Intercalary month (Egypt)

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The intercalary month or epagomenal days [1] of the ancient Egyptian, Coptic, and Ethiopian calendars are a period of five days in common years and six days in leap years in addition to those calendars' 12 standard months, sometimes reckoned as their thirteenth month. They originated as a periodic measure to ensure that the heliacal rising of Sirius would occur in the 12th month of the Egyptian lunar calendar but became a regular feature of the civil calendar and its descendants. Coptic and Ethiopian leap days occur in the year preceding Julian and Gregorian leap years.

Contents

Names

Intercalary month (Egypt)
Intercalary month (Egypt)
Intercalary month (Egypt)Intercalary month (Egypt)Intercalary month (Egypt)
Those upon the Year [2] [a]
Ḥryw Rnpt [3]
in hieroglyphs
Intercalary month (Egypt)Intercalary month (Egypt)
Intercalary month (Egypt)
Intercalary month (Egypt)Intercalary month (Egypt)Intercalary month (Egypt)Intercalary month (Egypt)Intercalary month (Egypt)
Intercalary month (Egypt)Intercalary month (Egypt)
The Five upon the Year [2] [b]
5 Ḥryw Rnpt [3]

in hieroglyphs

The English names "intercalary month" and "epagomenal days" derive from Latin intercalārius ("proclaimed between") [4] and Greek epagómenoi (ἐπαγόμενοι) [5] or epagómenai (ἐπαγόμεναι, "brought in" or "added on"), [6] Latinized as epagomenae. The period is also sometimes known as the "monthless days". [7]

In ancient Egypt, the period was known as the "Five Days upon the Year" (Ancient Egyptian : Hrw 5 Ḥry Rnpt), [8] the "Five Days" (Hrw 5) [8] or "Those upon the Year" (Ḥryw Rnpt), the last of which is transliterated as Heriu Renpet. [9] Parker also proposed that in some cases the intercalary month was known by the name Thoth (Ḏḥwtyt) after the festival that gave its name to the following month. [10]

In modern Egypt, the period is known as Kouji Nabot [5] or Pi Kogi Enavot [11] (Coptic : Ⲡⲓⲕⲟⲩϫⲓ ⲛ̀ⲁⲃⲟⲧ, Pikouji n'Abot, lit. "The Little Month") and Al-Nasi (Egyptian Arabic : النسيء, en-Nasiʾ, lit. "The Postponement"), after Nasi' of the Pre-Islamic calendar. The Arabic name is also romanized as Nasie. [11]

In Ethiopia, the period is known as Paguemain, [12] Phagumien (Amharic : ጳጐሜን, Ṗagʷəmen), [13] Pagume, [14] or Pagumay [15] (ጳጉሜ, Ṗagume).

Egyptian calendars

Ancient

Intercalary month (Egypt)Intercalary month (Egypt)Intercalary month (Egypt)Intercalary month (Egypt)Intercalary month (Egypt)Intercalary month (Egypt)
Intercalary month (Egypt)
Birth of Osiris
Mswt Wsı͗r Ḥb [3]
in hieroglyphs
Intercalary month (Egypt)Intercalary month (Egypt)Intercalary month (Egypt)Intercalary month (Egypt)Intercalary month (Egypt)
Birth of Horus [c]
Mswt Ḥr
in hieroglyphs
Intercalary month (Egypt)Intercalary month (Egypt)Intercalary month (Egypt)Intercalary month (Egypt)Intercalary month (Egypt)Intercalary month (Egypt)Intercalary month (Egypt)Intercalary month (Egypt)
Birth of Set
Mswt Stẖ [3]
in hieroglyphs
Intercalary month (Egypt)
Intercalary month (Egypt)
Intercalary month (Egypt)
Intercalary month (Egypt)
Intercalary month (Egypt)
Birth of Isis
Mswt Ꜣst Ḥb [3]
in hieroglyphs
Intercalary month (Egypt)Intercalary month (Egypt)
Intercalary month (Egypt)
Intercalary month (Egypt)Intercalary month (Egypt)Intercalary month (Egypt)Intercalary month (Egypt)
Intercalary month (Egypt)Intercalary month (Egypt)Intercalary month (Egypt)
Intercalary month (Egypt)Intercalary month (Egypt)
Birth of Nephthys
Sw n Mswt Nbt Ḥwt [3]
in hieroglyphs

Until the 4th century BC, the beginnings of the months of the lunar calendar were based on observation, [16] beginning at dawn on the morning when a waning crescent moon could no longer be seen. [17] The intercalary month was added every two or three years as needed to maintain the heliacal rising of Sirius within the fourth month of the season of Low Water. [18] This month may have had as many as 30 days. [19] According to the civil calendar, the months fell in order with the rest regardless of the state of the moon. They always consisted of 30 days, each individually named and devoted to a particular patron deity, but the year was always followed by an intercalary month of only five days. Owing to the lack of a leap day, the calendar slowly cycled relative to the solar year and Gregorian date until the Ptolemaic and Roman eras.

The period of the intercalary month was considered spiritually dangerous [20] and the pharaoh performed a ritual known as "Pacifying Sekhmet" (Sḥtp Sḫmt) to protect himself and the world [21] from that god's plague. [8] The period seems to have usually been a time of rest, placed between the New Year's Eve celebrations on 30  Wep Renpet and the New Year's celebrations beginning on 1  Thoth. [22] Scribes sometimes omitted the entire period from their records of the year. [23] Torches were carried [24] and apotropaic charms were drawn on linen and worn around the neck. [8]

The period was known as the "birthdays of the gods" as early as the Pyramid Texts. [25] By the early Middle Kingdom, the days were specified and ordered: [25]

Throughout the days, their connections to the solar boat of Ra, fish, and a "creator of terror" (ı͗r ḥrywt) were also stressed. [31] In all but a handful of texts, however, the days are merely numbered as "Day ~ of the Five Days upon the Year". [32]

Ptolemy III's Canopus Decree was an attempted calendrical reform in 239 BC which would have inserted a sixth day into the intercalary month, but it was abandoned due to the hostility of the priests [33] and people of Egypt. The leap day was finally established by Augustus in 30, 26, [34] or 25 BC. [33] Under this "Alexandrian calendar", the epagomenal days ran from Julian 24 August to 28 August in common years and to 29 August in leap years. [34] [d]

Coptic

In the present-day Coptic calendar, the intercalary month remains the same as the Alexandrian dates in the Julian calendar. In terms of the Gregorian calendar, it has begun on 6 September [1] and ended on 10 September in common years and 11 September in leap years since AD 1900 (AM  1616) [35] and will continue to do so until AD 2100 (AM  1816). [36] In that year, the Gregorian calendar's lack of a leap day will cause the Coptic month to advance another day relative to it [37] and it will run from 7 September to 11 September. Coptic leap years are not computed as divisors of four in that calendar's Diocletian era but occur in the year prior to the Gregorian leap year. [e]

The Coptic liturgical calendar of the month consists of: [11]

CopticJulianGregorianCommemorations
Intercalary

1

24 August6 September
225 August7 September
  • Departure of St. Titus, the Apostle.
  • Martyrdom of St. Isaiah, brother of Apa Hor
326 August8 September
  • Commemoration of Raphael, the Archangel.
  • Martyrdom of St. Andrianus.
  • Departure of St. John XIV, the 96th Pope of Alexandria.
427 August9 September
528 August10 September
  • Departure of St. James, Bishop of Cairo.
  • Departure of Amos, the Prophet.
  • Departure of St. Parsoma, the "Naked".
  • Departure of St. John XV, the 99th Pope of Alexandria.
only in years before Julian leap years
(6)(29 August)(11 September)
  • Thanksgiving to God the Exalted.

Ethiopian calendar

In the present-day Ethiopian calendar, Paguemain or Pagume is identical to the Coptic intercalary month, beginning on 6 September and ending on 10 September in common years and 11 September in leap years. [14] Its leap years occur at the same time [40] [13] and its dates will also shift forward one day relative to the Gregorian calendar in AD 2100 [15] (2092  EC). [41]

The unusual calendar is notably used in Ethiopian tourist information to advertise the country's "thirteen months of sunshine". [14] [12]

Mandaean calendar

The Mandaean calendar consisting of 12 30-day months, with 5 epagomenals inserted at the end of every 8th month (Mandaic: Šumbulta). These 5 extra days constitute the Parwanaya (or Panja) festival in the Mandaean calendar. [42]

See also

Notes

  1. Alternative representations of Those upon the Year include
    Intercalary month (Egypt)
    Intercalary month (Egypt)
    Intercalary month (Egypt)
    Intercalary month (Egypt)
    Intercalary month (Egypt)Intercalary month (Egypt)Intercalary month (Egypt)Intercalary month (Egypt)Intercalary month (Egypt)
    . [3]
  2. Alternative representations of the Five upon the Year include
    Intercalary month (Egypt)Intercalary month (Egypt)Intercalary month (Egypt)Intercalary month (Egypt)Intercalary month (Egypt)
    Intercalary month (Egypt)Intercalary month (Egypt)
    Intercalary month (Egypt)Intercalary month (Egypt)
    . [3]
  3. For variant hieroglyphic representations of this god, see Horus.
  4. For a chart of conversions from Julian to Gregorian dates from 3701 BC to AD 1900, see Parker. [34]
  5. For example, the Coptic leap day occurred on 11 September AD 2015 (6 Epag. AM  1731) [38] and its Gregorian equivalent on 29 February AD 2016 (21 Meshir AM  1732). [39]

Related Research Articles

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A calendar is a system of organizing days. This is done by giving names to periods of time, typically days, weeks, months and years. A date is the designation of a single and specific day within such a system. A calendar is also a physical record of such a system. A calendar can also mean a list of planned events, such as a court calendar, or a partly or fully chronological list of documents, such as a calendar of wills.

Intercalation or embolism in timekeeping is the insertion of a leap day, week, or month into some calendar years to make the calendar follow the seasons or moon phases. Lunisolar calendars may require intercalations of days or months.

The Julian calendar is a solar calendar of 365 days in every year with an additional leap day every fourth year. The Julian calendar is still used as a religious calendar in parts of the Eastern Orthodox Church and in parts of Oriental Orthodoxy as well as by the Amazigh people.

A leap year is a calendar year that contains an additional day compared to a common year. The 366th day is added to keep the calendar year synchronised with the astronomical year or seasonal year. Since astronomical events and seasons do not repeat in a whole number of days, calendars having a constant number of days each year will unavoidably drift over time with respect to the event that the year is supposed to track, such as seasons. By inserting ("intercalating") an additional day—a leap day—or month—a leap month—into some years, the drift between a civilization's dating system and the physical properties of the Solar System can be corrected.

A month is a unit of time, used with calendars, that is approximately as long as a natural phase cycle of the Moon; the words month and Moon are cognates. The traditional concept of months arose with the cycle of Moon phases; such lunar months ("lunations") are synodic months and last approximately 29.53 days, making for roughly 12.37 such months in one Earth year. From excavated tally sticks, researchers have deduced that people counted days in relation to the Moon's phases as early as the Paleolithic age. Synodic months, based on the Moon's orbital period with respect to the Earth–Sun line, are still the basis of many calendars today and are used to divide the year.

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The Roman calendar was the calendar used by the Roman Kingdom and Roman Republic. Although the term is primarily used for Rome's pre-Julian calendars, it is often used inclusively of the Julian calendar established by the reforms of the Dictator Julius Caesar and Emperor Augustus in the late 1st century BC.

<span class="mw-page-title-main">Coptic calendar</span> Egyptian liturgical calendar

The Coptic calendar, also called the Alexandrian calendar, is a liturgical calendar used by the farming populace in Egypt and also used by the Coptic Catholic Church. It was used for fiscal purposes in Egypt until the adoption of the Gregorian calendar on 11 September 1875. This calendar is based on the ancient Egyptian calendar. To avoid the calendar creep of the latter, a reform of the ancient Egyptian calendar was introduced at the time of Ptolemy III which consisted of adding an extra day every fourth year. However, this reform was opposed by the Egyptian priests, and the reform was not adopted until 25 BC, when the Roman Emperor Augustus imposed the Decree upon Egypt as its official calendar. To distinguish it from the Ancient Egyptian calendar, which remained in use by some astronomers until medieval times, this reformed calendar is known as the Coptic or Alexandrian calendar. Its years and months coincide with those of the Ethiopian calendar but have different numbers and names.

A solar calendar is a calendar whose dates indicate the season or almost equivalently the apparent position of the Sun relative to the stars. The Gregorian calendar, widely accepted as a standard in the world, is an example of a solar calendar. The main other types of calendar are lunar calendar and lunisolar calendar, whose months correspond to cycles of Moon phases. The months of the Gregorian calendar do not correspond to cycles of the Moon phase.

The Iranian calendar or Iranian chronology are a succession of calendars created and used for over two millennia in Iran, also known as Persia. One of the longest chronological records in human history, the Iranian calendar has been modified many times for administrative purposes. The most influential person in laying the frameworks for the calendar and its precision was the 11th century Persian polymath, Omar Khayyam. The modern Iranian calendar is currently the official civil calendar in Iran.

The Season of the Inundation or Flood was the first season of the lunar and civil Egyptian calendars. It fell after the intercalary month of Days over the Year and before the Season of the Emergence. In the Coptic and Egyptian calendars this season begins at the start of the month of Thout, continues through the months of Paopi and Hathor, before concluding at the end of Koiak.

The Season of the Emergence was the second season of the lunar and civil Egyptian calendars. It fell after the Season of the Inundation and before the Season of the Harvest. In the Coptic and Egyptian calendars this season begins at the start of the month of Tobi, continues through the months of Meshir and Paremhat, before concluding at the end of Parmouti.

The Season of the Harvest or Low Water was the third and final season of the lunar and civil Egyptian calendars. It fell after the Season of the Emergence and before the spiritually dangerous intercalary month, after which the New Year's festivities began the Season of the Inundation (Ꜣḫt). In the Coptic and Egyptian calendars this season begins at the start of the month of Pashons, continues through the months of Paoni and Epip, before concluding at the end of Mesori.

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The ancient Egyptian calendar – a civil calendar – was a solar calendar with a 365-day year. The year consisted of three seasons of 120 days each, plus an intercalary month of five epagomenal days treated as outside of the year proper. Each season was divided into four months of 30 days. These twelve months were initially numbered within each season but came to also be known by the names of their principal festivals. Each month was divided into three 10-day periods known as decans or decades. It has been suggested that during the Nineteenth Dynasty and the Twentieth Dynasty the last two days of each decan were usually treated as a kind of weekend for the royal craftsmen, with royal artisans free from work.

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The Ethiopian calendar, or Ge'ez calendar is the official state civil calendar of Ethiopia and serves as an unofficial customary cultural calendar in Eritrea, and among Ethiopians and Eritreans in the diaspora. It is also an ecclesiastical calendar for Ethiopian Christians and Eritrean Christians belonging to the Orthodox Tewahedo Churches, Eastern Catholic Churches, and Eastern Protestant Christian P'ent'ay Churches. The Ethiopian calendar is a solar calendar that has much in common with the Coptic calendar of the Coptic Orthodox Church of Alexandria and Coptic Catholic Church, but like the Julian calendar, it adds a leap day every four years without exception, and begins the year on 11 or 12th of September in the Gregorian calendar. A gap of seven to eight years between the Ethiopian and Gregorian calendars results from an alternative calculation in determining the date of the Annunciation.

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The Mandaean calendar is a 365-day solar calendar used by the Mandaean people. It consists of twelve 30-day months, with five extra days at the end of Šumbulta. The Parwanaya festival takes place during those five days. There is no leap year therefore every four years all Mandaean dates move one day back with respect to the Gregorian calendar.

Parwanaya or Panja is a 5-day religious festival in the Mandaean calendar. The 5 epagomenals inserted at the end of every Šumbulta constitute the Parwanaya intercalary feast. The festival celebrates the five days that Hayyi Rabbi created the angels and the universe.

Since ancient times, traditional mathematics in Ethiopia have related to various aspects of astrology, the calendar, and measurements of physical properties such as length, weight, and distance. Ethiopians used alternate units of measurement which differ from fundamental law; traditionally, scaling and counting values have been described using draft animals such as goats, mules, sheep, or camels, and in modern times, steelyards.

References

Citations

  1. 1 2 Gabra, Gawdat (2008), "Coptic Calendar", The A to Z of the Coptic Church, A to Z Guide Series, No. 107, Plymouth: The Scarecrow Press, pp.  70–1, ISBN   9780810870574 .
  2. 1 2 Clagett (1995), p. 29.
  3. 1 2 3 4 5 6 7 8 Vygus, Mark (2015), Middle Egyptian Dictionary (PDF).
  4. "intercalary, adj.", and "intercalate, v.", Oxford English Dictionary, Oxford: Oxford University Press, 1900.
  5. 1 2 Dawood (2007), p. 3.
  6. "epagomenal, adj.", "epagomenic, adj.", and "epagoge, n.", Oxford English Dictionary, Oxford: Oxford University Press, 1933.
  7. "Middle Eastern Calendars", Educational Resources, Chicago: Center for Middle Eastern Studies at the University of Chicago, p. 3, archived from the original (PDF) on 3 July 2019, retrieved 7 February 2017.
  8. 1 2 3 4 Jauhiainen (2009), p. 196.
  9. Watrall, Ethan (2016), Understanding Egyptian Chronology (PDF), Michigan State University, p. 8, archived from the original (PDF) on 2017-02-06, retrieved 2017-02-05.
  10. Parker (1950), p. 46.
  11. 1 2 3 "13: Nasie Month", Coptic Synaxarium, Alexandria: St Takla Haymanout, retrieved 6 February 2017.
  12. 1 2 Mebratu, Belete K. (2009), "Ethiopian Calendar", Encyclopedia of Time: Science, Philosophy, Theology, & Culture, Vol. I, Los Angeles: Sage, p.  128, ISBN   9781412941648 .
  13. 1 2 "Ethiopian Calendar", Selamta, 2015.
  14. 1 2 3 Shinn & al. (2013).
  15. 1 2 "Ethiopian Calendar", Official site, Tesfa Community Treks, retrieved 6 February 2017.
  16. Parker (1950), p. 29.
  17. Parker (1950), p. 23.
  18. Parker (1950), p. 32.
  19. Parker (1950), p. 64.
  20. 1 2 Spalinger (1995), p. 35.
  21. Jauhiainen (2009), p. 77.
  22. Jauhiainen (2009), pp. 81–2 & 198.
  23. Jauhiainen (2009), p. 56.
  24. Jauhiainen (2009), pp. 78 & 198.
  25. 1 2 Spalinger (1995), p. 33.
  26. 1 2 3 4 Jauhiainen (2009), pp. 197 & 223.
  27. Spalinger (1995), p. 38.
  28. Spalinger (1995), p. 46.
  29. Jauhiainen (2009), pp. 82, 197, & 223.
  30. Spalinger (1995), pp. 42 & 44.
  31. Spalinger (1995), pp. 45–7.
  32. Spalinger (1995), p. 34.
  33. 1 2 Dawood, K.R. (2007), "The Coptic Calendar" (PDF), Coptic Heritage, p. 7.
  34. 1 2 3 Parker (1950), p. 8.
  35. Reingold, Edward M.; et al. (2002), Calendrical Tabulations, 1900–2200, Cambridge: Cambridge University Press, p.  2, ISBN   9780521782531 .
  36. Reingold & al. (2002), p.  402.
  37. Von Staufer, Maria Hubert (2002), "Christmas in Egypt", The Christmas Archives .
  38. Reingold & al. (2002), p.  232.
  39. Reingold & al. (2002), p.  234.
  40. Reingold & al. (2002), pp. xx–xxii.
  41. Reingold & al. (2002), p. 402.
  42. Aldihisi, Sabah (2008). The story of creation in the Mandaean holy book in the Ginza Rba (PhD). University College London.

Bibliography

Preceded by Egyptian Seasons
Days over the Year
Ḥryw Rnpt

days: 5 or 6 days
Succeeded by