Ancient Egyptian units of measurement

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The ancient Egyptian units of measurement are those used by the dynasties of ancient Egypt prior to its incorporation in the Roman Empire and general adoption of Roman, Greek, and Byzantine units of measurement. The units of length seem to have originally been anthropic, based on various parts of the human body, although these were standardized using cubit rods, strands of rope, and official measures maintained at some temples.

Following Alexander the Great's conquest of Persia and subsequent death, his bodyguard and successor Ptolemy assumed control in Egypt, partially reforming its measurements, introducing some new units and hellenized names for others.

Length

File:Egyptian circle.png
Egyptian circle

Egyptian units of length are attested from the Early Dynastic Period. Although it dates to the 5th dynasty, the Palermo stone recorded the level of the Nile River during the reign of the Early Dynastic pharaoh Djer, when the height of the Nile was recorded as 6 cubits and 1 palm (about 3.217 m or 10 ft 6.7 in).[1] A Third Dynasty diagram shows how to construct an elliptical vault using simple measures along an arc. The ostracon depicting this diagram was found near the Step Pyramid of Saqqara. A curve is divided into five sections and the height of the curve is given in cubits, palms, and digits in each of the sections.[2] [3]

At some point, lengths were standardized by cubit rods. Examples have been found in the tombs of officials, noting lengths up to remen. Royal cubits were used for land measures such as roads and fields. Fourteen rods, including one double-cubit rod, were described and compared by Lepsius.[4] Two examples are known from the Saqqara tomb of Maya, the treasurer of Tutankhamun. Another was found in the tomb of Kha (TT8) in Thebes. These cubits are about 52.5 cm (20.7 in) long and are divided into palms and hands: each palm is divided into four fingers from left to right and the fingers are further subdivided into ro from right to left. The rules are also divided into hands[5] so that for example one foot is given as three hands and fifteen fingers and also as four palms and sixteen fingers.[1][3][6][7][8][5]

Cubit rod from the Turin Museum.

Surveying and itinerant measurement were undertaken using rods, poles, and knotted cords of rope. A scene in the tomb of Menna in Thebes shows surveyors measuring a plot of land using rope with knots tied at regular intervals. Similar scenes can be found in the tombs of Amenhotep-Sesi, Khaemhat and Djeserkareseneb. The balls of rope are also shown in New Kingdom statues of officials such as Senenmut, Amenemhet-Surer, and Penanhor.[2]

Units of Length[1][2]
Names Equivalents
English Egyptian Coptic Palms Digits Metric[9]
Digit[10]
Finger[11]
Fingerbreadth[10]
Tebā[12]
D50
[lower-alpha 1]
ḏb ⲧⲏⲏⲃⲉ[14][15] tēēbe 14 1 1.875 cm
Palm[10]
Hand[16]
Shesep[17]
D48
[lower-alpha 2]
šsp ϣⲟⲡ[18][15]
ϣⲟⲟⲡ[18]
ϣⲱⲡ[18]
ϣⲁⲡ[18]
shop
shoop
shōp
shap
1 4 7.5 cm
Hand[19]
Handsbreadth[17]
D46
[lower-alpha 3]
ḏrt ϩⲱϩϥ[20][21] hōhf 1+14 5 9.38 cm
Fist[17]
D49
[lower-alpha 4]
ḫf[17]
ꜣmm[13]
ϭⲁϫⲙⲏ[22]
ϫⲁⲙⲏ[22]
qajmē
jamē
1+12 6 11.25 cm
Double Handbreadth[13]
D48
D48
[lower-alpha 5]
šspwy 2 8 15 cm[13]
Small Span[17]
Pedj-Sheser
Shat Nedjes[17]
Little Shat[11]
H7G37
p šsr
šꜣt nḏs[17]
ⲣⲧⲱ[23][21]
ⲉⲣⲧⲱ[24]
rtō
ertō
3 12 22.5 cm
Great Span[17]
Half-Cubit[13]
Pedj-Aa
Shat Aa[17]
Great Shat[11]
H7O29
[lower-alpha 6]
pḏ [17][13]
šꜣt [17]
3+12 14 26 cm
Foot
Djeser[17]
Ser[12]
Bent Arm[17]
D45
ḏsr 4 16 30 cm
Shoulder
Remen[17]
Upper Arm[17]
D41
rmn 5 20 37.5 cm
Small Cubit[19]
Short Cubit[17]
Meh Nedjes[17]
D42G37
m nḏs
m šsr
ⲙⲁϩⲉ[25][15]
ⲙⲉϩⲓ[26]
mahe
mehi
6 24 45 cm
Cubit
Royal Cubit[17]
Sacred Cubit[16]
Meh Nesut[10]
Meh Nisut[17]
Mahi
Ell[25]
D42
[lower-alpha 7]
m 7 28 52.3 cm[10]
52.5 cm[16]
Pole
Nebiu[27]
N35
D58
M17V1T19
nbiw 8 32 60 cm
Rod
Rod of Cord
Stick of Rope[19]
Khet[10]
Schoinion[28]
W24G43V28
[lower-alpha 8]
ḫt ϩⲱⲧⲉ[30]
ϩⲱϯ[30]
hōte
hōti
100 cubits[10] 52.5 m[28]
Schoenus[13]
River-Measure
League[13]
Ater[10]
Iter[19] or Iteru[13]
M17X1
D21
G43N35BN36
N21 Z1
[lower-alpha 9]
i͗trw ϣϥⲱ[31]
ϣⲃⲱ[31]
shfō
shvō
20,000 cubits[10] 10.5 km[10]

The digit was also subdivided into smaller fractions of 12, 13, 14, and 116.[32] Minor units include the Middle Kingdom reed of 2 royal cubits,[lower-alpha 10] the Ptolemaic xylon (Greek: ξύλον, lit. "timber") of three royal cubits,[33][34] the Ptolemaic fathom (Greek: ὀργυιά, orgyiá; Template:Lang-egy; Coptic: ϩⲡⲟⲧ, hpot) of four lesser cubits,[35] and the kalamos of six royal cubits.[16]

Area

Records of land area also date to the Early Dynastic Period. The Palermo stone records grants of land expressed in terms of kha and setat. Mathematical papyri also include units of land area in their problems. For example, several problems in the Moscow Mathematical Papyrus give the area of rectangular plots of land in terms of setat and the ratio of the sides and then require the scribe to solve for their exact lengths.[1]

The setat was the basic unit of land measure and may originally have varied in size across Egypt's nomes.[19] Later, it was equal to one square khet, where a khet measured 100 cubits. The setat could be divided into strips one khet long and ten cubit wide (a kha).[2][1][36]

During the Old Kingdom:

Units of Area
Names Equivalents[37]
English Egyptian Coptic Setat Square
Cubits
Metric
Sa[19]
Eighth
G39
z 1800 12+12 3.4456 m2
Heseb
Fourth
Account Unit[19]
Z9
ḥsb 1400 25 6.8913 m2
Remen
Half
Shoulder[19]
D41
rmn 1200 50 13.783 m2
Ta
Khet[37]
Cubit[38]
Cubit of Land[38]
Land Cubit[13]
Ground Cubit[38]
Cubit Strip[38]
Land Unit[19]
N17
[lower-alpha 11]
t
ḫt
m
m itn
ϫⲓⲥⲉ[39][21] jise 1100 100[37] 27.565 m2
Kha
Thousand[19]
M12
110 1,000 275.65 m2
Setat[37]
Setjat[37]
Aroura[37]
Square Khet[37]
stF29t
Z4
[lower-alpha 12]
s[28]
sꜣt[37]
ⲥⲱⲧ[40][21]
ⲥⲧⲉⲓⲱϩⲉ[41][21]
sōt
steiōhe
1 10,000 2,756.5 m2

During the Middle and New Kingdom, the "eighth", "fourth", "half", and "thousand" units were taken to refer to the setat rather than the cubit strip:

Sa
Eighth
G39
[lower-alpha 13]
s 18 1,250 345 m2
Heseb
Fourth
Z9
[lower-alpha 14]
hsb
r-fdw
14 2,500 689 m2
Gs
Remen
Half
Aa13
[lower-alpha 15]
gs ⲣⲉⲣⲙⲏ[21] rermē 12 5,000 1378 m2
Kha
Thousand
M12
[lower-alpha 16]

t
10 100,000 2.76 ha

During the Ptolemaic period, the cubit strip square was surveyed using a length of 96 cubits rather than 100, although the aroura was still figured to compose 2,756.25 m2.[16] A 36 square cubit area was known as a kalamos and a 144 square cubit area as a hamma.[16] The uncommon bikos may have been 1+12 hammata or another name for the cubit strip.[16] The Coptic shipa (ϣⲓⲡⲁ) was a land unit of uncertain value, possibly derived from Nubia.[42]

Volume

A bronze capacity measure inscribed with the cartouches of the birth and throne names of Amenhotep III of the 18th Dynasty

Units of volume appear in the mathematical papyri. For example, computing the volume of a circular granary in RMP 42 involves cubic cubits, khar, heqats, and quadruple heqats.[1][8] RMP 80 divides heqats of grain into smaller henu.

Problem 80 on the Rhind Mathematical Papyrus: As for vessels (debeh) used in measuring grain by the functionaries of the granary: done into henu, 1 hekat makes 10; 12 makes 5; 14 makes 2+12; etc.[1][8]
Units of Volume[1][2]
Names Equivalents
English Egyptian Heqats Ro Metric
Ro
r
r 1320 1 0.015 L
Dja dja 116 20[43] 0.30 L
Jar
Hinu
hn
W24 V1
W22
hnw 110 32 0.48 L
Barrel
Heqat
Hekat
U9
hqt 1 320 4.8 L
Double Barrel
Double Heqat
Double Hekat
hqty 2 640 9.6 L
Quadruple Heqat (MK)[44]
Oipe[45] (NK)[44]
T14U9

ip
t
U9
hqt-fdw
jpt[19]
ipt[44]
4 1,280 19.2 L
Sack
Khar
Aa1
r
khar 20 (MK)
16 (NK)[46]
6,400 (MK)
5120 (NK)
96.5 L (MK)
76.8 L (NK)[46]
Deny
Cubic cubit
deny 30 9,600 144 L

The oipe was also formerly romanized as the apet.[47]

Weight

Green glazed faience weight discovered at Abydos, inscribed for the high steward Aabeni during the late Middle Kingdom
Serpentine weight of 10 daric, inscribed for Taharqa during the 25th Dynasty

Weights were measured in terms of deben. This unit would have been equivalent to 13.6 grams in the Old Kingdom and Middle Kingdom. During the New Kingdom however it was equivalent to 91 grams. For smaller amounts the qedet (110 of a deben) and the shematy (112 of a deben) were used.[2][8]

Units of Weight[2]
Names Equivalents
English Egyptian Debens Metric
Piece
Shematy
shȝts 112
Qedet
Kedet
Kite
Aa28X1
S106
qdt 110
Deben
D46D58N35
F46
dbn 1 13.6 g (OK & MK)
91 g (NK)

The qedet or kedet is also often known as the kite, from the Coptic form of the same name (ⲕⲓⲧⲉ or ⲕⲓϯ).[48] In 19th-century sources, the deben and qedet are often mistakenly transliterated as the uten and kat respectively, although this was corrected by the 20th century.[49]

Time

The former annual flooding of the Nile organized prehistoric and ancient Egypt into three seasons: Akhet ("Flood"), Peret ("Growth"), and Shemu or Shomu ("Low Water" or "Harvest").[50][51][52]

The Egyptian civil calendar in place by Dynasty V[53] followed regnal eras resetting with the ascension of each new pharaoh.[54] It was based on the solar year and apparently initiated during a heliacal rising of Sirius following a recognition of its rough correlation with the onset of the Nile flood.[55] It followed none of these consistently, however. Its year was divided into 3 seasons, 12 months, 36 decans, or 360 days with another 5 epagomenal days[56]—celebrated as the birthdays of five major gods[57] but feared for their ill luck[58]—added "upon the year". The Egyptian months were originally simply numbered within each season[59] but, in later sources, they acquired names from the year's major festivals[60] and the three decans of each one were distinguished as "first", "middle", and "last".[61] 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.[62] This scheme lacked any provision for leap year intercalation until the introduction of the Alexandrian calendar by Augustus in the 20s BC, causing it to slowly move through the Sothic cycle against the solar, Sothic, and Julian years.[1][3][63] Dates were typically given in a YMD format.[54]

The civil calendar was apparently preceded by an observational lunar calendar which was eventually made lunisolar[lower-alpha 17] and fixed to the civil calendar, probably in 357 BC.[66] The months of these calendars were known as "temple months"[67] and used for liturgical purposes until the closing of Egypt's pagan temples under Theodosius I[68] in the AD 390s and the subsequent suppression of individual worship by his successors.[69]

Smaller units of time were vague approximations for most of Egyptian history. Hours—known by a variant of the word for "stars"[70]—were initially only demarcated at night and varied in length. They were measured using decan stars and by water clocks. Equal 24-part divisions of the day were only introduced in 127 BC. Division of these hours into 60 equal minutes is attested in Ptolemy's 2nd-century works.

Units of Time[1][2]
Name Days
English Egyptian
hour
E34
N35
W24
X1
N14
N5
[lower-alpha 18]
wnwt variable
day
S29S29S29Z7N5
[lower-alpha 19]
sw 1
decan
decade
week
S29S29S29Z7N5V20
[lower-alpha 20]
"ten-day"
sw mḏ[80]
10
month
N11
N14
D46
N5
[lower-alpha 21]
ꜣbd 30
season
M17X1
D21
G43M6
ı͗trw[lower-alpha 22] 120
year
M4X1
Z1
[lower-alpha 23]
rnpt 365
365+14

See also

Notes

Template:Noteslist

References

Citations

  1. 1.0 1.1 1.2 1.3 1.4 1.5 1.6 1.7 1.8 1.9 Clagett (1999).
  2. 2.0 2.1 2.2 2.3 2.4 2.5 2.6 2.7 Corinna Rossi, Architecture and Mathematics in Ancient Egypt, Cambridge University Press, 2007
  3. 3.0 3.1 3.2 3.3 Englebach, Clarke (1990). Ancient Egyptian Construction and Architecture. New York: Dover. ISBN 0486264858.
  4. Lepsius (1865), pp. 57 ff.
  5. 5.0 5.1 Loprieno, Antonio (1996). Ancient Egyptian. New York: CUP. ISBN 0521448492.
  6. Gardiner, Allen (1994). Egyptian Grammar 3rd Edition. Oxford: Griffith Institute. ISBN 0900416351.
  7. 7.0 7.1 Faulkner, Raymond (1991). A Concise Dictionary of Middle Egyptian. Griffith Institute Asmolean Museum, Oxford. ISBN 0900416327.
  8. 8.0 8.1 8.2 8.3 8.4 Gillings, Richard (1972). Mathematics in the Time of the Pharaohs. MIT. ISBN 0262070456.
  9. Gardiner, §266, pp. 199–200.[3][7][8]
  10. 10.00 10.01 10.02 10.03 10.04 10.05 10.06 10.07 10.08 10.09 10.10 Clagett (1999), p. 7.
  11. 11.0 11.1 11.2 Clagett (1999), p. 9.
  12. 12.0 12.1 12.2 Lepsius (1865), p. 43.
  13. 13.00 13.01 13.02 13.03 13.04 13.05 13.06 13.07 13.08 13.09 13.10 13.11 13.12 13.13 13.14 13.15 13.16 13.17 13.18 13.19 13.20 13.21 13.22 13.23 13.24 13.25 Vygus, Mark (2015), Middle Egyptian Dictionary (PDF).
  14. Crum (1939), p. 597.
  15. 15.0 15.1 15.2 Journal of Egyptian Archaeology, Vol. IV, Egypt Exploration Fund, 1917, p. 135.
  16. 16.0 16.1 16.2 16.3 16.4 16.5 16.6 Bagnall (2009), p. 186.
  17. 17.00 17.01 17.02 17.03 17.04 17.05 17.06 17.07 17.08 17.09 17.10 17.11 17.12 17.13 17.14 17.15 17.16 17.17 17.18 17.19 Clagett (1999), p. 8.
  18. 18.0 18.1 18.2 18.3 Crum (1939), p. 574.
  19. 19.00 19.01 19.02 19.03 19.04 19.05 19.06 19.07 19.08 19.09 19.10 Dollinger, André (2012), "Counting and Measuring", Pharaonic Egypt, Reshafim.
  20. Crum (1939), p. 742.
  21. 21.0 21.1 21.2 21.3 21.4 21.5 21.6 Feder, Frank; et al., Online Coptic Dictionary, Washington: Georgetown.
  22. 22.0 22.1 Crum (1939), p. 842.
  23. Crum (1939), p. 305.
  24. Crum (1939), p. 58.
  25. 25.0 25.1 Crum (1939), p. 210.
  26. Crum (1939), p. 211.
  27. Obenga, Théophile (2004), African Philosophy: The Pharaonic Period 2780–330 BC, Per Ankh, p. 460.
  28. 28.0 28.1 28.2 Bagnall (2009), p. 185.
  29. Abd el-Mohsen Bakir (1978), Hat-'a em Sbayet r-en Kemet: An Introduction to the Study of the Egyptian Language: A Semitic Approach, General Egyptian Book Organization, p. 70.
  30. 30.0 30.1 Crum (1939), p. 722.
  31. 31.0 31.1 Crum (1939), p. 611.
  32. Lepsius (1865), p. 44.
  33. Ridgeway, William (1890), "Mensura", A Dictionary of Greek and Roman Antiquities, London: John Murray.
  34. Transactions and Proceedings, American Philological Association, 1941, p. 443.
  35. Janssen, Jozef M.A. (1956), "3997: Iversen, Erik, Canon and Proportions in Egyptian Art", Annual Egyptological Bibliography 1955, Leiden: E.J. Brill for the International Association of Egyptologists, p. 1313.
  36. Digital Egypt: Measuring area in Ancient Egypt
  37. 37.0 37.1 37.2 37.3 37.4 37.5 37.6 37.7 Clagett (1999), p. 12.
  38. 38.0 38.1 38.2 38.3 Clagett (1999), p. 13.
  39. Crum (1939), p. 790.
  40. Crum (1939), p. 360.
  41. Crum (1939), p. 367.
  42. Crum (1939), p. 570.
  43. Pommerening, T. (2003), "Altagyptische Rezepturen Netrologisch Neu Onterpretiert", Berichte zur Wissenschaftgeschichte, No. 26, p. 1–16. (in German)
  44. 44.0 44.1 44.2 "Measuring Volume in Ancient Egypt", Digital Egypt for Universities, London: University College, 2002.
  45. Allen, James P. (2014), Middle Egyptian: An Introduction to the Language and Culture of Hieroglyphics, 3rd ed., Cambridge: Cambridge University Press, p. 129, ISBN 9781139917094.
  46. 46.0 46.1 Katz, Victor J.; et al., eds. (2007), The Mathematics of Egypt, Mesopotamia, China, India, and Islam: A Sourcebook, Princeton University Press, p. 17, ISBN 978-0-691-11485-9.
  47. "Weights and Measures", Encyclopaedia Britannica, 9th ed., XXIV, 1888.
  48. Weigall (1908), p. ix.
  49. Weigall (1908), pp. iii & ix.
  50. Tetley (2014), p. 39.
  51. Winlock (1940), p. 453.
  52. Clagett (1995), p. 4–5.
  53. Clagett (1995), p. 28.
  54. 54.0 54.1 Clagett (1995), p. 5.
  55. Parker (1950), p. 23.
  56. Parker (1950), p. 7.
  57. Spalinger (1995), p. 33.
  58. Spalinger (1995), p. 35.
  59. Parker (1950), pp. 43–5.
  60. Clagett (1995), p. 14–15.
  61. Clagett (1995), p. 4.
  62. Jauhiainen (2009), p. 39.
  63. Marshall Clagett, Ancient Egyptian Science: Calendars, clocks, and astronomy, 1989
  64. Parker (1950), pp. 30–2.
  65. Tetley (2014), p. 153.
  66. Clagett (1995), p. 26.
  67. Parker (1950), p. 17.
  68. Theodosian Code 16.10.12
  69. Høyrup, p. 13.
  70. 70.0 70.1 Vygus (2015), p. 409.
  71. Vygus (2015), p. 399.
  72. Vygus (2015), p. 408.
  73. Vygus (2015), p. 410.
  74. Vygus (2015), p. 1229.
  75. Vygus (2015), p. 1239.
  76. Vygus (2015), p. 1240.
  77. Vygus (2015), p. 1984.
  78. Vygus (2015), p. 1382.
  79. 79.0 79.1 79.2 Vygus (2015), p. 1228.
  80. 80.0 80.1 80.2 Vygus (2015), p. 1880.
  81. 81.0 81.1 Vygus (2015), p. 1881.
  82. Vygus (2015), p. 1611.
  83. Vygus (2015), p. 1790.
  84. Vygus (2015), p. 1500.
  85. Vygus (2015), p. 2467.
  86. Vygus (2015), p. 1461.
  87. Vygus (2015), p. 1477.
  88. Vygus (2015), p. 1478.
  89. Vygus (2015), p. 1492.
  90. Vygus (2015), p. 1495.
  91. Vygus (2015), p. 1513.
  92. Vygus (2015), p. 1514.
  93. Vygus (2015), p. 1471.
  94. Vygus (2015), p. 75.
  95. Vygus (2015), p. 822.
  96. 96.0 96.1 Vygus (2015), p. 1233.
  97. Vygus (2015), p. 1234.
  98. Vygus (2015), p. 547.
  99. Vygus (2015), p. 1156.
  100. Vygus (2015), p. 1168.
  101. 101.0 101.1 101.2 Vygus (2015), p. 958.
  102. 102.0 102.1 Vygus (2015), p. 1167.
  103. 103.0 103.1 103.2 Vygus (2015), p. 2386.
  104. 104.0 104.1 Vygus (2015), p. 2387.
  105. Vygus (2015), p. 1085.
  106. 106.0 106.1 Vygus (2015), p. 957.
  107. Vygus (2015), p. 103.

Bibliography

External links

Template:Systems of measurement sl:Stare uteži in mere#Egipčanski sistem
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