An interactive periodic table Hover over the elements to show their properties. Some values may be incorrect or missing but I'm too lazy to fix that :/ All sprites are generated by script Data from https://gist.githubusercontent.com/robertwb/22aa4dbfb6bcecd94f2176caa912b952data:image/png;base64,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An interactive periodic table Hover over the elements to show their properties. Some values may be incorrect or missing but I'm too lazy to fix that :/ All sprites are generated by script Data from https://gist.githubusercontent.com/robertwb/22aa4dbfb6bcecd94f2176caa912b952

10050501

time

difference1000

timedelta

returns a frequency analysis of the argument list, represented as a two-column table, where the first column contains the unique values and the second column their occurrences

pt:$flash as frequências dos itens de _ ca:$flash analitza _

pt:o agrupamento dos itens de _ de acordo com _ ca:$flash agrupa _ per _

pt:o histograma de _ entre _ e _ com intervalo _ ca:histograma de _ des de: _ fins: _ interval: _ 1

pt:o histograma de _ agrupado de acordo com _ entre _ e _ com passo _ ca:histograma de _ agrupat per: _ des de: _ fins: _ interval: _

add missing entries to a sorted list. Used for histograms

pt:os itens de _ com a chave _ entre _ e _ com passo _ completados por _ ca:omple _ clau: _ des de: _ fins: _ interval: _ amplada: _ 11

pt:_ em minúsculas ca:_ $arrowRight minúscules

pt:desenha gráfico de barras de _ em (x: _ , y: _ ) com largura _ e altura _ ca:dibuixa _ _ a x: _ y: _ i ample: _ alçada: _ barsbars lines pie chart-200-10040020022100startsettingratio1step2lines

pt:a aplicação a _ de _ ca:canalitza _ $arrowRight _

false

data:image/png;base64,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,Element,Symbol,AtomicMass,NumberofNeutrons,NumberofProtons,NumberofElectrons,Period,Group,Phase,Radioactive,Natural,Metal,Nonmetal,Metalloid,Type,AtomicRadius,Electronegativity,FirstIonization,Density,MeltingPoint,BoilingPoint,NumberOfIsotopes,Discoverer,Year,SpecificHeat,NumberofShells,NumberofValence1,Hydrogen,H,1.007,0,1,1,1,1,gas,,yes,,yes,,Nonmetal,0.79,2.2,13.5984,8.99E-05,14.175,20.28,3,Cavendish,1766,14.304,1,12,Helium,He,4.002,2,2,2,1,18,gas,,yes,,yes,,Noble Gas,0.49,,24.5874,1.79E-04,,4.22,5,Janssen,1868,5.193,1,3,Lithium,Li,6.941,4,3,3,2,1,solid,,yes,yes,,,Alkali Metal,2.1,0.98,5.3917,5.34E-01,453.85,1615,5,Arfvedson,1817,3.582,2,14,Beryllium,Be,9.012,5,4,4,2,2,solid,,yes,yes,,,Alkaline Earth Metal,1.4,1.57,9.3227,1.85E+00,1560.15,2742,6,Vaulquelin,1798,1.825,2,25,Boron,B,10.811,6,5,5,2,13,solid,,yes,,,yes,Metalloid,1.2,2.04,8.298,2.34E+00,2573.15,4200,6,Gay-Lussac,1808,1.026,2,36,Carbon,C,12.011,6,6,6,2,14,solid,,yes,,yes,,Nonmetal,0.91,2.55,11.2603,2.27E+00,3948.15,4300,7,Prehistoric,,0.709,2,47,Nitrogen,N,14.007,7,7,7,2,15,gas,,yes,,yes,,Nonmetal,0.75,3.04,14.5341,1.25E-03,63.29,77.36,8,Rutherford,1772,1.04,2,58,Oxygen,O,15.999,8,8,8,2,16,gas,,yes,,yes,,Nonmetal,0.65,3.44,13.6181,1.43E-03,50.5,90.2,8,Priestley/Scheele,1774,0.918,2,69,Fluorine,F,18.998,10,9,9,2,17,gas,,yes,,yes,,Halogen,0.57,3.98,17.4228,1.70E-03,53.63,85.03,6,Moissan,1886,0.824,2,710,Neon,Ne,20.18,10,10,10,2,18,gas,,yes,,yes,,Noble Gas,0.51,,21.5645,9.00E-04,24.703,27.07,8,Ramsay and Travers,1898,1.03,2,811,Sodium,Na,22.99,12,11,11,3,1,solid,,yes,yes,,,Alkali Metal,2.2,0.93,5.1391,9.71E-01,371.15,1156,7,Davy,1807,1.228,3,112,Magnesium,Mg,24.305,12,12,12,3,2,solid,,yes,yes,,,Alkaline Earth Metal,1.7,1.31,7.6462,1.74E+00,923.15,1363,8,Black,1755,1.023,3,213,Aluminum,Al,26.982,14,13,13,3,13,solid,,yes,yes,,,Metal,1.8,1.61,5.9858,2.70E+00,933.4,2792,8,Wshler,1827,0.897,3,314,Silicon,Si,28.086,14,14,14,3,14,solid,,yes,,,yes,Metalloid,1.5,1.9,8.1517,2.33E+00,1683.15,3538,8,Berzelius,1824,0.705,3,415,Phosphorus,P,30.974,16,15,15,3,15,solid,,yes,,yes,,Nonmetal,1.2,2.19,10.4867,1.82E+00,317.25,553,7,BranBrand,1669,0.769,3,516,Sulfur,S,32.065,16,16,16,3,16,solid,,yes,,yes,,Nonmetal,1.1,2.58,10.36,2.07E+00,388.51,717.8,10,Prehistoric,,0.71,3,617,Chlorine,Cl,35.453,18,17,17,3,17,gas,,yes,,yes,,Halogen,0.97,3.16,12.9676,3.21E-03,172.31,239.11,11,Scheele,1774,0.479,3,718,Argon,Ar,39.948,22,18,18,3,18,gas,,yes,,yes,,Noble Gas,0.88,,15.7596,1.78E-03,83.96,87.3,8,Rayleigh and Ramsay,1894,0.52,3,819,Potassium,K,39.098,20,19,19,4,1,solid,,yes,yes,,,Alkali Metal,2.8,0.82,4.3407,8.62E-01,336.5,1032,10,Davy,1807,0.757,4,120,Calcium,Ca,40.078,20,20,20,4,2,solid,,yes,yes,,,Alkaline Earth Metal,2.2,1,6.1132,1.54E+00,1112.15,1757,14,Davy,1808,0.647,4,221,Scandium,Sc,44.956,24,21,21,4,3,solid,,yes,yes,,,Transition Metal,2.1,1.36,6.5615,2.99E+00,1812.15,3109,15,Nilson,1878,0.568,4,22,Titanium,Ti,47.867,26,22,22,4,4,solid,,yes,yes,,,Transition Metal,2,1.54,6.8281,4.54E+00,1933.15,3560,9,Gregor,1791,0.523,4,23,Vanadium,V,50.942,28,23,23,4,5,solid,,yes,yes,,,Transition Metal,1.9,1.63,6.7462,6.11E+00,2175.15,3680,9, del Rio,1801,0.489,4,24,Chromium,Cr,51.996,28,24,24,4,6,solid,,yes,yes,,,Transition Metal,1.9,1.66,6.7665,7.15E+00,2130.15,2944,9,Vauquelin,1797,0.449,4,25,Manganese,Mn,54.938,30,25,25,4,7,solid,,yes,yes,,,Transition Metal,1.8,1.55,7.434,7.44E+00,1519.15,2334,11,"Gahn, Scheele",1774,0.479,4,26,Iron,Fe,55.845,30,26,26,4,8,solid,,yes,yes,,,Transition Metal,1.7,1.83,7.9024,7.87E+00,1808.15,3134,10,Prehistoric,,0.449,4,27,Cobalt,Co,58.933,32,27,27,4,9,solid,,yes,yes,,,Transition Metal,1.7,1.88,7.881,8.86E+00,1768.15,3200,14,Brandt,1735,0.421,4,28,Nickel,Ni,58.693,31,28,28,4,10,solid,,yes,yes,,,Transition Metal,1.6,1.91,7.6398,8.91E+00,1726.15,3186,11,Cronstedt,1751,0.444,4,29,Copper,Cu,63.546,35,29,29,4,11,solid,,yes,yes,,,Transition Metal,1.6,1.9,7.7264,8.96E+00,1357.75,2835,11,Prehistoric,,0.385,4,30,Zinc,Zn,65.38,35,30,30,4,12,solid,,yes,yes,,,Transition Metal,1.5,1.65,9.3942,7.13E+00,692.88,1180,15,Prehistoric,,0.388,4,31,Gallium,Ga,69.723,39,31,31,4,13,solid,,yes,yes,,,Metal,1.8,1.81,5.9993,5.91E+00,302.91,2477,14,de Boisbaudran,1875,0.371,4,332,Germanium,Ge,72.64,41,32,32,4,14,solid,,yes,,,yes,Metalloid,1.5,2.01,7.8994,5.32E+00,1211.45,3106,17,Winkler,1886,0.32,4,433,Arsenic,As,74.922,42,33,33,4,15,solid,,yes,,,yes,Metalloid,1.3,2.18,9.7886,5.78E+00,1090.15,887,14,Albertus Magnus,1250,0.329,4,534,Selenium,Se,78.96,45,34,34,4,16,solid,,yes,,yes,,Nonmetal,1.2,2.55,9.7524,4.81E+00,494.15,958,20,Berzelius,1817,0.321,4,635,Bromine,Br,79.904,45,35,35,4,17,liq,,yes,,yes,,Halogen,1.1,2.96,11.8138,3.12E+00,266.05,332,19,Balard,1826,0.474,4,736,Krypton,Kr,83.798,48,36,36,4,18,gas,,yes,,yes,,Noble Gas,1,,13.9996,3.73E-03,115.93,119.93,23,Ramsay and Travers,1898,0.248,4,837,Rubidium,Rb,85.468,48,37,37,5,1,solid,,yes,yes,,,Alkali Metal,3,0.82,4.1771,1.53E+00,312.79,961,20,Bunsen and Kirchoff,1861,0.363,5,138,Strontium,Sr,87.62,50,38,38,5,2,solid,,yes,yes,,,Alkaline Earth Metal,2.5,0.95,5.6949,2.64E+00,1042.15,1655,18,Davy,1808,0.301,5,239,Yttrium,Y,88.906,50,39,39,5,3,solid,,yes,yes,,,Transition Metal,2.3,1.22,6.2173,4.47E+00,1799.15,3609,21,Gadolin,1794,0.298,5,40,Zirconium,Zr,91.224,51,40,40,5,4,solid,,yes,yes,,,Transition Metal,2.2,1.33,6.6339,6.51E+00,2125.15,4682,20,Klaproth,1789,0.278,5,41,Niobium,Nb,92.906,52,41,41,5,5,solid,,yes,yes,,,Transition Metal,2.1,1.6,6.7589,8.57E+00,2741.15,5017,24,Hatchett,1801,0.265,5,42,Molybdenum,Mo,95.96,54,42,42,5,6,solid,,yes,yes,,,Transition Metal,2,2.16,7.0924,1.02E+01,2890.15,4912,20,Scheele,1778,0.251,5,43,Technetium,Tc,98,55,43,43,5,7,artificial,yes,,yes,,,Transition Metal,2,1.9,7.28,1.15E+01,2473.15,5150,23,Perrier and Segr�,1937,,5,44,Ruthenium,Ru,101.07,57,44,44,5,8,solid,,yes,yes,,,Transition Metal,1.9,2.2,7.3605,1.24E+01,2523.15,4423,16,Klaus,1844,0.238,5,45,Rhodium,Rh,102.906,58,45,45,5,9,solid,,yes,yes,,,Transition Metal,1.8,2.28,7.4589,1.24E+01,2239.15,3968,20,Wollaston,1803,0.243,5,46,Palladium,Pd,106.42,60,46,46,5,10,solid,,yes,yes,,,Transition Metal,1.8,2.2,8.3369,1.20E+01,1825.15,3236,21,Wollaston,1803,0.244,5,47,Silver,Ag,107.868,61,47,47,5,11,solid,,yes,yes,,,Transition Metal,1.8,1.93,7.5762,1.05E+01,1234.15,2435,27,Prehistoric,,0.235,5,48,Cadmium,Cd,112.411,64,48,48,5,12,solid,,yes,yes,,,Transition Metal,1.7,1.69,8.9938,8.69E+00,594.33,1040,22,Stromeyer,1817,0.232,5,49,Indium,In,114.818,66,49,49,5,13,solid,,yes,yes,,,Metal,2,1.78,5.7864,7.31E+00,429.91,2345,34,Reich and Richter,1863,0.233,5,350,Tin,Sn,118.71,69,50,50,5,14,solid,,yes,yes,,,Metal,1.7,1.96,7.3439,7.29E+00,505.21,2875,28,Prehistoric,,0.228,5,451,Antimony,Sb,121.76,71,51,51,5,15,solid,,yes,,,yes,Metalloid,1.5,2.05,8.6084,6.69E+00,904.05,1860,29,Early historic times,,0.207,5,552,Tellurium,Te,127.6,76,52,52,5,16,solid,,yes,,,yes,Metalloid,1.4,2.1,9.0096,6.23E+00,722.8,1261,29,von Reichenstein,1782,0.202,5,653,Iodine,I,126.904,74,53,53,5,17,solid,,yes,,yes,,Halogen,1.3,2.66,10.4513,4.93E+00,386.65,457.4,24,Courtois,1811,0.214,5,754,Xenon,Xe,131.293,77,54,54,5,18,gas,,yes,,yes,,Noble Gas,1.2,,12.1298,5.89E-03,161.45,165.03,31,Ramsay and Travers,1898,0.158,5,855,Cesium,Cs,132.905,78,55,55,6,1,solid,,yes,yes,,,Alkali Metal,3.3,0.79,3.8939,1.87E+00,301.7,944,22,Bunsen and Kirchoff,1860,0.242,6,156,Barium,Ba,137.327,81,56,56,6,2,solid,,yes,yes,,,Alkaline Earth Metal,2.8,0.89,5.2117,3.59E+00,1002.15,2170,25,Davy,1808,0.204,6,257,Lanthanum,La,138.905,82,57,57,6,3,solid,,yes,yes,,,Lanthanide,2.7,1.1,5.5769,6.15E+00,1193.15,3737,19,Mosander,1839,0.195,6,58,Cerium,Ce,140.116,82,58,58,6,,solid,,yes,yes,,,Lanthanide,2.7,1.12,5.5387,6.77E+00,1071.15,3716,19,Berzelius,1803,0.192,6,59,Praseodymium,Pr,140.908,82,59,59,6,,solid,,yes,yes,,,Lanthanide,2.7,1.13,5.473,6.77E+00,1204.15,3793,15,von Welsbach,1885,0.193,6,60,Neodymium,Nd,144.242,84,60,60,6,,solid,,yes,yes,,,Lanthanide,2.6,1.14,5.525,7.01E+00,1289.15,3347,16,von Welsbach,1885,0.19,6,61,Promethium,Pm,145,84,61,61,6,,artificial,yes,,yes,,,Lanthanide,2.6,1.13,5.582,7.26E+00,1204.15,3273,14,Marinsky et al.,1945,,6,62,Samarium,Sm,150.36,88,62,62,6,,solid,,yes,yes,,,Lanthanide,2.6,1.17,5.6437,7.52E+00,1345.15,2067,17,Boisbaudran,1879,0.197,6,63,Europium,Eu,151.964,89,63,63,6,,solid,,yes,yes,,,Lanthanide,2.6,1.2,5.6704,5.24E+00,1095.15,1802,21,Demarcay,1901,0.182,6,64,Gadolinium,Gd,157.25,93,64,64,6,,solid,,yes,yes,,,Lanthanide,2.5,1.2,6.1501,7.90E+00,1585.15,3546,17,de Marignac,1880,0.236,6,65,Terbium,Tb,158.925,94,65,65,6,,solid,,yes,yes,,,Lanthanide,2.5,1.2,5.8638,8.23E+00,1630.15,3503,24,Mosander,1843,0.182,6,66,Dysprosium,Dy,162.5,97,66,66,6,,solid,,yes,yes,,,Lanthanide,2.5,1.22,5.9389,8.55E+00,1680.15,2840,21,de Boisbaudran,1886,0.17,6,67,Holmium,Ho,164.93,98,67,67,6,,solid,,yes,yes,,,Lanthanide,2.5,1.23,6.0215,8.80E+00,1743.15,2993,29,Delafontaine and Soret,1878,0.165,6,68,Erbium,Er,167.259,99,68,68,6,,solid,,yes,yes,,,Lanthanide,2.5,1.24,6.1077,9.07E+00,1795.15,3503,16,Mosander,1843,0.168,6,69,Thulium,Tm,168.934,100,69,69,6,,solid,,yes,yes,,,Lanthanide,2.4,1.25,6.1843,9.32E+00,1818.15,2223,18,Cleve,1879,0.16,6,70,Ytterbium,Yb,173.054,103,70,70,6,,solid,,yes,yes,,,Lanthanide,2.4,1.1,6.2542,6.97E+00,1097.15,1469,16,Marignac,1878,0.155,6,71,Lutetium,Lu,174.967,104,71,71,6,,solid,,yes,yes,,,Lanthanide,2.3,1.27,5.4259,9.84E+00,1936.15,3675,22,Urbain/ von Welsbach,1907,0.154,6,72,Hafnium,Hf,178.49,106,72,72,6,4,solid,,yes,yes,,,Transition Metal,2.2,1.3,6.8251,1.33E+01,2500.15,4876,17,Coster and von Hevesy,1923,0.144,6,73,Tantalum,Ta,180.948,108,73,73,6,5,solid,,yes,yes,,,Transition Metal,2.1,1.5,7.5496,1.67E+01,3269.15,5731,19,Ekeberg,1801,0.14,6,74,Tungsten,W,183.84,110,74,74,6,6,solid,,yes,yes,,,Transition Metal,2,2.36,7.864,1.93E+01,3680.15,5828,22,J. and F. d'Elhuyar,1783,0.132,6,75,Rhenium,Re,186.207,111,75,75,6,7,solid,,yes,yes,,,Transition Metal,2,1.9,7.8335,2.10E+01,3453.15,5869,21,"Noddack, Berg, and Tacke",1925,0.137,6,76,Osmium,Os,190.23,114,76,76,6,8,solid,,yes,yes,,,Transition Metal,1.9,2.2,8.4382,2.26E+01,3300.15,5285,19,Tennant,1803,0.13,6,77,Iridium,Ir,192.217,115,77,77,6,9,solid,,yes,yes,,,Transition Metal,1.9,2.2,8.967,2.26E+01,2716.15,4701,25,Tennant,1804,0.131,6,78,Platinum,Pt,195.084,117,78,78,6,10,solid,,yes,yes,,,Transition Metal,1.8,2.28,8.9587,2.15E+01,2045.15,4098,32,Ulloa/Wood,1735,0.133,6,79,Gold,Au,196.967,118,79,79,6,11,solid,,yes,yes,,,Transition Metal,1.8,2.54,9.2255,1.93E+01,1337.73,3129,21,Prehistoric,,0.129,6,80,Mercury,Hg,200.59,121,80,80,6,12,liq,,yes,yes,,,Transition Metal,1.8,2,10.4375,1.35E+01,234.43,630,26,Prehistoric,,0.14,6,81,Thallium,Tl,204.383,123,81,81,6,13,solid,,yes,yes,,,Metal,2.1,2.04,6.1082,1.19E+01,577.15,1746,28,Crookes,1861,0.129,6,382,Lead,Pb,207.2,125,82,82,6,14,solid,,yes,yes,,,Metal,1.8,2.33,7.4167,1.13E+01,600.75,2022,29,Prehistoric,,0.129,6,483,Bismuth,Bi,208.98,126,83,83,6,15,solid,,yes,yes,,,Metal,1.6,2.02,7.2856,9.81E+00,544.67,1837,19,Geoffroy the Younger,1753,0.122,6,584,Polonium,Po,210,126,84,84,6,16,solid,yes,yes,,,yes,Metalloid,1.5,2,8.417,9.32E+00,527.15,1235,34,Curie,1898,,6,685,Astatine,At,210,125,85,85,6,17,solid,yes,yes,,yes,,Halogen,1.4,2.2,9.3,7.00E+00,575.15,610,21,Corson et al.,1940,,6,786,Radon,Rn,222,136,86,86,6,18,gas,yes,yes,yes,,,Noble Gas,1.3,,10.7485,9.73E-03,202.15,211.3,20,Dorn,1900,0.094,6,887,Francium,Fr,223,136,87,87,7,1,solid,yes,yes,yes,,,Alkaline Metal,,0.7,4.0727,1.87E+00,300.15,950,21,Perey,1939,,7,188,Radium,Ra,226,138,88,88,7,2,solid,yes,yes,yes,,,Alkaline Earth Metal,,0.9,5.2784,5.50E+00,973.15,2010,15,Pierre and Marie Curie,1898,,7,289,Actinium,Ac,227,138,89,89,7,3,solid,yes,yes,yes,,,Actinide,,1.1,5.17,1.01E+01,1323.15,3471,11,Debierne/Giesel,1899,0.12,7,90,Thorium,Th,232.038,142,90,90,7,,solid,yes,yes,yes,,,Actinide,,1.3,6.3067,1.17E+01,2028.15,5061,12,Berzelius,1828,0.113,7,91,Protactinium,Pa,231.036,140,91,91,7,,solid,yes,yes,yes,,,Actinide,,1.5,5.89,1.54E+01,1873.15,4300,14,Hahn and Meitner,1917,,7,92,Uranium,U,238.029,146,92,92,7,,solid,yes,yes,yes,,,Actinide,,1.38,6.1941,1.90E+01,1405.15,4404,15,Peligot,1841,0.116,7,93,Neptunium,Np,237,144,93,93,7,,artificial,yes,,yes,,,Actinide,,1.36,6.2657,2.05E+01,913.15,4273,153,McMillan and Abelson,1940,,7,94,Plutonium,Pu,244,150,94,94,7,,artificial,yes,,yes,,,Actinide,,1.28,6.0262,1.98E+01,913.15,3501,163,Seaborg et al.,1940,,7,95,Americium,Am,243,148,95,95,7,,artificial,yes,,yes,,,Actinide,,1.3,5.9738,1.37E+01,1267.15,2880,133,Seaborg et al.,1944,,7,96,Curium,Cm,247,151,96,96,7,,artificial,yes,,yes,,,Actinide,,1.3,5.9915,1.35E+01,1340.15,3383,133,Seaborg et al.,1944,,7,97,Berkelium,Bk,247,150,97,97,7,,artificial,yes,,yes,,,Actinide,,1.3,6.1979,1.48E+01,1259.15,983,83,Seaborg et al.,1949,,7,98,Californium,Cf,251,153,98,98,7,,artificial,yes,,yes,,,Actinide,,1.3,6.2817,1.51E+01,1925.15,1173,123,Seaborg et al.,1950,,7,99,Einsteinium,Es,252,153,99,99,7,,artificial,yes,,yes,,,Actinide,,1.3,6.42,1.35E+01,1133.15,,123,Ghiorso et al.,1952,,7,100,Fermium,Fm,257,157,100,100,7,,artificial,yes,,yes,,,Actinide,,1.3,6.5,,,,103,Ghiorso et al.,1953,,7,101,Mendelevium,Md,258,157,101,101,7,,artificial,yes,,yes,,,Actinide,,1.3,6.58,,,,33,Ghiorso et al.,1955,,7,102,Nobelium,No,259,157,102,102,7,,artificial,yes,,yes,,,Actinide,,1.3,6.65,,,,73,Ghiorso et al.,1958,,7,103,Lawrencium,Lr,262,159,103,103,7,,artificial,yes,,yes,,,Actinide,,,,,,,203,Ghiorso et al.,1961,,7,104,Rutherfordium,Rf,261,157,104,104,7,4,artificial,yes,,yes,,,Transactinide,,,,1.81E+01,,,,Ghiorso et al.,1969,,7,105,Dubnium,Db,262,157,105,105,7,5,artificial,yes,,yes,,,Transactinide,,,,3.90E+01,,,,Ghiorso et al.,1970,,7,106,Seaborgium,Sg,266,160,106,106,7,6,artificial,yes,,yes,,,Transactinide,,,,3.50E+01,,,,Ghiorso et al.,1974,,7,107,Bohrium,Bh,264,157,107,107,7,7,artificial,yes,,yes,,,Transactinide,,,,3.70E+01,,,,Armbruster and M�nzenberg,1981,,7,108,Hassium,Hs,267,159,108,108,7,8,artificial,yes,,yes,,,Transactinide,,,,4.10E+01,,,,Armbruster and M�nzenberg,1983,,7,109,Meitnerium,Mt,268,159,109,109,7,9,artificial,yes,,yes,,,Transactinide,,,,3.50E+01,,,,"GSI, Darmstadt, West Germany",1982,,7,110,Darmstadtium ,Ds ,271,161,110,110,7,10,artificial,yes,,yes,,,Transactinide,,,,,,,,,1994,,7,111,Roentgenium ,Rg ,272,161,111,111,7,11,artificial,yes,,yes,,,Transactinide,,,,,,,,,1994,,7,112,Copernicium ,Cn ,285,173,112,112,7,12,artificial,yes,,yes,,,Transactinide,,,,,,,,,1996,,7,113,Nihonium,Nh,284,171,113,113,7,13,artificial,yes,,yes,,,,,,,,,,,,2004,,7,3114,Flerovium,Fl,289,175,114,114,7,14,artificial,yes,,yes,,,Transactinide,,,,,,,,,1999,,7,4115,Moscovium,Mc,288,173,115,115,7,15,artificial,yes,,yes,,,,,,,,,,,,2010,,7,5116,Livermorium,Lv,292,176,116,116,7,16,artificial,yes,,yes,,,Transactinide,,,,,,,,,2000,,7,6117,Tennessine,Ts,295,178,117,117,7,17,artificial,yes,,,yes,,,,,,,,,,,2010,,7,7118,Oganesson,Og,294,176,118,118,7,18,artificial,yes,,,yes,,Noble Gas,,,,,,,,,2006,,7,8Alkaline Metal,70Alkali Metal,70Alkaline Earth Metal,90Actinide,3Lanthanide,8Transition Metal,12Metal,15Metalloid,30Nonmetal,40Halogen,50Noble Gas,60Transactinide,12,801,Nonmetal,,2,Noble Gas,,3,Alkali Metal,,4,Alkaline Earth Metal,,5,Metalloid,,6,Nonmetal,,7,Nonmetal,,8,Nonmetal,,9,Halogen,,10,Noble Gas,,11,Alkali Metal,,12,Alkaline Earth Metal,,13,Metal,,14,Metalloid,,15,Nonmetal,,16,Nonmetal,,17,Halogen,,18,Noble Gas,,19,Alkali Metal,,20,Alkaline Earth Metal,,21,Transition Metal,,22,Transition Metal,,23,Transition Metal,,24,Transition Metal,,25,Transition Metal,,26,Transition Metal,,27,Transition Metal,,28,Transition Metal,,29,Transition Metal,,30,Transition Metal,,31,Metal,,32,Metalloid,,33,Metalloid,,34,Nonmetal,,35,Halogen,,36,Noble Gas,,37,Alkali Metal,,38,Alkaline Earth Metal,,39,Transition Metal,,40,Transition Metal,,41,Transition Metal,,42,Transition Metal,,43,Transition Metal,,44,Transition Metal,,45,Transition Metal,,46,Transition Metal,,47,Transition Metal,,48,Transition Metal,,49,Metal,,50,Metal,,51,Metalloid,,52,Metalloid,,53,Halogen,,54,Noble Gas,,55,Alkali Metal,,56,Alkaline Earth Metal,,57,Lanthanide,,58,Lanthanide,,59,Lanthanide,,60,Lanthanide,,61,Lanthanide,,62,Lanthanide,,63,Lanthanide,,64,Lanthanide,,65,Lanthanide,,66,Lanthanide,,67,Lanthanide,,68,Lanthanide,,69,Lanthanide,,70,Lanthanide,,71,Lanthanide,,72,Transition Metal,,73,Transition Metal,,74,Transition Metal,,75,Transition Metal,,76,Transition Metal,,77,Transition Metal,,78,Transition Metal,,79,Transition Metal,,80,Transition Metal,,81,Metal,,82,Metal,,83,Metal,,84,Metalloid,,85,Halogen,,86,Noble Gas,,87,Alkaline Metal,,