Template:Table:elements/lfv
Elements in Laefevian · Þiemassuirhir | |||||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | ||||||||||
1.01 H · A 1 |
Rystimmugent þiemassuirhas The Periodic Table of Elements |
4.00 He · Ao 2 | |||||||||||||||
Key · Hruftent | |||||||||||||||||
6.94 Li · Nu 3 |
9.01 Be · Du 4 |
10.81 B · Hl 5 |
12.01 C · E 6 |
14.01 N · Y 7 |
16.00 O · L 8 |
19.00 F · T 9 |
20.18 Ne · Êj 10 | ||||||||||
gurwêtessaer alkali metals |
feijwêtessaer alkaline earth metals |
dônekaer transition metals |
toerhwekaer base metals |
løikessêljir lanthanides |
|||||||||||||
22.99 Na · Ð 11 |
24.31 Mg · Br 12 |
26.98 Al · Rø 13 |
28.09 Si · Fg 14 |
30.97 P · N 15 |
32.06 S · Eh 16 |
35.45 Cl · Me 17 |
39.95 Ar · Ha 18 | ||||||||||
talekaer metalloids |
toekaer nonmetals |
njalkygwirhir halogens |
erhwarwirhir noble gases |
mêiǧessêljir actinides |
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39.10 K · G 19 |
40.08 Ca · Fe 20 |
44.96 Sc · Mk 21 |
47.90 Ti · Fh 22 |
50.94 V · Uh 23 |
52.00 Cr · Ns 24 |
54.94 Mn · En 25 |
55.85 Fe · Em 26 |
58.93 Co · Su 27 |
58.70 Ni · I/Ij 28 |
63.55 Cu · Um 29 |
65.38 Zn · Ek 30 |
69.72 Ga · Fo 31 |
72.59 Ge · Ke 32 |
74.92 As · Ap 33 |
78.96 Se · Or 34 |
79.90 Br · Sr 35 |
83.80 Kr · Fr 36 |
85.47 Rb · Uǧ 37 |
87.62 Sr · Ul 38 |
88.91 Y · Zy 39 |
91.22 Zr · Al (Alj) 40 |
92.91 Nb · Hg 41 |
95.94 Mo · Ho 42 |
96.91 Tc · Ôv 43 |
101.07 Ru · Hu 44 |
102.91 Rh · Ar 45 |
106.40 Pd · Ve 46 |
107.87 Ag · El 47 |
112.41 Cd · Hk 48 |
114.82 In · Ur 49 |
118.69 Sn · Ka 50 |
121.75 Sb · Va 51 |
127.60 Te · Hp 52 |
126.90 I · Ku 53 |
131.30 Xe · Ñø 54 |
132.91 Cs · Êþ 55 |
137.33 Ba · Žo 56 |
[57 – 71] | 178.49 Hf · Ǧž 72 |
180.95 Ta · Ag 73 |
183.85 W · Êž 74 |
186.21 Re · No 75 |
190.20 Os · Ǧw 76 |
192.22 Ir · An 77 |
195.09 Pt · Hm 78 |
196.97 Au · M 79 |
200.59 Hg · Er 80 |
204.37 Tl · Bt 81 |
207.20 Pb · Ma 82 |
208.98 Bi · Am 83 |
208.98 Po · Jf 84 |
209.99 At · Êt 85 |
222.02 Rn · Jž 86 |
223.02 Fr · Tm 87 |
226.03 Ra · He 88 |
[89 – 103] | 267.12 Rf · Vb 104 |
268.13 Db · Ǧd 105 |
269.13 Sg · Aþ 106 |
270.13 Bh · Rô 107 |
269.13 Hs · Ra 108 |
277.15 Mt · Ed 109 |
282.17 Ds · Ia 110 |
282.17 Rg · Iô 111 |
286.18 Cn · Ea 112 |
286.18 Nh · Eô 113 |
290.19 Fl · Rg 114 |
290.20 Mc · Rs 115 |
293.21 Lv · Rk 116 |
294.21 Ts · Rt 117 |
295.22 Og · Ru 118 |
138.91 La · ? 57 |
140.12 Ce · ? 58 |
140.91 Pr · ? 59 |
144.24 Nd · ? 60 |
144.91 Pm · ? 61 |
150.40 Sm · ? 62 |
151.96 Eu · ? 63 |
157.25 Gd · ? 64 |
158.93 Tb · ? 65 |
162.50 Dy · ? 66 |
164.93 Ho · ? 67 |
167.26 Er · ? 68 |
168.93 Tm · ? 69 |
173.04 Yb · ? 70 |
174.97 Lu · ? 71 | |||
227.03 Ac · ? 89 |
232.04 Th · ? 90 |
231.04 Pa · ? 91 |
238.03 U · ? 92 |
237.05 Np · ? 93 |
244.06 Pu · ? 94 |
243.06 Am · ? 95 |
247.07 Cm · ? 96 |
247.07 Bk · ? 97 |
251.08 Cf · ? 98 |
252.08 Es · ? 99 |
257.10 Fm · ? 100 |
258.10 Md · ? 101 |
259.10 No · ? 102 |
266.12 Lr · ? 103 | |||
List of element names and etymologies
Z | AM | E | English | L | Laefevian | Etymology | Notes | Mapir |
---|---|---|---|---|---|---|---|---|
1 | 1.01 | H | hydrogen | A | ažženj | *ʔard-jaŋjæ-s | toekai | |
2 | 4.00 | He | helium | Ao | augwirs | ao (sun) | erhwarwirs | |
3 | 6.94 | Li | lithium | Nu | nurnessai | nuran (stone/rock) | gurwêtessai | |
4 | 9.01 | Be | beryllium | Du | dueltessai | duelt (beryl) | feijwêtessai | |
5 | 10.81 | B | boron | Hl | hlynniand | hlynniet (borax) | talekai | |
6 | 12.01 | C | carbon | E | epur | *epurent (charcoal) (cf. erpent) | toekai | |
7 | 14.01 | N | nitrogen | Y | lynwirs | lynad (to suffocate/throttle) | toekai | |
8 | 16.00 | O | oxygen | L | letwirs | letieþ (vinegar) | toekai | |
9 | 19.00 | F | fluorine | T | toržetwirs | toržet (fluorite) < toruž (flowing) | njalkygwirs | |
10 | 20.18 | Ne | neon | Êj | êrjahwirs | Êrjas (Fire) | erhwarwirs | |
11 | 22.99 | Na | sodium | Ð | ðêllessai | ðêllit (natron) | gurwêtessai | |
12 | 24.31 | Mg | magnesium | Br | birtessai | birat (bitter) | feijwêtessai | |
13 | 26.98 | Al | aluminium | Rø | røhwessai | røhwirs (alumina) < røhwe (clay) | toerhwekai | |
14 | 28.09 | Si | silicon | Fg | figgiessai | figge (flint) | talekai | |
15 | 30.97 | P | phosphorus | N | nylgyirs | nylgad (to flash) | toekai | |
16 | 32.06 | S | sulphur | Eh | ehwars | *pe-swær- | toekai | |
17 | 35.45 | Cl | chlorine | Me | melwirs | melis (green) | njalkygwirs | |
18 | 39.95 | Ar | argon | Ha | hnagwirs | hnagis (lazy) | erhwarwirs | |
19 | 39.10 | K | potassium | G | golwessai | golwirs (potash) < golve (ash) | gurwêtessai | |
20 | 40.08 | Ca | calcium | Fe | feijwessai | feijwirs (limestone) < feij (lime) | feijwêtessai | |
21 | 44.96 | Sc | scandium | Mk | maukessai | maus (wave crest) | it has distinct light-blue line in spectral analysis | dônekai |
22 | 47.90 | Ti | titanium | Fh | fihkessai | obsolete fihkis (strong, firm) | dônekai | |
23 | 50.94 | V | vanadium | Uh | umihwessai | umis (red) | most of its salts turn red when heated | dônekai |
24 | 52.00 | Cr | chromium | Ns | nuistessai | nuisat (colourful) | produces colourful compounds | dônekai |
25 | 54.94 | Mn | manganese | En | endørhessai | endørs (magnesia nigra) | magnesia nigra is a compound that was used as black pigment | dônekai |
26 | 55.85 | Fe | iron | Em | emar | *pe-me<r>n- | dônekai | |
27 | 58.93 | Co | cobalt | Su | sumpêst | originally "cobalt blue" | an ancient blue dye, from obsolete sumpêþis (blue) | dônekai |
28 | 58.70 | Ni | nickel | I/Ij | ijand | *hed-art'- | the word itself was obsolete and it referred to some kind of alloy) | dônekai |
29 | 63.55 | Cu | copper | Um | umand | *pom-art'- | dônekai | |
30 | 65.38 | Zn | zinc | Ek | elkynd | *pe-klun-dʱó-s | dônekai | |
31 | 69.72 | Ga | gallium | Fo | foduržessai | foduruž (melting) | because it melts if held in hand | toerhwekai |
32 | 72.59 | Ge | germanium | Ke | keorðessai | keorð (dandelion) | it has a distinct yellow spectral line | talekai |
33 | 74.92 | As | arsenic | Ap | ampelj | *na-pe-me<r>l- | talekai | |
34 | 78.96 | Se | selenium | Or | oruðessai | oruð (twin) | tellurium and selenium were thought to be the same element for a long time | toekai |
35 | 79.90 | Br | bromine | Sr | surhunwirs | surhumas (to stink) | njalkygwirs | |
36 | 83.80 | Kr | krypton | Fr | fêrwirs | fêrad (to hide) | erhwarwirs | |
37 | 85.47 | Rb | rubidium | Uǧ | umoǧessai | umoǧe (red light) | it has distinct red spectral lines | gurwêtessai |
38 | 87.62 | Sr | strontium | Ul | umletessai | umis (red) + amlet (flame) | its flame test produces a very intensly bright red flame | feijwêtessai |
39 | 88.91 | Y | yttrium | Zy | zyvnwessai | zyvan (a sharp rock) | it was discovered in a piece of rock with sharp edges | dônekai |
40 | 91.22 | Zr | zirconium | Ao | ammuoljessai | ammuolj (zircon) | dônekai | |
41 | 92.91 | Nb | niobium | Hg | hrorgwessai | hro- (faux-) + argwessai (tantalum) | it was mistaken for tantalum for a long time | dônekai |
42 | 95.94 | Mo | molybdenum | Ho | hrommaond | hro- (faux-) + maond (lead) | dônekai | |
43 | 96.91 | Tc | technetium | Ôv | ôravdiessai | ôravdad (to form together) | first artificial element | dônekai |
44 | 101.07 | Ru | ruthenium | Hu | hrohmulkand | hro- (faux-) + mulkand (platinum) | isolated from platinum residue | dônekai |
45 | 102.91 | Rh | rhodium | Ar | arreltessai | arrelt (rose) | identified by its rose-red precipitate | dônekai |
46 | 106.40 | Pd | palladium | Ve | veniellessai | venis (new) + elles (silver) | dônekai | |
47 | 107.87 | Ag | silver | El | elles | *he<r>d-ece- | dônekai | |
48 | 112.41 | Cd | cadmium | Hk | hrolkynd | hro- (faux-) + elkynd (zinc) | dônekai | |
49 | 114.82 | In | indium | Ur | urôlessai | urôl (sky) | it has a lot of blue spectral lines | toerhwekai |
50 | 118.69 | Sn | tin | Ka | kaend | *kɯd-art'- | toerhwekai | |
51 | 121.75 | Sb | antimony | Va | valpanj | *wa<pa>l-(an-?) | used as black make-up paint for millennia | talekai |
52 | 127.60 | Te | tellurium | Hp | hrovvalpand | hro- (faux-) + valpanj (antimony) | talekai | |
53 | 126.90 | I | iodine | Ku | kuerǧwirs | kuerğiš (purple) | njalkygwirs | |
54 | 131.30 | Xe | xenon | Ñø | ñøbessai | ñøbis (foreign) | erhwarwirs | |
55 | 132.91 | Cs | caesium | Êþ | êþiessai | êþes (azure) | it has blue distinct blue spsectral lines; the first element to be discoverd by spectral analysis | gurwêtessai |
56 | 137.33 | Ba | barium | Žo | žoǧwessai | žoğwis (heavy) | feijwêtessai | |
57 | 138.91 | La | lanthanum | Lø | løikessai | løis (ghost) | it's like a ghost as it "hides" behind other elements | løikessêlj |
58 | 140.12 | Ce | cerium | Hn | hnweljessai | hnwelj (ochre) | it was found in ochre pigment, the first lanthanide to be discovered | løikessêlj |
59 | 140.91 | Pr | praseodymium | Þê | þêarkessai | þêarkis (light/lime green) | produces pale-green salts | løikessêlj |
60 | 144.24 | Nd | neodymium | Mô | môimiêtessai | môimiêt (pink) | produces pink salts | løikessêlj |
61 | 144.91 | Pm | promethium | Kn | kwiênteressai | kwiênterad (to bridge) | because it finally bridged the gap in the lanthanide series, being the last lanthanide to be discovered | løikessêlj |
62 | 150.40 | Sm | samarium | Sy | syrrêljessai | syrrêlad (to deceive) | discovered by spectral analysis but its spectral lines were confusing | løikessêlj |
63 | 151.96 | Eu | europium | Êg | êggamettessai | êkaggamettis (inaccessible) | it was extremely difficult to isolate it | løikessêlj |
64 | 157.25 | Gd | gadolinium | Lm | lymmessai | lym (valley) | there is a gap/valley between its green spectral lines | løikessêlj |
65 | 158.93 | Tb | terbium | Ep | empišessai | empiš (brown) | first discovered as brown precipitate | løikessêlj |
66 | 162.50 | Dy | dysprosium | Tk | tankaltwessai | tan- (from) + kaltwessai (holmium) | løikessêlj | |
67 | 164.93 | Ho | holmium | Kl | kaltwessai | kalt (wood) | discovered in a brown oxide | løikessêlj |
68 | 167.26 | Er | erbium | Hž | hjêžarressai | hjêžars (lotus) | its pink salts resemble the pink colour of lotus flowers | løikessêlj |
69 | 168.93 | Tm | thulium | Aw | anwarwessai | anwarwa (lychen) | its oxide was pale green, resembling lychens that are often pale green | løikessêlj |
70 | 173.04 | Yb | ytterbium | Th | tanhjêžarressai | tan- (from) + hjêžarressai (erbium) | løikessêlj | |
71 | 174.97 | Lu | lutetium | Td | tandwambessai | tandwambad (to avoid) | it was difficult to isolate, as if "avoiding" being discovered | løikessêlj |
72 | 178.49 | Hf | hafnium | Ǧž | ǧuavžessai | ğuavuž (missing) | it was one of the missing elements (but previously predicted | dônekai |
73 | 180.95 | Ta | tantalum | Ag | argwessai | argus (whole) | because it doesn't dissolve in acid | dônekai |
74 | 183.85 | W | tungsten | Êž | êløñžessai | êløñuž (unmelting) | dônekai | |
75 | 186.21 | Re | rhenium | No | nommessai | nom (wave) | its most prominent spectral lines resemble waves | dônekai |
76 | 190.20 | Os | osmium | Ǧw | ǧwindessai | ǧwind (smoke) | produces an ashy and smoky smell | dônekai |
77 | 192.22 | Ir | iridium | An | anwešessai | anweš (rainbow) | dônekai | |
78 | 195.09 | Pt | platinum | Hm | hmulkand | obsolete eihmulkand (white gold) | dônekai | |
79 | 196.97 | Au | gold | M | mulku | *ml̥-k(ʰ)wé- | dônekai | |
80 | 200.59 | Hg | mercury | Er | erin | *pe-rejn- | dônekai | |
81 | 204.37 | Tl | thallium | Bt | bitaressai | bitar (bud) | it has bright green spectral lines | toerhwekai |
82 | 207.20 | Pb | lead | Ma | maond | *mɯg-art'- | toerhwekai | |
83 | 208.98 | Bi | bismuth | Am | ammônd | **na-mɯg-art'- | toerhwekai | |
84 | 208.98 | Po | polonium | Jf | jôltaftessai | jôltaft (beam/ray) | talekai | |
85 | 209.99 | At | astatine | Êt | êhhualettuirs | êhhualettis (unstable) | njalkygwirs | |
86 | 222.02 | Rn | radon | Jž | jôltavžwirs | jôltavuž (glowing) | referring to its radioactivity | erhwarwirs |
87 | 223.02 | Fr | francium | Tm | tanmêiğessai | tan- (from) + mêiǧessai (actinium) | found as decay from purified actinium | gurwêtessai |
88 | 226.03 | Ra | radium | He | heltiakessai | heltias (bloody) | it has carmine (ie. blood-like) spectral lines | feijwêtessai |
89 | 227.03 | Ac | actinium | Mǧ | mêiǧessai | mêiğe (shine/sheen) | referring to its radioactivity | mêiǧessêlj |
90 | 232.04 | Th | thorium | Šø | šømpessai | šømpa (pebble) | it was discovered in a pebble | mêiǧessêlj |
91 | 231.04 | Pa | protactinium | Hǧ | hlêmmêiǧessai | hlê- (pre-) + mêiǧessai (actinium) | it appears before actinium in Uranium decay | mêiǧessêlj |
92 | 238.03 | U | uranium | Aš | almiššai | almiš (yellow) | used as yellow pigment | mêiǧessêlj |
93 | 237.05 | Np | neptunium | Uk | unkwêssiessai | un- (away) + kwêssa (gate) | it was the first transuranium element discovered, thus opening the "gate" to new elements | mêiǧessêlj |
94 | 244.06 | Pu | plutonium | Ig | iggantessai | ig- (inchoative) + gant (step) | a new step across "new gate" (= neptunium) | mêiǧessêlj |
95 | 243.06 | Am | americium | Si | sifurwessai | sifurus (orange [colour]) | among its spectral lines there is a very distinct one in the orange spectrum | mêiǧessêlj |
96 | 247.07 | Cm | curium | Sk | skwêrressai | skwêrs (gap) | there is a wide gap in its spectral lines between blue and yellow | mêiǧessêlj |
97 | 247.07 | Bk | berkelium | Tu | toumessai | to- (non-) + umis (red) | it has no red spectral lines | mêiǧessêlj |
98 | 251.08 | Cf | californium | Sô | sôntustessai | sôntust (cart track) | its spectral lines have two wide gaps, resembling a cart track | mêiǧessêlj |
99 | 252.08 | Es | einsteinium | Ñe | ñelkessai | sa (one) + ñelus (stem/stalk) | because of a single spectral line in the green spectrum | mêiǧessêlj |
100 | 257.10 | Fm | fermium | Ljp (Lp) | ljôrpaltessai | ljô- (at, along) + arpalt (side) | it was discovered alongside einsteinium | mêiǧessêlj |
101 | 258.10 | Md | mendelevium | Dñ | dihñiessai | dihñis (individual, separete) | first element to be synthesised one atom at a time | mêiǧessêlj |
102 | 259.10 | No | nobelium | Rš | rinalmiššai | rin- (de-) + almiššai (uranium) | conclusively discovered by bombardment of uranium with neon atoms | mêiǧessêlj |
103 | 266.12 | Lr | lawrencium | Us | usiggiessai | us- (behind) + igge (end) | the last actinide, so it ends the series | mêiǧessêlj |
104 | 267.12 | Rf | rutherfordium | Vb | vrubyþiessai | vrubyþad (to bombard) | homage to the process of bombardment involved in synthesising the transuranium elements | dônekai |
105 | 268.13 | Db | dubnium | Ǧd | ǧwôdessai | ǧwôda (brief period of time) | all of its isotopes have short half-lives, 16 hours being the longest | dônekai |
106 | 269.13 | Sg | seaborgium | Aþ | aihtiakessai | aiþ (breeze) | all of its isotopes have extremely short half-lives | dônekai |
107 | 270.13 | Bh | bohrium | Rô | rimmôndessai | rin- (de-) + ammônd (bismuth) | synthesised by bombardment of bismuth with chromium atoms | dônekai |
108 | 269.13 | Hs | hassium | Ra | rinmaondessai | rin- (de-) + maond (lead) | synthesised by bombardment of lead with iron atoms | dônekai |
109 | 277.15 | Mt | meitnerium | Ed | emmôndessai | emar (iron) + ammônd (bismuth) | synthetised by bombardment of bismuth with iron atoms | dônekai |
110 | 282.17 | Ds | darmstadtium | Ia | Imjaondessai | ijand (nickel) + maond (lead) | synthetised by bombardment of lead with nickel atoms | dônekai |
111 | 282.17 | Rg | roentgenium | Iô | imjôndessai | ijand (nickel) + ammônd (bismuth) | synthetised by bombardment of bismuth with nickel atoms | dônekai |
112 | 286.18 | Cn | copernicium | Ea | elkaondessai | elkynd (zinc) + maond (lead) | synthetised by bombardment of lead with zinc atoms | dônekai |
113 | 286.18 | Nh | nihonium | Eô | elmôndessai | elkynd (zinc) + ammônd (bismuth) | synthetised by bombardment of bismuth with zinc atoms | toerhwekai |
114 | 290.19 | Fl | flerovium | Rg | riniggantessai | rin- (de-) + iggantessai (plutonium) | synthetised by bombardment of plutonium with calcium atoms | toerhwekai |
115 | 290.20 | Mc | moscovium | Rs | rinsifurwessai | rin- (de-) + sifurwessai (americium) | synthetised by bombardment of americium with calcium atoms | toerhwekai |
116 | 293.21 | Lv | livermorium | Rk | rinskwêrressai | rin- (de-) + skwêrressai (curium) | synthetised by bombardment of curium with calcium atoms | toerhwekai |
117 | 294.21 | Ts | tennessine | Rt | rintounwirs | rin- (de-) + toumessai (berkelium) | synthetised by bombardment of berkelium with calcium atoms | njalkygwirs |
118 | 295.22 | Og | oganesson | Ru | rinsôntustwirs | rin- (de-) + sôntustessai (californium) | synthetised by bombardment of californium with calcium atoms | erhwarwirs |