قائمة نظم العد

There are many different numeral systems, that is, writing systems for expressing numbers.

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 By culture / time period

الاسم	Base	عينة	Approx. First Appearance
Proto-cuneiform numerals	10+60		-3500 !c. 3500–2000 BCE
Indus numerals			-3501 !c. 3500–1900 BCE
Proto-Elamite numerals	10+60		-3101 !3,100 BCE
Sumerian numerals	10+60		-3100 !3,100 BCE
Egyptian numerals	10		-3000 !3,000 BCE
Babylonian numerals	10+60		-2000 !2,000 BCE
Chinese numerals Japanese numerals Korean numerals (Sino-Korean) Vietnamese numerals (Sino-Vietnamese)	10	零一二三四五六七八九十百千萬億 (Default, Traditional Chinese) 〇一二三四五六七八九十百千万亿 (Default, Simplified Chinese) 零壹貳參肆伍陸柒捌玖拾佰仟萬億 (Financial, T. Chinese) 零壹贰叁肆伍陆柒捌玖拾佰仟萬億 (Financial, S. Chinese)	-1600 !1,600 BCE
Aegean numerals	10	𐄇 𐄈 𐄉 𐄊 𐄋 𐄌 𐄍 𐄎 𐄏  ( ) 𐄐 𐄑 𐄒 𐄓 𐄔 𐄕 𐄖 𐄗 𐄘  ( ) 𐄙 𐄚 𐄛 𐄜 𐄝 𐄞 𐄟 𐄠 𐄡  ( ) 𐄢 𐄣 𐄤 𐄥 𐄦 𐄧 𐄨 𐄩 𐄪  ( ) 𐄫 𐄬 𐄭 𐄮 𐄯 𐄰 𐄱 𐄲 𐄳  ( )	-1500 !1,500 BCE
Roman numerals		I V X L C D M	-1000 !1,000 BCE
Hebrew numerals	10	قالب:Tt	-800 !800 BCE
Indian numerals	10	Tamil ௧ ௨ ௩ ௪ ௫ ௬ ௭ ௮ ௯ ௰ Devanagari ० १ २ ३ ४ ५ ६ ७ ८ ९ Tibetan ༠ ༡ ༢ ༣ ༤ ༥ ༦ ༧ ༨ ༩	-750 !750–690 BCE
Bengali numerals	10	০ ১ ২ ৩ ৪ ৫ ৬ ৭ ৮ ৯	-500 !500 BCE
Greek numerals	10	ō α β γ δ ε ϝ ζ η θ ι ο Αʹ Βʹ Γʹ Δʹ Εʹ Ϛʹ Ζʹ Ηʹ Θʹ	-400 !<400 BCE
Phoenician numerals	10	𐤙 𐤘 𐤗 𐤛𐤛𐤛 𐤛𐤛𐤚 𐤛𐤛𐤖 𐤛𐤛 𐤛𐤚 𐤛𐤖 𐤛 𐤚 𐤖 [1]	-250 !<250 BCE[2]
Chinese rod numerals	10	𝍠 𝍡 𝍢 𝍣 𝍤 𝍥 𝍦 𝍧 𝍨 𝍩	1 !1st Century
Ge'ez numerals	10	፩ ፪ ፫ ፬ ፭ ፮ ፯ ፰ ፱ ፲ ፳ ፴ ፵ ፶ ፷ ፸ ፹ ፺ ፻	200 !3rd–4th Century 15th Century (Modern Style)[3]
Armenian numerals	10	Ա Բ Գ Դ Ե Զ Է Ը Թ Ժ	400 !Early 5th Century
Khmer numerals	10	០ ១ ២ ៣ ៤ ៥ ៦ ៧ ៨ ៩	600 !Early 7th Century
Thai numerals	10	๐ ๑ ๒ ๓ ๔ ๕ ๖ ๗ ๘ ๙	601 !7th Century[4]
Abjad numerals	10	غ ظ ض ذ خ ث ت ش ر ق ص ف ع س ن م ل ك ي ط ح ز و هـ د ج ب ا	699 !<8th Century
Eastern Arabic numerals	10	٩ ٨ ٧ ٦ ٥ ٤ ٣ ٢ ١ ٠	701 !8th Century
Vietnamese numerals (Chữ Nôm)	10	𠬠 𠄩 𠀧 𦊚 𠄼 𦒹 𦉱 𠔭 𠃩	799 !<9th Century
Western Arabic numerals	10	0 1 2 3 4 5 6 7 8 9	801 !9th Century
Glagolitic numerals	10	Ⰰ Ⰱ Ⰲ Ⰳ Ⰴ Ⰵ Ⰶ Ⰷ Ⰸ ...	800 !9th Century
Cyrillic numerals	10	а в г д е ѕ з и ѳ і ...	900 !10th Century
Rumi numerals	10		900 !10th Century
Burmese numerals	10	၀ ၁ ၂ ၃ ၄ ၅ ၆ ၇ ၈ ၉	1000 !11th Century[5]
Tangut numerals	10	𘈩 𗍫 𘕕 𗥃 𗏁 𗤁 𗒹 𘉋 𗢭 𗰗	1036 !11th Century (1036)
Cistercian numerals	10		1200 !13th Century
Maya numerals	5+20		1400 !<15th Century
Muisca numerals	20		1399 !<15th Century
Korean numerals (Hangul)	10	하나 둘 셋 넷 다섯 여섯 일곱 여덟 아홉 열	1443 !15th Century (1443)
Aztec numerals	20		1500 !16th Century
Sinhala numerals	10	෦ ෧ ෨ ෩ ෪ ෫ ෬ ෭ ෮ ෯ 𑇡 𑇢 𑇣 𑇤 𑇥 𑇦 𑇧 𑇨 𑇩 𑇪 𑇫 𑇬 𑇭 𑇮 𑇯 𑇰 𑇱 𑇲 𑇳 𑇴	1699 !<18th Century
Pentadic runes	10		1800 !19th Century
Cherokee numerals	10		1820 !19th Century (1820s)
Kaktovik numerals	5+20		1994 !20th Century (1994)

 By type of notation

Numeral systems are classified here as to whether they use positional notation (also known as place-value notation), and further categorized by radix or base.

 Standard positional numeral systems

A binary clock might use LEDs to express binary values. In this clock, each column of LEDs shows a binary-coded decimal numeral of the traditional sexagesimal time.

The common names are derived somewhat arbitrarily from a mix of Latin and Greek, in some cases including roots from both languages within a single name.^[6] There have been some proposals for standardisation.^[7]

 Non-standard positional numeral systems

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 Bijective numeration

 Signed-digit representation

 Negative bases

The common names of the negative base numeral systems are formed using the prefix nega-, giving names such as:

 Complex bases

Base	Name	Usage
2i	Quater-imaginary base	related to base −4 and base 16
${\displaystyle {\sqrt {2}}i}$	Base ${\displaystyle {\sqrt {2}}i}$	related to base −2 and base 4
${\displaystyle {\sqrt[{4}]{2}}i}$	Base ${\displaystyle {\sqrt[{4}]{2}}i}$	related to base 2
${\displaystyle 2\omega }$	Base ${\displaystyle 2\omega }$	related to base 8
${\displaystyle {\sqrt[{3}]{2}}\omega }$	Base ${\displaystyle {\sqrt[{3}]{2}}\omega }$	related to base 2
−1 ± i	Twindragon base	Twindragon fractal shape, related to base −4 and base 16
1 ± i	Nega-Twindragon base	related to base −4 and base 16

 Non-integer bases

Base	Name	Usage
${\displaystyle {\frac {3}{2}}}$	Base ${\displaystyle {\frac {3}{2}}}$	a rational non-integer base
${\displaystyle {\frac {4}{3}}}$	Base ${\displaystyle {\frac {4}{3}}}$	related to duodecimal
${\displaystyle {\frac {5}{2}}}$	Base ${\displaystyle {\frac {5}{2}}}$	related to decimal
${\displaystyle {\sqrt {2}}}$	Base ${\displaystyle {\sqrt {2}}}$	related to base 2
${\displaystyle {\sqrt {3}}}$	Base ${\displaystyle {\sqrt {3}}}$	related to base 3
${\displaystyle {\sqrt[{3}]{2}}}$	Base ${\displaystyle {\sqrt[{3}]{2}}}$
${\displaystyle {\sqrt[{4}]{2}}}$	Base ${\displaystyle {\sqrt[{4}]{2}}}$
${\displaystyle {\sqrt[{12}]{2}}}$	Base ${\displaystyle {\sqrt[{12}]{2}}}$	usage in 12-tone equal temperament musical system
${\displaystyle 2{\sqrt {2}}}$	Base ${\displaystyle 2{\sqrt {2}}}$
${\displaystyle -{\frac {3}{2}}}$	Base ${\displaystyle -{\frac {3}{2}}}$	a negative rational non-integer base
${\displaystyle -{\sqrt {2}}}$	Base ${\displaystyle -{\sqrt {2}}}$	a negative non-integer base, related to base 2
${\displaystyle {\sqrt {10}}}$	Base ${\displaystyle {\sqrt {10}}}$	related to decimal
${\displaystyle 2{\sqrt {3}}}$	Base ${\displaystyle 2{\sqrt {3}}}$	related to duodecimal
φ	Golden ratio base	Early Beta encoder[33]
ρ	Plastic number base
ψ	Supergolden ratio base
${\displaystyle 1+{\sqrt {2}}}$	Silver ratio base
e	Base ${\displaystyle e}$	Lowest radix economy
π	Base ${\displaystyle \pi }$
eπ	Base ${\displaystyle e\pi }$
${\displaystyle e^{\pi }}$	Base ${\displaystyle e^{\pi }}$

 n-adic number

 Mixed radix

• Factorial number system {1, 2, 3, 4, 5, 6, ...}
• Even double factorial number system {2, 4, 6, 8, 10, 12, ...}
• Odd double factorial number system {1, 3, 5, 7, 9, 11, ...}
• Primorial number system {2, 3, 5, 7, 11, 13, ...}
• Fibonorial number system {1, 2, 3, 5, 8, 13, ...}
• {60, 60, 24, 7} in timekeeping
• {60, 60, 24, 30 (or 31 or 28 or 29), 12, 10, 10, 10} in timekeeping
• (12, 20) traditional English monetary system (£sd)
• (20, 18, 13) Maya timekeeping

 Other

• Quote notation
• Redundant binary representation
• Hereditary base-n notation
• Asymmetric numeral systems optimized for non-uniform probability distribution of symbols
• Combinatorial number system

 Non-positional notation

All known numeral systems developed before the Babylonian numerals are non-positional,^[34] as are many developed later, such as the Roman numerals. The French Cistercian monks created their own numeral system.

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