Template:Table:elements/lfv: Difference between revisions

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

Revision as of 15:21, 6 August 2023

Elements in Laefevian · Þiemassuirhir  
1 2 3 4 5 6 7 8
1.01
H · ?
1 		Rystimmugent þiemassuirhas
The Periodic Table of Elements 		4.00
He · ?
2
Key · Hruftent
6.94
Li · ?
3 		9.01
Be · ?
4 		10.81
B · ?
5 		12.01
C · ?
6 		14.01
N · ?
7 		16.00
O · ?
8 		19.00
F · ?
9 		20.18
Ne · ?
10
gurwêtessaer
alkali metals 		feijwêtessaer
alkaline earth metals 		dônekaer
transition metals 		ekaer
base metals 		løikessêljir
lanthanides
22.99
Na · ?
11 		24.31
Mg · ?
12 		26.98
Al · ?
13 		28.09
Si · ?
14 		30.97
P · ?
15 		32.06
S · ?
16 		35.45
Cl · ?
17 		39.95
Ar · ?
18
talekaer
metalloids 		toekaer
nonmetals 		njalkygwirhir
halogens 		erhwarwirhir
noble gases 		mêiǧessêljir
actinides
39.10
K · ?
19 		40.08
Ca · ?
20 		44.96
Sc · ?
21 		47.90
Ti · ?
22 		50.94
V · ?
23 		52.00
Cr · ?
24 		54.94
Mn · ?
25 		55.85
Fe · ?
26 		58.93
Co · ?
27 		58.70
Ni · ?
28 		63.55
Cu · ?
29 		65.38
Zn · ?
30 		69.72
Ga · ?
31 		72.59
Ge · ?
32 		74.92
As · ?
33 		78.96
Se · ?
34 		79.90
Br · ?
35 		83.80
Kr · ?
36
85.47
Rb · ?
37 		87.62
Sr · ?
38 		88.91
Y · ?
39 		91.22
Zr · ?
40 		92.91
Nb · ?
41 		95.94
Mo · ?
42 		96.91
Tc · ?
43 		101.07
Ru · ?
44 		102.91
Rh · ?
45 		106.40
Pd · ?
46 		107.87
Ag · ?
47 		112.41
Cd · ?
48 		114.82
In · ?
49 		118.69
Sn · ?
50 		121.75
Sb · ?
51 		127.60
Te · ?
52 		126.90
I · ?
53 		131.30
Xe · ?
54
132.91
Cs · ?
55 		137.33
Ba · ?
56 		[57 – 71] 178.49
Hf · ?
72 		180.95
Ta · ?
73 		183.85
W · ?
74 		186.21
Re · ?
75 		190.20
Os · ?
76 		192.22
Ir · ?
77 		195.09
Pt · ?
78 		196.97
Au · ?
79 		200.59
Hg · ?
80 		204.37
Tl · ?
81 		207.20
Pb · ?
82 		208.98
Bi · ?
83 		208.98
Po · ?
84 		209.99
At · ?
85 		222.02
Rn · ?
86
223.02
Fr · ?
87 		226.03
Ra · ?
88 		[89 – 103] 267.12
Rf · ?
104 		268.13
Db · ?
105 		269.13
Sg · ?
106 		270.13
Bh · ?
107 		269.13
Hs · ?
108 		277.15
Mt · ?
109 		282.17
Ds · ?
110 		282.17
Rg · ?
111 		286.18
Cn · ?
112 		286.18
Nh · ?
113 		290.19
Fl · ?
114 		290.20
Mc · ?
115 		293.21
Lv · ?
116 		294.21
Ts · ?
117 		295.22
Og · ?
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 Ai 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 røhwessai røhwirs (alumina) < røhwe (clay) ekai
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 Ui 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 ekai
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 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 ekai
50 118.69 Sn tin Ka kaend *kɯd-art'- ekai
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 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 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 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 ekai
82 207.20 Pb lead Ma maond *mɯg-art'- ekai
83 208.98 Bi bismuth Am ammônd **na-mɯg-art'- ekai
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 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 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 hlêmmêiǧessai hlê- (pre-) + mêiǧessai (actinium) it appears before actinium in Uranium decay mêiǧessêlj
92 238.03 U uranium 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 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 dihñiessai dihñis (individual, separete) first element to be synthesised one atom at a time mêiǧessêlj


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