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Chemical_elements_in_East_Asian_languages

Chemical elements in East Asian languages

The names for chemical elements in East Asian languages, along with those for some chemical compounds (mostly organic), are among the newest words to enter the local vocabularies. Except for those metals well-known since antiquity, most elements had their names created after modern chemistry was introduced to East Asia in the 18th and 19th century, with more translations being coined for those element discovered later (see Discoveries of the chemical elements).

While most East Asian languages use--or had used--the Chinese script, only the Chinese use the characters as the predominant way of naming elements. On the other hand, the Japanese and Koreans primarily employ native alphabets for the names of the elements (Katakana and Hangul, respectively).

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1 Chinese
2 Japanese
- 2.1 Native names
- 2.2 Meaning-based names
3 Korean
4 Vietnamese

Chinese

In Chinese, characters for the elements are the last officially created and recognized characters in the Chinese writing system. Unlike those characters for dialectal usage (e.g., written Cantonese) or other now-defunct ad hoc characters (e.g., the those by the Empress Wu), the names for the elements are official, consistent, and taught (with Mandarin pronunciation) to every Chinese and Taiwanese who has attended public schools (usually by the first year of middle school).

Native characters

Some metallic elements were already familiar to the Chinese, as their ores were already excavated and used extensively in China for construction, alchemy, and medicine. These include the traditional "Five Metals" (五金)--gold (金), silver (銀), copper (銅), iron (鐵), and tin (錫)--as well as lead (鉛) and mercury (汞).

Some non-metals were already named in Chinese as well, because their minerals were in wide-spread use. For example,

carbon (炭) in the form of charcoal
boron (硼) as part of borax
sulfur (硫) had been used to make gunpowder since at least the 10th century in China.

European Pronunciation-based Characters

Most elements, however, remained unknown to the Chinese until they were isolated during the Industrial Age. These new elements therefore needed new characters be made for them. New characters were invented using the phono-semantic principle. Each character consists of two parts, to signify the meaning and to hint at the sound:

The semantic (meaning) part is also the radical of the character. It refers to the element's usual state at room temperature and standard pressure. There are only four radicals used for elements: 釒/钅 (jīn "gold") for metals, 石 (shí "stone") for solid non-metals, 石 shí ("stone"); 水/氵 (shuǐ "water") for liquids; and 气 (qì air") for gases.
The phonetic (sound) part represents the character's pronunciation and is a partial transliteration of the element. For each element character, this is a unique phonetic component. Since there are over 100 elements already discovered, there are over 100 different phonentic components used in naming the elements.

Exampes of characters derived from European pronunciations
Semantic	Phonetic	Element	Source
金 +	里 lǐ	= 鋰 (lǐ)	lithium
金 +	甲 jiǎ	= 鉀 (jiǎ)	kalium, Latin name for potassium
金 +	內 nèi	= 鈉 (nà)*	natrium, Latin name for sodium
金 +	弟 tì or dì	= 銻 (tì)*	antimony
金 +	臬 niè	= 鎳 (niè)	nickel
金 +	鬲 gé	= 鎘 (gé)	cadmium
金 +	烏 wū	= 鎢(wù)*	Wolfram, German name for tungsten
金 +	必 bì	= 鉍 (bì)	bismuth
金 +	由 yóu	= 鈾 (yóu)	uranium
金 +	呂 lǚ	= 鋁 (lǚ)	aluminum
石 +	典 diǎn	= 碘 (diǎn)	iodine
气 +	亥 hài	= 氦 (hài)	helium
气 +	弗 fú	= 氟 (fú)	fluorine
气 +	乃 nǎi	= 氖 (nǎi)	neon
*where the derived pronunciation differs (in tone or in sound)

The "water" radical (水) is rarely used, since only two elements (bromine and mercury) are truly liquid at standard room temperature and pressure (see List of elements by melting point). Both of their characters are not based on the European pronunciation of the elements' names. Bromine (溴), the only liquid nonmetal at room temperature, is explained in the following section. Mercury (汞), now grouped with the heavy metals, was long classified as a kind of fluid in ancient China.

Meaning-based Characters

A few characters, though, are not created using the above "semantic-phonetic" design, but are "semantic-semantic", that is, both of its parts indicate meanings. One part refers to the element's usual state (like the semantic-phonetic characters). However, the second part indicates some additional property or function of the element. Such elements are:

Semantic	Semantic	Element	English	Note
金 +	白 (white)	= 鉑 bó^†	platinum	The original meaning of 鉑 is "thin sheet of gold" (now obsolete). The character was not associated with platinum until modern time, since the element was known in the Old World only after the Age of Discovery
氵 +	臭 (stinky)	= 溴 xiù^†	bromine	odorous (brómos in Greek also means "stench")
气 +	羊, short for 養 (to nourish/foster)	= 氧 yǎng^‡	oxygen	A continuous supply of oxygenated air nourishes almost all animals
气 +	巠, short for 輕 (light-weight)	= 氫 qīng	hydrogen	the lightest of all elements
气 +	彔, short for 綠 (green)	= 氯 lǜ	chlorine	greenish yellow in color
气 +	炎, short for 淡 (diluted)	= 氮 dàn^‡	nitrogen	"dilutes" breathable air
石 +	粦, short for 燐 (glow)	= 磷 lín	phosphorous	emits a faint glow at dark
† These are the source characters' older alternate--but now almost obsolete--pronunciation. Nowadays 白 is normally pronounced bái in the standard Mandarin dialect, although traditionally bó was preferred. Similarly, 臭 is almost always pronounced chòu, as opposed to xiù, a now-archaic reading. ‡ Regarding the seeming mismatch in pronunciation: Note that the ultimate source of 氧 (yǎng) is not 羊 (yáng) but 養 (yǎng). Likewise, 氮 (dàn) traces its true origin to 淡 (dàn), not 炎 (yán).

Notes

Taiwan vs. Mainland names
francium	87	鍅 fǎ	钫 fāng
neptunium	93	錼 nài	镎 ná
plutonium	94	鈽 bù	钚 bù
americium	95	鋂 měi	镅 méi
californium	98	鉲 kǎ	锎 kāi
einsteinium	99	鑀 ài	锿 āi

A minority of the "new characters" are not actually new inventions, or rather, they happen to coincide with archaic characters, whose original meanings have long been lost to most people. For example, 鏷 (protactinium), 鈹 (beryllium) and 鉻 (chromium) are obscure characters meaning "raw iron," "needle," and "hook," respectively.

The majority of the elements' names are the same in Simplified Chinese and Traditional Chinese, merely being variants of each other, since most of the names were translated by a single body of standardization prior to the PRC-ROC split. However, since francium and the transuranium elements were discovered during or after the split, they have different names in Taiwan and in Mainland China.

Tables

Many operating systems and web browsers do not support the display of some of the newer elements, since the characters for elements with atomic numbers 104 and above were only added in Unicode 3.1 (2001) as surrogate pairs that are part of the CJK Ideographs Extension B character set. They are thus displayed twice in the traditional characters table below, as both the surrogate pair characters themselves and as combinations of phonetic components. Simplified characters for elements 104 and above have not been encoded as of Unicode 4.1 (2005) and are thus given only as combinations of phonetic components in the simplified characters table below.

Chemical Series of the Periodic Table
Alkali metals	Alkaline earths	Lanthanide	Actinides	Transition metals
Poor metals	Metalloids	Nonmetals	Halogens	Noble gases

Color coding for atomic numbers:

Elements numbered in blue are liquids at room temperature;
those in green are gases at room temperature;
those in black are solid at room temperature;
those in red are synthetic and do not occur naturally (all are solid at room temperature).
those in gray have not yet been discovered (they also have muted fill colors indicating the likely chemical series they would fall under).

Simplified Chinese

1
H
氢

2
He
氦

3
Li
锂

4
Be
铍

5
B
硼

6
C
碳

7
N
氮

8
O
氧

9
F
氟

10
Ne
氖

11
Na
钠

12
Mg
镁

13
Al
铝

14
Si
硅

15
P
磷

16
S
硫

17
Cl
氯

18
Ar
氩

19
K
钾

20
Ca
钙

21
Sc
钪

22
Ti
钛

23
V
钒

24
Cr
铬

25
Mn
锰

26
Fe
铁

27
Co
钴

28
Ni
镍

29
Cu
铜

30
Zn
锌

31
Ga
镓

32
Ge
锗

33
As
砷

34
Se
硒

35
Br
溴

36
Kr
氪

37
Rb
铷

38
Sr
锶

39
Y
钇

40
Zr
锆

41
Nb
铌

42
Mo
钼

43
Tc
锝

44
Ru
钌

45
Rh
铑

46
Pd
钯

47
Ag
银

48
Cd
镉

49
In
铟

50
Sn
锡

51
Sb
锑

52
Te
碲

53
I
碘

54
Xe
氙

55
Cs
铯

56
Ba
钡

镧
系

71
Lu
镥

72
Hf
铪

73
Ta
钽

74
W
钨

75
Re
铼

76
Os
锇

77
Ir
铱

78
Pt
铂

79
Au
金

80
Hg
汞

81
Tl
铊

82
Pb
铅

83
Bi
铋

84
Po
钋

85
At
砹

86
Rn
氡

87
Fr
钫

88
Ra
镭

锕
系

103
Lr
铹

104
Rf
钅卢

105
Db
钅杜

106
Sg
钅喜

107
Bh
钅波

108
Hs
钅黑

109
Mt
钅麦

110
Ds
钅达

111
Rg
钅仑

112
Uub

113
Uut

114
Uuq

115
Uup

116
Uuh

117
Uus

118
Uuo

镧系元素

57
La
镧

58
Ce
铈

59
Pr
镨

60
Nd
钕

61
Pm
钷

62
Sm
钐

63
Eu
铕

64
Gd
钆

65
Tb
铽

66
Dy
镝

67
Ho
钬

68
Er
铒

69
Tm
铥

70
Yb
镱

锕系元素

89
Ac
锕

90
Th
钍

91
Pa
镤

92
U
铀

93
Np
镎

94
Pu
钚

95
Am
镅

96
Cm
锔

97
Bk
锫

98
Cf
锎

99
Es
锿

100
Fm
镄

101
Md
钔

102
No
锘

View as an image

Traditional Chinese

1
H
氫

2
He
氦

3
Li
鋰

4
Be
鈹

5
B
硼

6
C
碳

7
N
氮

8
O
氧

9
F
氟

10
Ne
氖

11
Na
鈉

12
Mg
鎂

13
Al
鋁

14
Si
矽

15
P
磷

16
S
硫

17
Cl
氯

18
Ar
氬

19
K
鉀

20
Ca
鈣

21
Sc
鈧

22
Ti
鈦

23
V
釩

24
Cr
鉻

25
Mn
錳

26
Fe
鐵

27
Co
鈷

28
Ni
鎳

29
Cu
銅

30
Zn
鋅

31
Ga
鎵

32
Ge
鍺

33
As
砷

34
Se
硒

35
Br
溴

36
Kr
氪

37
Rb
銣

38
Sr
鍶

39
Y
釔

40
Zr
鋯

41
Nb
鈮

42
Mo
鉬

43
Tc
鎝

44
Ru
釕

45
Rh
銠

46
Pd
鈀

47
Ag
銀

48
Cd
鎘

49
In
銦

50
Sn
錫

51
Sb
銻

52
Te
碲

53
I
碘

54
Xe
氙

55
Cs
銫

56
Ba
鋇

鑭
系

71
Lu
鎦

72
Hf
鉿

73
Ta
鉭

74
W
鎢

75
Re
錸

76
Os
鋨

77
Ir
銥

78
Pt
鉑

79
Au
金

80
Hg
汞

81
Tl
鉈

82
Pb
鉛

83
Bi
鉍

84
Po
釙

85
At
砈

86
Rn
氡

87
Fr
鍅

88
Ra
鐳

錒
系

103
Lr
鐒

104
Rf
鑪

105
Db
𨧀

106
Sg
𨭎

107
Bh
𨨏

108
Hs
𨭆

109
Mt
䥑

110
Ds
鐽

111
Rg
錀

112
Uub

113
Uut

114
Uuq

115
Uup

116
Uuh

117
Uus

118
Uuo

Lanthanides
鑭系元素

57
La
鑭

58
Ce
鈰

59
Pr
鐠

60
Nd
釹

61
Pm
鉕

62
Sm
釤

63
Eu
銪

64
Gd
釓

65
Tb
鋱

66
Dy
鏑

67
Ho
鈥

68
Er
鉺

69
Tm
銩

70
Yb
鐿

Actinides
錒系元素

89
Ac
錒

90
Th
釷

91
Pa
鏷

92
U
鈾

93
Np
錼

94
Pu
鈽

95
Am
鋂

96
Cm
鋦

97
Bk
鉳

98
Cf
鉲

99
Es
鑀

100
Fm
鐨

101
Md
鍆

102
No
鍩

View as an image

Japanese

Even though the Japanese languages also uses the Chinese characters (the Kanji), it primarily employs Katakana to transliterate names of the elements from European languages (often but not always English). For example,

English	Japanese	Note
antimony	antimon (アンチモン)	the lack of the final vowel (y would've become i) is likely due to its origin from Dutch (Antimoon) (see also: Sakoku)
tungsten	tangusuten (タングステン)	from English; other major European languages refer to this element as wolfram or tungsten with some additional syllable (-o, -e, etc).
sodium	natoriumu (ナトリウム)	natrium in Latin

Native names

On the other hand, elements known since antiquity are Chinese loanwords, which are mostly identical to their Chinese counterparts (see above), albeit in the Shinjitai and native reading, for example, iron is tetsu (鉄) and lead is namari (鉛). Whereas all elements in Chinese are single-character in the official system, some Japanese elements have two syllables, .e.g.,

English	Japanese	Chinese	Note
mercury	suigin (水銀)	gong (汞)	literally meaning "watery silver", like the element's symbol, Hg (Latin for hydro-argyrum), signifies.
sulfur	iō (硫黄)	liu (硫)	ō (黄) indicates sulfur's typical yellow color
zinc	a-en (亜鉛)	xin (鋅)	meaning "lesser lead", with lead being 鉛 in both Japanese and Chinese

Some elements with names written in Kanji have the suffix -so (素), meaning "element/component". For instance, arsenic is hiso (ヒ素 "hi element") in modern Japanese. The name hi (ヒ) is derived from hishima, the Chinese name for crystalline white arsenic (砒霜 "bi frosts"). In modern Chinese, however, arsenic is now simply shen (砷), being an approximation of the second syllable of the element's European name (-sen-). Likewise, although boron is written in katakana now (ホウ素 hōso), its origin is Chinese. Hō (ホウ) is derived from housa, the Chinese name for borax, the "peng sands" (硼砂). Boron is still called peng in modern Chinese.

Meaning-based names

Furthermore, a few of the pre-modern elements from the 18th century also have Kanji names, though sometimes drastically different from their Chinese counterparts. The following comparison shows that Japanese does not use the radical system for naming elements like Chinese.

English	Japanese	Chinese	Note
platinum	hakkin (白金 "white gold")	鉑	similar to Chinese
bromine	shuuso (臭素 "the stinky element")	溴	similar to Chinese, except the lack of the "water" radical
oxygen	sanso (酸素 "acid's component")	氧	similar to the German word for oxygen, Sauerstoff ("sour substance"). Many 19th-century European chemists erroneously believed that all acids contain oxygen. (Many common ones do, but not all.)
hydrogen	suiso (水素 "water's component")	氫	translation of the hydro- prefix
chlorine	enso (塩素 "salt's component")	氯	it and sodium make up common table salt (NaCl); 塩 is the Shinjitai version of 鹽.
nitrogen	chisso (窒素 "the suffocating element")	氮	air that is purely nitrogen is toxic to all mammals

Korean

As the Hanja (Sino-Korean characters) are now rarely used in Korea, all of the elements are written in Hangul. Since much of the Korean scientific terms were translated from Japanese sources, the pattern of naming is mostly similar to that of Japanese, namely, the classical elements are loanwords from China, with new elements from European language. For example:

English	Korean	Source
silver	eun (은)	from the Chinese yin (銀)
antimony	antimoni (안티모니)	from English
tungsten	teongseuten (텅스텐)	from English
sodium	nateuryum (나트륨)	from Latin (Na for natrium)

Pre-modern (18th-century) elements often are the Korean pronunciation of their Japanese equivalents, e.g.,

English	Korean (Hangul, Hanja)
hydrogen	suso (수소, 水素)
nitrogen	jilso (질소, 窒素)
chlorine	yeumso (염소, 鹽素)

Vietnamese

Some of the metals known since antiquity are loanwords from Chinese, such as copper (Đồng from 銅), lead (Chì from 鉛), tin (Thiếc from 錫), and mercury (thuỷ ngân from 水銀). Others have native Vietnamese readings, such as Sắt for iron, Bạc for silver, and Vàng for gold. In either case, nowadays they are always written in the Vietnamese alphabet.

The majority of elements are shortened and localized pronunciation of the European names (usually from French). For example:

Phosphorus becomes phốtpho.
The -ine suffix is lost, e.g., chlorine, iodine and fluorine become clo, iốt and flo, respectively.
The -ium suffix is lost, e.g., caesium becomes xêzi (pronounced [sezi]), clearly indicating the French origin of the word (césium is prounounced [sezium])
- Similarly, beryllium, chromium, lithium and natrium (sodium) become berili, crôm, liti, and natri, respectively
The -gen suffix is lost, e.g., nitrogen, oxygen and hydrogen become nitơ, ôxy and hiđrô, respectively

A minority of elements without--or with etymologically unclear--suffixes retain their full name, e.g.,

Tungsten (aka wolfram) become volfram.
Bismuth become bitmut.
Elements with the -on suffix (noble gases) seem to be inconsistent. Boron and silicon are respectively shortened to bo and silic. On the other hand, neon, krypton and xenon don't seem to have shorter forms.
Unlike the other halogens, astatine retains its suffix (astatin in Vietnamese).

Some elements have multiple names, for instance, potassium is known as pô tát (from English) and kali (from kalium, the element's Latin name).

This article is licensed under the GNU Free Documentation License. It uses material from the Wikipedia article "Chemical_elements_in_East_Asian_languages". A list of authors is available in Wikipedia.