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Ancient Egyptian units of measurement

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Ancient Egyptian units of measure include units for length, area and volume.

Length

Units of length date back to at least the early dynastic period. In the Palermo stone, for instance, the level of the Nile river is recorded. During the reign of Pharaoh Djer the height of the river Nile was given as measuring 6 cubits and 1 palm. This is equivalent to approximately 320 cm (roughly 10 feet 6 inches).

A third dynasty diagram shows how to construct an elliptical vault using simple measures along an arc. The ostracon depicting this diagram was found in the area of the Step Pyramid in Saqqara. A curve is divided into five sections and the height of the curve is given in cubits, palms and fingers in each of the sections.

Lengths could be measured by cubit rods, examples of which have been found in the tombs of officials. Fourteen such rods, including one double cubit rod, were described and compared by Lepsius in 1865. Two examples are known from the tomb of Maya – the treasurer of Tutankhamun – in Saqqara. Another was found in the tomb of Kha (TT8) in Thebes. These cubits are ca 52,5 cm long and are divided into seven palms, each palm is divided into four fingers and the fingers are further subdivided.

Cubit rod from the Turin Museum.

For longer distances, such as land measurements, the Ancient Egyptians used rope. A scene in the tomb of Menna in Thebes shows surveyors measuring a plot of land using rope with knots ties 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.

Units of Length
Name Egyptian name Equivalent Egyptian values Metric Equivalent
Royal cubit
M23t
n		 D42
 meh niswt		 1 royal cubit = 7 palms = 28 fingers c. 52.5 cm
Standard cubit
D42G36
 meh nedjes		 1 standard cubit = 6 palms = 24 fingers c. 45 cm
Remen
D41
 remen		 1 remen = 5 palms = 20 fingers c. 37.5 cm
Djeser
D44
 djeser		 1 djeser = 4 palms = 16 fingers c. 30 cm
Span (large)
H7O29
 pedj-aa		 1 large span = 3.5 palms = 14 fingers c. 25 cm
Span (small)
H7G36
 pedj-sheser		 1 small span = 3 palms = 12 fingers c. 22.5 cm
Fist 1 fist = 6 fingers c. 10.75 cm
Hand 1 hand = 5 fingers c. 9.38 cm
Palm
D48
 shesep		 1 palm = 4 fingers c. 7.5 cm
Finger
D50
 djeba		 1 finger = 1/4 palm c. 1.88 cm
Khet (rod)
M3X1Z1
 khet		 1 khet = 100 cubits c. 52.5 m
River measure
M17X1D21G43N35BN36N21 Z1
iteru		 1 iteru = 20,000 cubits c. 10.5 km

Area

The records of areas of land date back to the early mummy period. Gifts of land recorded in the Palermo stone are expressed in terms of kha, setat, etc. Further examples of units of area come from the mathematical papyri. Several problems in the Moscow Mathematical Papyrus for instance give the area of a rectangular plot of land (measured in setjats) and given a ratio for the lengths of the sides of the rectangles one is asked to compute the lengths of the sides.

The setat 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).

Units of Area
Name Egyptian name Equivalent Egyptian values Metric Equivalent
Kha-ta
V28G1X1N37M12
 kha-ta		 100,000 sq cubits 27,565 square meters
Setat (setjat)
stF29t
Z4
setat		 1 square khet = 10,000 square cubits 2,756½ square meters
Kha
M12
kha		 1000 square cubits = 1/10 setat 275.65 square meters
Ta ta 100 square cubits = 1/100 setat 27.565 square meters
Shoulder (Remen)
D41
remen		 1/2 ta = 50 square cubits 13.7 square meters
Heseb
Z9
heseb		 1/2 remen = 25 square cubits 6.8 square meters
Sa
G38
sa		 1/2 heseb = 12.5 square cubits 3.4 square meters

Volume, Capacity and Weight

Several problems in the mathematical papyri deal with volume questions. For example in RMP 42 the volume of a circular granary is computed as part of the problem and units of cubic cubits, khar, quadruple heqats and heqats are used.

Problem 80 on the Rhind Mathematical Papyrus recorded how to divide grain (measured in heqats), a topic included in RMP 42 into smaller units called henu:

Problem 80 on the Rhind Mathematical Papyrus

The text states: As for vessels (debeh) used in measuring grain by the functionaries of the granary, done into henu : 1 hekat makes 10 ; 1/2 makes 5 ; 1/4 makes 2½ etc.

Units of volume and capacity
Name Egyptian name Equivalent Egyptian values Metric Equivalent
Deny deny 1 cubic cubit
Khar (sack)
Aa1
r
khar		 20 heqat (Middle Kingdom)
16 heqat (New Kingdom) 		96.5 liters (Middle Kingdom)
76.8 liters (New Kingdom)
quadruple heqat
T14U9
hekat-fedw		 4 heqat = 40 hinu 19.2 liters
double heqat hekaty 2 heqat = 20 hinu 9.6 liters
Heqat (barrel)
U9
hekat		 10 hinu 4.8 liters
Hinu (jar)
hn
W24 V1		 W22
hnw		 1/10 heqat = 32 ro .48 liters
Dja dja 5/8 hinu = 20 ro .3 liters
Ro
r
r		 1/320 heqat .015 liters

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 kite (1/10 of a deben) and the shematy (1/12 of a deben) were used.

Units of weight
Name Egyptian name Equivalent Egyptian values Metric Equivalent
Deben
D46D58N35
F46
dbn		 13.6 grams in the Old Kingdom and Middle Kingdom.
91 grams during the New Kingdom
Kite
Aa28X1
S106
qd.t		 1/10 of a deben
Shematy shȝts 1/12 of a deben

Time

The Egyptians divided their year (rnpt) into 365 days (hrw). The Egyptian calendar had 12 months (abd) of 30 days each, plus 5 epagomenal days.

They divided their year into 3 seasons, named Akhet, Peret and Shemu. Akhet was the season of inundation. Peret was the season which saw the emergence of life after the inundation. The season of Shemu was named after the low water and included harvest time.

Units of time
Name Egyptian name Equivalent Egyptian values
hour
E34N35W24X1N14
unut		 1 day = 24 hours
day
O4D21G43N5
hrw		 1 day = 1/30 month = 24 hours
month
N11
N14		 d
abd		 1 month = 30 days
Inundation season
M8Aa1
t		 N5
akhet		 Akhet = 4 months = 120 days
Emergence season
pr
r		 t
N5
peret		 Peret = 4 months = 120 days
Harvest season
Sn
n
n		 N5
shemu		 Shemu = 4 months = 120 days
year
M4X1Z1
renpet		 1 year = 365 days

The introduction of equal length hours occurred in 127 BC. The Alexandrian scholar Claudius Ptolemaeus introduced the division of the hour into 60 minutes in the second century AD.

References

  1. ^ Clagett, Marshall (1999). Ancient Egyptian science, a Source Book. Volume Three: Ancient Egyptian Mathematics. Philadelphia: American Philosophical Society. ISBN 978-0-87169-232-0.
  2. ^ Corinna Rossi, Architecture and Mathematics in Ancient Egypt, Cambridge University Press, 2007
  3. Lepsius, Richard (1865). Die altaegyptische Elle und ihre Eintheilung (in German). Berlin: Dümmler.
  4. Digital Egypt: Measuring area in Ancient Egypt
  5. ^ Katz, Victor J. (editor),Imhausen, Annette et.al. The Mathematics of Egypt, Mesopotamia, China, India, and Islam: A Sourcebook, Princeton University Press. 2007, p 17, ISBN 978-0-691-11485-9
  6. T. Pommerening, Altagyptische Rezepturen metrologisch neu onterpretiert, Berichte zur Wissenschaftgeschichte 26 (2003) p. 1 - 16
  7. Marshall Clagett, Ancient Egyptian Science: Calendars, clocks, and astronomy, 1989

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