 4 (1). Bibcode:1973JHA.....4....1P. doi:10.1177/002182867300400102.
Pingree, David (1981). Jyotihśāstra : Astral and Mathematical Literature. Otto Harrassowitz. ISBN 978-3447021654.
Yukio Ohashi (1999). Johannes Andersen, ed. Highlights of Astronomy, Volume 11B. Springer Science. ISBN 978-0-7923-5556-4.
Yukio Ohashi (1993). "Development of Astronomical Observations in Vedic and post-Vedic India". Indian Journal of History of Science. 28 (3).
Maurice Winternitz (1963). History of Indian Literature, Volume 1. Motilal Banarsidass. ISBN 978-81-208-0056-4.
Further reading
- Reingold and Dershowitz, Calendrical Calculations, Millennium Edition, Cambridge University Press, latest 2nd edition 3rd printing released November 2004.
ISBN 0-521-77752-6 - S. Balachandra Rao, Indian Astronomy: An Introduction, Universities Press, Hyderabad, 2000.
- Rai Bahadur Pandit Gaurishankar Hirachand Ojha, The Paleography of India, 2 ed., Ajmer, 1918, reprinted Manshuram Manoharlal publishers, 1993.
External links
Kyoto University Gregorian – Saka – Vikrami Calendar Converter Tool, M. YANO and M. FUSHIMI
Converter: Gregorian and 1957 Normalized Indian Calendar, Shalivahana Hindu calendar, United Kingdom
Hindu Calendar to Julian / Hebrew / Islamic / Mayan / French / ISO 8601 Converter, Harvard University
Hindu Calendar of Nepal The Official Hindu Calendar of Nepal