Everything about Greek Numeral totally explained
:
ʹ, the numeral sign, redirects here. For the accent, ´, see acute accent.
Greek numerals are a
system of representing numbers using letters of the
Greek alphabet. They are also known by the names
Milesian numerals,
Alexandrian numerals, or
alphabetic numerals. In modern
Greece, they're still in use for
ordinal numbers, and in much the same situations as
Roman numerals are in the West; for ordinary (
cardinal) numbers,
Hindu-Arabic numerals are used.
Originally, before the adoption of the Greek alphabet,
Linear A and
Linear B had used a different system with symbols for 1, 10, 100, 1000 and 10000 operating with the following formula: | = 1, – = 10, ◦ = 100, ¤ = 1000, ☼ = 10000.
The earliest alphabet-related system of numerals used with the Greek letters was a set of the
acrophonic Attic numerals, operating much like Roman numerals (which derived from this scheme), with the following formula: Ι = 1, Π = 5, Δ = 10, ΠΔ = 50, Η = 100, ΠΗ = 500, Χ = 1000, ΠΧ = 5000, Μ = 10000 and ΠΜ = 50000.
The acrophonic system was replaced by a new alphabetic system, sometimes called the Ionic numeral system, from the
4th century BC. Each unit (1, 2, …, 9) was assigned a separate letter, each tens (10, 20, …, 90) a separate letter, and each hundreds (100, 200, …, 900) a separate letter. This requires 27 letters, so the 24-letter Greek alphabet was extended by using three obsolete letters:
digamma ϝ,(also used are
stigma ϛ or, in modern Greek, στ) for 6,
qoppa ϟ for 90, and
sampi ϡ for 900.. To distinguish numerals from letters they're followed by the "keraia" (Greek
κεραῖα — insect antenna), a symbol similar to an acute sign (
Unicode U+0374).
This alphabetic system operates on the additive principle in which the numeric values of the letters are added together to form the total. For example, 241 is represented as σμαʹ (200 + 40 + 1).
To represent numbers from 1,000 to 999,999 the same letters are reused to serve as thousands, tens of thousands, and hundreds of thousands. A "left keraia" (Unicode U+0375, ‘Greek Lower Numeral Sign’) is put in front of thousands to distinguish them from the standard use. For example, 2008 is represented as ͵βηʹ (2000 + 8).
In
modern Greek, uppercase letters are preferred, as in Φίλιππος Βʹ =
Philip II.
Higher numbers
The Greeks also used the
myriad to denote 10,000 (Μʹ) and the myriad myriad for one hundred million (ΜΜʹ). In his text
The Sand Reckoner the natural philosopher
Archimedes proposed advanced ways to name very high numbers, such as the number of grains of sand on a beach, and the number of grains of sand on all the beaches on all the worlds in the universe.
| Decimal |
Symbol |
Greek numeral |
| 1 |
Ι |
ἴος (ios) |
| 5 |
Π |
πέντε (pente) |
| 10 |
Δ |
δέκα (deka) |
| 100 |
Η |
hεκατόν (hekaton) |
| 1000 |
Χ |
χίλιοι (khilioi) |
| 10000 |
Μ |
μύριοι (myrioi) |
Hellenistic zero
Hellenistic astronomers extended alphabetic Greek numerals into a
sexagesimal positional numbering system by limiting each position to a maximum value of 50 + 9 and including a special symbol for
zero, which was also used alone like our modern zero, more than as a simple placeholder. However, the positions were usually limited to the fractional part of a number (called
minutes, seconds, thirds, fourths, etc.) — they were not used for the
integral part of a number. This system was probably adapted from
Babylonian numerals by
Hipparchus c.
140 BC. It was then used by
Ptolemy (c.
140),
Theon (c.
380), and Theon's daughter
Hypatia (died
415).
The Greek sexagesimal place holder or zero symbol changed over time. The symbol used on
papyri during the
second century was a very small circle with an overbar several diameters long, terminated or not at both ends in various ways. Later, the overbar shortened to only one diameter, similar to our modern o macron (ō) which was still being used in late medieval Arabic manuscripts whenever alphabetic numerals were used. But the overbar was omitted in
Byzantine manuscripts, leaving a bare ο (omicron). This gradual change from an invented symbol to ο doesn't support the hypothesis that the latter was the initial of ουδέν meaning "nothing".
Some of Ptolemy's true zeros appeared in the first line of each of his eclipse tables, where they were a measure of the angular separation between the center of the
Moon and either the center of the
Sun (for
solar eclipses) or the center of
Earth's shadow (for
lunar eclipses). All of these zeros took the form 0 | 0 0, where Ptolemy actually used three of the symbols described in the previous paragraph. The vertical bar (|) indicates that the integral part on the left was in a separate column labeled in the headings of his tables as
digits (of five arc-minutes each), whereas the fractional part was in the next column labeled
minutes of immersion, meaning sixtieths (and thirty-six-hundredths) of a digit.
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