Actinium Atomic weight227 Atomic number89 Oxidation states3 Boiling point
Kelvin3470 SymbolAc Density
grams/cubic centimeter 10.07 Electron configuration[Rn] 6d1 7s2 Electronegativity1.1 Atomic radius
Angstroms1.88 Atomic volume
cubic centimeters/mole 22.5 Specific heat capacity
Joules/gram/degree Kelvin 0.12 Ionization potential5.17 Thermal conductivity
Watts/meter/degree Kelvin 12 Aluminum Atomic weight26.98154 Atomic number13 Oxidation states3 Boiling point
Kelvin2740 Melting point933.5 SymbolAl Density
grams/cubic centimeter 2.7 Electron configuration[Ne] 3s2 p1 Covalent radius
Angstroms1.18 Electronegativity1.61 Atomic radius
Angstroms1.43 Heat of vaporization
kilojoules/mole 290.8 Atomic volume
cubic centimeters/mole 10 Heat of fusion
kilojoules/mole 10.7 Ionization potential5.986 Specific heat capacity
Joules/gram/degree Kelvin 0.9 Thermal conductivity
Watts/meter/degree Kelvin 237 Americium Atomic weight243 Atomic number95 Oxidation states6, 5, 4, 3 Boiling point
Kelvin2880 Melting point1449 SymbolAm Density
grams/cubic centimeter 13.7 Electron configuration[Rn] 5f7 7s2 Electronegativity1.3 Atomic radius
Angstroms1.84 Atomic volume
cubic centimeters/mole 20.8 Ionization potential6 Thermal conductivity
Watts/meter/degree Kelvin 10 Antimony Atomic weight121.757 Atomic number51 Oxidation states+/-3, 5 Boiling point
Kelvin1860 Melting point903.91 SymbolSb Density
grams/cubic centimeter 6.69 Electron configuration[Kr] 4d10 5s2 p3 Covalent radius
Angstroms1.4 Electronegativity2.05 Atomic radius
Angstroms1.59 Heat of vaporization
kilojoules/mole 67.97 Atomic volume
cubic centimeters/mole 18.4 Heat of fusion
kilojoules/mole 19.83 Ionization potential8.641 Specific heat capacity
Joules/gram/degree Kelvin 0.207 Thermal conductivity
Watts/meter/degree Kelvin 24.3 Argon Atomic weight39.948 Atomic number18 Boiling point
Kelvin87.45 Melting point83.95 SymbolAr Density
grams/cubic centimeter 1.784 Electron configuration[Ne] 3s2 p6 Covalent radius
Angstroms0.98 Electronegativity0 Atomic radius
Angstroms0.88 Heat of vaporization
kilojoules/mole 6.506 Atomic volume
cubic centimeters/mole 24.2 Heat of fusion
kilojoules/mole 1.188 Ionization potential15.759 Specific heat capacity
Joules/gram/degree Kelvin 0.52 Thermal conductivity
Watts/meter/degree Kelvin 0.0177 Arsenic Atomic weight74.9216 Atomic number33 Oxidation states+/-3, 5 Boiling point
Kelvin876 Melting point1090 SymbolAs Density
grams/cubic centimeter 5.78 Electron configuration[Ar] 3d10 4s2 p3 Covalent radius
Angstroms1.2 Electronegativity2.18 Atomic radius
Angstroms1.39 Heat of vaporization
kilojoules/mole 32.4 Atomic volume
cubic centimeters/mole 13.1 Heat of fusion
kilojoules/mole 27.7 Ionization potential9.81 Specific heat capacity
Joules/gram/degree Kelvin 0.33 Thermal conductivity
Watts/meter/degree Kelvin 50 Astatine Atomic weight210 Atomic number85 Oxidation states+/-1, 3, 5, 7 Boiling point
Kelvin610 Melting point575 SymbolAt Electron configuration[Xe] 4f14 5d10 6s2 p5 Covalent radius
Angstroms1.47 Electronegativity2.2 Atomic radius
Angstroms1.45 Heat of vaporization
kilojoules/mole 30 Heat of fusion
kilojoules/mole 12 Thermal conductivity
Watts/meter/degree Kelvin 1.7 Gold Atomic weight196.9665 Atomic number79 Oxidation states3, 1 Boiling point
Kelvin3130 Melting point1337.58 SymbolAu Density
grams/cubic centimeter 19.3 Electron configuration[Xe] 4f14 5d10 6s1 Covalent radius
Angstroms1.34 Electronegativity2.54 Atomic radius
Angstroms1.46 Heat of vaporization
kilojoules/mole 324.43 Atomic volume
cubic centimeters/mole 10.2 Heat of fusion
kilojoules/mole 12.36 Ionization potential9.225 Specific heat capacity
Joules/gram/degree Kelvin 0.128 Thermal conductivity
Watts/meter/degree Kelvin 317 Boron Atomic weight10.811 Atomic number5 Oxidation states3 Boiling point
Kelvin4275 Melting point2365 SymbolB Density
grams/cubic centimeter 2.34 Electron configuration1s2 2s2 p1 Covalent radius
Angstroms0.82 Electronegativity2.04 Atomic radius
Angstroms0.98 Heat of vaporization
kilojoules/mole 507.8 Atomic volume
cubic centimeters/mole 4.6 Heat of fusion
kilojoules/mole 22.6 Ionization potential8.298 Specific heat capacity
Joules/gram/degree Kelvin 1.026 Thermal conductivity
Watts/meter/degree Kelvin 27 Barium Atomic weight137.33 Atomic number56 Oxidation states2 Boiling point
Kelvin2078 Melting point1002 SymbolBa Density
grams/cubic centimeter 3.59 Electron configuration[Xe] 6s2 Covalent radius
Angstroms1.98 Electronegativity0.89 Atomic radius
Angstroms2.22 Heat of vaporization
kilojoules/mole 140.2 Atomic volume
cubic centimeters/mole 39 Heat of fusion
kilojoules/mole 8.01 Ionization potential5.212 Specific heat capacity
Joules/gram/degree Kelvin 0.204 Thermal conductivity
Watts/meter/degree Kelvin 18.4 Beryllium Atomic weight9.01218 Atomic number4 Oxidation states2 Boiling point
Kelvin3243 Melting point1560 SymbolBe Density
grams/cubic centimeter 1.85 Electron configuration1s2 2s2 Covalent radius
Angstroms0.9 Electronegativity1.57 Atomic radius
Angstroms1.12 Heat of vaporization
kilojoules/mole 297 Atomic volume
cubic centimeters/mole 5 Heat of fusion
kilojoules/mole 11.71 Ionization potential9.322 Specific heat capacity
Joules/gram/degree Kelvin 1.825 Thermal conductivity
Watts/meter/degree Kelvin 200 Bohrium Atomic weight262 Atomic number107 SymbolBh Electron configuration[Rn] 5f14 6d5 7s2 Bismuth Atomic weight208.9804 Atomic number83 Oxidation states3, 5 Boiling point
Kelvin1837 Melting point544.59 SymbolBi Density
grams/cubic centimeter 9.75 Electron configuration[Xe] 4f14 5d10 6s2 p3 Covalent radius
Angstroms1.46 Electronegativity2.02 Atomic radius
Angstroms1.7 Heat of vaporization
kilojoules/mole 179 Atomic volume
cubic centimeters/mole 21.3 Heat of fusion
kilojoules/mole 11 Ionization potential7.289 Specific heat capacity
Joules/gram/degree Kelvin 0.122 Thermal conductivity
Watts/meter/degree Kelvin 7.87 Berkelium Atomic weight247 Atomic number97 Oxidation states4, 3 SymbolBk Electron configuration[Rn] 5f9 7s2 Electronegativity1.3 Ionization potential6.23 Thermal conductivity
Watts/meter/degree Kelvin 10 Bromine Atomic weight79.904 Atomic number35 Oxidation states+/-1, 5 Boiling point
Kelvin331.85 Melting point265.95 SymbolBr Density
grams/cubic centimeter 3.12 Electron configuration[Ar] 3d10 4s2 p5 Covalent radius
Angstroms1.14 Electronegativity2.96 Atomic radius
Angstroms1.12 Heat of vaporization
kilojoules/mole 14.725 Atomic volume
cubic centimeters/mole 23.5 Heat of fusion
kilojoules/mole 5.286 Ionization potential11.814 Specific heat capacity
Joules/gram/degree Kelvin 0.226 Thermal conductivity
Watts/meter/degree Kelvin 0.122 Carbon Atomic weight12.011 Atomic number6 Oxidation states+/-4, 2 Boiling point
Kelvin5100 Melting point3825 SymbolC Density
grams/cubic centimeter 2.26 Electron configuration1s2 2s2 p2 Covalent radius
Angstroms0.77 Electronegativity2.55 Atomic radius
Angstroms0.91 Heat of vaporization
kilojoules/mole 715 Atomic volume
cubic centimeters/mole 5.3 Ionization potential11.26 Specific heat capacity
Joules/gram/degree Kelvin 0.709 Thermal conductivity
Watts/meter/degree Kelvin 155 Calcium Atomic weight40.078 Atomic number20 Oxidation states2 Boiling point
Kelvin1757 Melting point1112 SymbolCa Density
grams/cubic centimeter 1.55 Electron configuration[Ar] 4s2 Covalent radius
Angstroms1.74 Electronegativity1 Atomic radius
Angstroms1.97 Heat of vaporization
kilojoules/mole 154.67 Atomic volume
cubic centimeters/mole 29.9 Heat of fusion
kilojoules/mole 8.53 Ionization potential6.113 Specific heat capacity
Joules/gram/degree Kelvin 0.647 Thermal conductivity
Watts/meter/degree Kelvin 200 Cadmium Atomic weight112.41 Atomic number48 Oxidation states2 Boiling point
Kelvin1040 Melting point594.26 SymbolCd Density
grams/cubic centimeter 8.65 Electron configuration[Kr] 4d10 5s2 Covalent radius
Angstroms1.41 Electronegativity1.69 Atomic radius
Angstroms1.71 Heat of vaporization
kilojoules/mole 99.87 Atomic volume
cubic centimeters/mole 13.1 Heat of fusion
kilojoules/mole 6.07 Ionization potential8.993 Specific heat capacity
Joules/gram/degree Kelvin 0.233 Thermal conductivity
Watts/meter/degree Kelvin 96.8 Cerium Atomic weight140.12 Atomic number58 Oxidation states3, 4 Boiling point
Kelvin3715 Melting point1071 SymbolCe Density
grams/cubic centimeter 6.77 Electron configuration[Xe] 4f1 5d1 6s2 Covalent radius
Angstroms1.65 Electronegativity1.12 Atomic radius
Angstroms1.81 Heat of vaporization
kilojoules/mole 313.8 Atomic volume
cubic centimeters/mole 21 Heat of fusion
kilojoules/mole 9.2 Ionization potential5.47 Specific heat capacity
Joules/gram/degree Kelvin 0.19 Thermal conductivity
Watts/meter/degree Kelvin 11.4 Californium Atomic weight251 Atomic number98 Oxidation states3 Melting point1170 SymbolCf Electron configuration[Rn] 5f10 7s2 Electronegativity1.3 Ionization potential6.3 Thermal conductivity
Watts/meter/degree Kelvin 10 Chlorine Atomic weight35.4527 Atomic number17 Oxidation states+/-1, 3, 5, 7 Boiling point
Kelvin239.18 Melting point172.17 SymbolCl Density
grams/cubic centimeter 3.214 Electron configuration[Ne] 3s2 p5 Covalent radius
Angstroms0.99 Electronegativity3.16 Atomic radius
Angstroms0.97 Heat of vaporization
kilojoules/mole 10.2 Atomic volume
cubic centimeters/mole 18.7 Heat of fusion
kilojoules/mole 3.21 Ionization potential12.967 Specific heat capacity
Joules/gram/degree Kelvin 0.48 Thermal conductivity
Watts/meter/degree Kelvin 0.0089 Curium Atomic weight247 Atomic number96 Oxidation states3 Melting point1620 SymbolCm Density
grams/cubic centimeter 13.5 Electron configuration[Rn] 5f7 6d1 7s2 Electronegativity1.3 Atomic volume
cubic centimeters/mole 18.3 Ionization potential6.02 Thermal conductivity
Watts/meter/degree Kelvin 10 Cobalt Atomic weight58.9332 Atomic number27 Oxidation states2, 3 Boiling point
Kelvin3143 Melting point1768 SymbolCo Density
grams/cubic centimeter 8.9 Electron configuration[Ar] 3d7 4s2 Covalent radius
Angstroms1.16 Electronegativity1.88 Atomic radius
Angstroms1.25 Heat of vaporization
kilojoules/mole 373.3 Atomic volume
cubic centimeters/mole 6.7 Heat of fusion
kilojoules/mole 16.19 Ionization potential7.86 Specific heat capacity
Joules/gram/degree Kelvin 0.421 Thermal conductivity
Watts/meter/degree Kelvin 100 Chromium Atomic weight51.996 Atomic number24 Oxidation states6, 3, 2 Boiling point
Kelvin2945 Melting point2130 SymbolCr Density
grams/cubic centimeter 7.19 Electron configuration[Ar] 3d5 4s1 Covalent radius
Angstroms1.18 Electronegativity1.66 Atomic radius
Angstroms1.3 Heat of vaporization
kilojoules/mole 339.5 Atomic volume
cubic centimeters/mole 7.23 Heat of fusion
kilojoules/mole 20 Ionization potential6.766 Specific heat capacity
Joules/gram/degree Kelvin 0.449 Thermal conductivity
Watts/meter/degree Kelvin 93.7 Cesium Atomic weight132.9054 Atomic number55 Oxidation states1 Boiling point
Kelvin944 Melting point301.54 SymbolCs Density
grams/cubic centimeter 1.87 Electron configuration[Xe] 6s1 Covalent radius
Angstroms2.35 Electronegativity0.79 Atomic radius
Angstroms2.67 Heat of vaporization
kilojoules/mole 67.74 Atomic volume
cubic centimeters/mole 70 Heat of fusion
kilojoules/mole 2.092 Ionization potential3.894 Specific heat capacity
Joules/gram/degree Kelvin 0.24 Thermal conductivity
Watts/meter/degree Kelvin 35.9 Copper Atomic weight63.546 Atomic number29 Oxidation states2, 1 Boiling point
Kelvin2840 Melting point1356.6 SymbolCu Density
grams/cubic centimeter 8.96 Electron configuration[Ar] 3d10 4s1 Covalent radius
Angstroms1.17 Electronegativity1.9 Atomic radius
Angstroms1.28 Heat of vaporization
kilojoules/mole 300.5 Atomic volume
cubic centimeters/mole 7.1 Heat of fusion
kilojoules/mole 13.14 Ionization potential7.726 Specific heat capacity
Joules/gram/degree Kelvin 0.385 Thermal conductivity
Watts/meter/degree Kelvin 401 Dubnium Atomic weight262 Atomic number105 SymbolDb Electron configuration[Rn] 5f14 6d3 7s2 Dysprosium Atomic weight162.5 Atomic number66 Oxidation states3 Boiling point
Kelvin2840 Melting point1685 SymbolDy Density
grams/cubic centimeter 8.55 Electron configuration[Xe] 4f10 6s2 Covalent radius
Angstroms1.59 Electronegativity1.22 Atomic radius
Angstroms1.8 Heat of vaporization
kilojoules/mole 230 Atomic volume
cubic centimeters/mole 19 Ionization potential5.93 Specific heat capacity
Joules/gram/degree Kelvin 0.173 Thermal conductivity
Watts/meter/degree Kelvin 10.7 Erbium Atomic weight167.26 Atomic number68 Oxidation states3 Boiling point
Kelvin3140 Melting point1802 SymbolEr Density
grams/cubic centimeter 9.07 Electron configuration[Xe] 4f12 6s2 Covalent radius
Angstroms1.57 Electronegativity1.24 Atomic radius
Angstroms1.78 Heat of vaporization
kilojoules/mole 292.88 Atomic volume
cubic centimeters/mole 18.4 Heat of fusion
kilojoules/mole 17.15 Ionization potential6.101 Specific heat capacity
Joules/gram/degree Kelvin 0.168 Thermal conductivity
Watts/meter/degree Kelvin 14.3 Einsteinium Atomic weight252 Atomic number99 Melting point1130 SymbolEs Electron configuration[Rn] 5f11 7s2 Electronegativity1.3 Ionization potential6.42 Thermal conductivity
Watts/meter/degree Kelvin 10 Europium Atomic weight151.965 Atomic number63 Oxidation states3, 2 Boiling point
Kelvin1800 Melting point1095 SymbolEu Density
grams/cubic centimeter 5.24 Electron configuration[Xe] 4f7 6s2 Covalent radius
Angstroms1.85 Electronegativity1.2 Atomic radius
Angstroms1.99 Heat of vaporization
kilojoules/mole 175.73 Atomic volume
cubic centimeters/mole 28.9 Heat of fusion
kilojoules/mole 9.21 Ionization potential5.67 Specific heat capacity
Joules/gram/degree Kelvin 0.182 Thermal conductivity
Watts/meter/degree Kelvin 13.9 Fluorine Atomic weight18.9984 Atomic number9 Oxidation states-1 Boiling point
Kelvin85 Melting point53.55 SymbolF Density
grams/cubic centimeter 1.696 Electron configuration1s2 2s2 p5 Covalent radius
Angstroms0.72 Electronegativity3.98 Atomic radius
Angstroms0.57 Heat of vaporization
kilojoules/mole 3.2698 Atomic volume
cubic centimeters/mole 17.1 Heat of fusion
kilojoules/mole 0.26 Ionization potential17.422 Specific heat capacity
Joules/gram/degree Kelvin 0.824 Thermal conductivity
Watts/meter/degree Kelvin 0.0279 Iron Atomic weight55.847 Atomic number26 Oxidation states2, 3 Boiling point
Kelvin3023 Melting point1808 SymbolFe Density
grams/cubic centimeter 7.874 Electron configuration[Ar] 3d6 4s2 Covalent radius
Angstroms1.17 Electronegativity1.83 Atomic radius
Angstroms1.26 Heat of vaporization
kilojoules/mole 349.5 Atomic volume
cubic centimeters/mole 7.1 Heat of fusion
kilojoules/mole 13.8 Ionization potential7.87 Specific heat capacity
Joules/gram/degree Kelvin 0.449 Thermal conductivity
Watts/meter/degree Kelvin 80.2 Fermium Atomic weight257 Atomic number100 Melting point1800 SymbolFm Electron configuration[Rn] 5f12 7s2 Electronegativity1.3 Ionization potential6.5 Thermal conductivity
Watts/meter/degree Kelvin 10 Francium Atomic weight223 Atomic number87 Oxidation states1 Boiling point
Kelvin950 Melting point300 SymbolFr Electron configuration[Rn] 7s1 Electronegativity0.7 Atomic radius
Angstroms2.7 Heat of vaporization
kilojoules/mole 64 Heat of fusion
kilojoules/mole 2.1 Ionization potential0 Thermal conductivity
Watts/meter/degree Kelvin 15 Gallium Atomic weight69.723 Atomic number31 Oxidation states3 Boiling point
Kelvin2478 Melting point302.92 SymbolGa Density
grams/cubic centimeter 5.91 Electron configuration[Ar] 3d10 4s2 p1 Covalent radius
Angstroms1.26 Electronegativity1.81 Atomic radius
Angstroms1.41 Heat of vaporization
kilojoules/mole 256.06 Atomic volume
cubic centimeters/mole 11.8 Heat of fusion
kilojoules/mole 5.59 Ionization potential5.999 Specific heat capacity
Joules/gram/degree Kelvin 0.371 Thermal conductivity
Watts/meter/degree Kelvin 40.6 Gadolinium Atomic weight157.25 Atomic number64 Oxidation states3 Boiling point
Kelvin3545 Melting point1585 SymbolGd Density
grams/cubic centimeter 7.9 Electron configuration[Xe] 4f7 5d1 6s2 Covalent radius
Angstroms1.61 Electronegativity1.2 Atomic radius
Angstroms1.8 Heat of vaporization
kilojoules/mole 311.71 Atomic volume
cubic centimeters/mole 19.9 Heat of fusion
kilojoules/mole 10.46 Ionization potential6.15 Specific heat capacity
Joules/gram/degree Kelvin 0.236 Thermal conductivity
Watts/meter/degree Kelvin 10.6 Germanium Atomic weight72.61 Atomic number32 Oxidation states4 Boiling point
Kelvin3107 Melting point1211.5 SymbolGe Density
grams/cubic centimeter 5.32 Electron configuration[Ar] 3d10 4s2 p2 Covalent radius
Angstroms1.22 Electronegativity2.01 Atomic radius
Angstroms1.37 Heat of vaporization
kilojoules/mole 334.3 Atomic volume
cubic centimeters/mole 13.6 Heat of fusion
kilojoules/mole 31.8 Ionization potential7.899 Specific heat capacity
Joules/gram/degree Kelvin 0.32 Thermal conductivity
Watts/meter/degree Kelvin 59.9 Hydrogen Atomic weight1.00794 Atomic number1 Oxidation states1 Boiling point
Kelvin20.28 Melting point13.81 SymbolH Density
grams/cubic centimeter 0.0899 Electron configuration1s1 Covalent radius
Angstroms0.32 Electronegativity2.1 Atomic radius
Angstroms2.08 Heat of vaporization
kilojoules/mole 0.4581 Atomic volume
cubic centimeters/mole 14.1 Heat of fusion
kilojoules/mole 0.0585 Ionization potential13.598 Specific heat capacity
Joules/gram/degree Kelvin 14.304 Thermal conductivity
Watts/meter/degree Kelvin 0.1815 Helium Atomic weight4.0026 Atomic number2 Boiling point
Kelvin4.216 Melting point0.95 SymbolHe Density
grams/cubic centimeter 0.1785 Electron configuration1s2 Covalent radius
Angstroms0.93 Electronegativity0 Heat of vaporization
kilojoules/mole 0.084 Atomic volume
cubic centimeters/mole 31.8 Heat of fusion
kilojoules/mole 0.021 Ionization potential24.587 Specific heat capacity
Joules/gram/degree Kelvin 5.193 Thermal conductivity
Watts/meter/degree Kelvin 0.152 Hafnium Atomic weight178.49 Atomic number72 Oxidation states4 Boiling point
Kelvin4875 Melting point2504 SymbolHf Density
grams/cubic centimeter 13.31 Electron configuration[Xe] 4f14 5d2 6s2 Covalent radius
Angstroms1.44 Electronegativity1.3 Atomic radius
Angstroms1.67 Heat of vaporization
kilojoules/mole 661.07 Atomic volume
cubic centimeters/mole 13.6 Heat of fusion
kilojoules/mole 21.76 Ionization potential6.65 Specific heat capacity
Joules/gram/degree Kelvin 0.14 Thermal conductivity
Watts/meter/degree Kelvin 23 Mercury Atomic weight200.59 Atomic number80 Oxidation states2, 1 Boiling point
Kelvin629.88 Melting point234.31 SymbolHg Density
grams/cubic centimeter 13.55 Electron configuration[Xe] 4f14 5d10 6s2 Covalent radius
Angstroms1.49 Electronegativity2 Atomic radius
Angstroms1.6 Heat of vaporization
kilojoules/mole 59.3 Atomic volume
cubic centimeters/mole 14.8 Heat of fusion
kilojoules/mole 2.292 Ionization potential10.437 Specific heat capacity
Joules/gram/degree Kelvin 0.140 Thermal conductivity
Watts/meter/degree Kelvin 8.34 Holmium Atomic weight164.9303 Atomic number67 Oxidation states3 Boiling point
Kelvin2968 Melting point1747 SymbolHo Density
grams/cubic centimeter 8.8 Electron configuration[Xe] 4f11 6s2 Covalent radius
Angstroms1.58 Electronegativity1.23 Atomic radius
Angstroms1.79 Heat of vaporization
kilojoules/mole 251.04 Atomic volume
cubic centimeters/mole 18.7 Heat of fusion
kilojoules/mole 11.06 Ionization potential6.02 Specific heat capacity
Joules/gram/degree Kelvin 0.165 Thermal conductivity
Watts/meter/degree Kelvin 16.2 Hassium Atomic weight265 Atomic number108 SymbolHs Electron configuration[Rn] 5f14 6d6 7s2 Iodine Atomic weight126.9045 Atomic number53 Oxidation states+/-1, 5, 7 Boiling point
Kelvin457.5 Melting point386.7 SymbolI Density
grams/cubic centimeter 4.93 Electron configuration[Kr] 4d10 5s2 p5 Covalent radius
Angstroms1.33 Electronegativity2.66 Atomic radius
Angstroms1.32 Heat of vaporization
kilojoules/mole 20.9 Atomic volume
cubic centimeters/mole 25.7 Heat of fusion
kilojoules/mole 7.76 Ionization potential10.451 Specific heat capacity
Joules/gram/degree Kelvin 0.145 Thermal conductivity
Watts/meter/degree Kelvin 0.449 Indium Atomic weight114.82 Atomic number49 Oxidation states3 Boiling point
Kelvin2350 Melting point429.78 SymbolIn Density
grams/cubic centimeter 7.31 Electron configuration[Kr] 4d10 5s2 p1 Covalent radius
Angstroms1.44 Electronegativity1.78 Atomic radius
Angstroms1.66 Heat of vaporization
kilojoules/mole 226.35 Atomic volume
cubic centimeters/mole 15.7 Heat of fusion
kilojoules/mole 3.26 Ionization potential5.786 Specific heat capacity
Joules/gram/degree Kelvin 0.233 Thermal conductivity
Watts/meter/degree Kelvin 81.6 Iridium Atomic weight192.22 Atomic number77 Oxidation states2, 3, 4, 6 Boiling point
Kelvin4700 Melting point2720 SymbolIr Density
grams/cubic centimeter 22.6 Electron configuration[Xe] 4f14 5d7 6s2 Covalent radius
Angstroms1.27 Electronegativity2.2 Atomic radius
Angstroms1.36 Heat of vaporization
kilojoules/mole 563.58 Atomic volume
cubic centimeters/mole 8.54 Heat of fusion
kilojoules/mole 26.36 Ionization potential9.1 Specific heat capacity
Joules/gram/degree Kelvin 0.13 Thermal conductivity
Watts/meter/degree Kelvin 147 Potassium Atomic weight39.0983 Atomic number19 Oxidation states1 Boiling point
Kelvin1033 Melting point336.8 SymbolK Density
grams/cubic centimeter 0.86 Electron configuration[Ar] 4s1 Covalent radius
Angstroms2.03 Electronegativity0.82 Atomic radius
Angstroms2.35 Heat of vaporization
kilojoules/mole 76.9 Atomic volume
cubic centimeters/mole 45.3 Heat of fusion
kilojoules/mole 2.33 Ionization potential4.341 Specific heat capacity
Joules/gram/degree Kelvin 0.757 Thermal conductivity
Watts/meter/degree Kelvin 102.5 Krypton Atomic weight83.8 Atomic number36 Boiling point
Kelvin120.85 Melting point116 SymbolKr Density
grams/cubic centimeter 3.75 Electron configuration[Ar] 3d10 4s2 p6 Covalent radius
Angstroms1.89 Electronegativity0 Atomic radius
Angstroms1.03 Heat of vaporization
kilojoules/mole 9.029 Atomic volume
cubic centimeters/mole 32.2 Heat of fusion
kilojoules/mole 1.638 Ionization potential13.999 Specific heat capacity
Joules/gram/degree Kelvin 0.248 Thermal conductivity
Watts/meter/degree Kelvin 0.00949 Lanthanum Atomic weight138.9055 Atomic number57 Oxidation states3 Boiling point
Kelvin3737 Melting point1191 SymbolLa Density
grams/cubic centimeter 6.15 Electron configuration[Xe] 5d1 6s2 Covalent radius
Angstroms1.25 Electronegativity1.1 Atomic radius
Angstroms1.38 Heat of vaporization
kilojoules/mole 399.57 Atomic volume
cubic centimeters/mole 22.5 Heat of fusion
kilojoules/mole 11.3 Ionization potential5.58 Specific heat capacity
Joules/gram/degree Kelvin 0.19 Thermal conductivity
Watts/meter/degree Kelvin 13.5 Lithium Atomic weight6.941 Atomic number3 Oxidation states1 Boiling point
Kelvin1615 Melting point453.7 SymbolLi Density
grams/cubic centimeter 0.53 Electron configuration1s2 2s1 Covalent radius
Angstroms1.23 Electronegativity0.98 Atomic radius
Angstroms1.55 Heat of vaporization
kilojoules/mole 147.1 Atomic volume
cubic centimeters/mole 13.1 Heat of fusion
kilojoules/mole 3 Ionization potential5.392 Specific heat capacity
Joules/gram/degree Kelvin 3.582 Thermal conductivity
Watts/meter/degree Kelvin 84.7 Lawrencium Atomic weight262 Atomic number103 Melting point1900 SymbolLr Electron configuration[Rn] 5f14 6d1 7s2 Thermal conductivity
Watts/meter/degree Kelvin 10 Lutetium Atomic weight174.967 Atomic number71 Oxidation states3 Boiling point
Kelvin3668 Melting point1936 SymbolLu Density
grams/cubic centimeter 9.84 Electron configuration[Xe] 4f14 5d1 6s2 Covalent radius
Angstroms1.56 Electronegativity1.27 Atomic radius
Angstroms1.75 Heat of vaporization
kilojoules/mole 355 Atomic volume
cubic centimeters/mole 17.8 Heat of fusion
kilojoules/mole 18.6 Ionization potential5.43 Specific heat capacity
Joules/gram/degree Kelvin 0.15 Thermal conductivity
Watts/meter/degree Kelvin 16.4 Mendelevium Atomic weight258 Atomic number101 Melting point1100 SymbolMd Electron configuration[Rn] 5f13 7s2 Electronegativity1.3 Ionization potential6.58 Thermal conductivity
Watts/meter/degree Kelvin 10 Magnesium Atomic weight24.305 Atomic number12 Oxidation states2 Boiling point
Kelvin1380 Melting point922 SymbolMg Density
grams/cubic centimeter 1.74 Electron configuration[Ne] 3s2 Covalent radius
Angstroms1.36 Electronegativity1.31 Atomic radius
Angstroms1.6 Heat of vaporization
kilojoules/mole 127.6 Atomic volume
cubic centimeters/mole 14 Heat of fusion
kilojoules/mole 8.95 Ionization potential7.646 Specific heat capacity
Joules/gram/degree Kelvin 1.02 Thermal conductivity
Watts/meter/degree Kelvin 156 Manganese Atomic weight54.938 Atomic number25 Oxidation states7, 6, 4, 2, 3 Boiling point
Kelvin2335 Melting point1518 SymbolMn Density
grams/cubic centimeter 7.44 Electron configuration[Ar] 3d5 4s2 Covalent radius
Angstroms1.17 Electronegativity1.55 Atomic radius
Angstroms1.35 Heat of vaporization
kilojoules/mole 219.74 Atomic volume
cubic centimeters/mole 7.39 Heat of fusion
kilojoules/mole 14.64 Ionization potential7.435 Specific heat capacity
Joules/gram/degree Kelvin 0.48 Thermal conductivity
Watts/meter/degree Kelvin 7.82 Molybdenum Atomic weight95.94 Atomic number42 Oxidation states6, 5, 4, 3, 2 Boiling point
Kelvin4912 Melting point2896 SymbolMo Density
grams/cubic centimeter 10.22 Electron configuration[Kr] 4d5 5s1 Covalent radius
Angstroms1.3 Electronegativity2.16 Atomic radius
Angstroms1.39 Heat of vaporization
kilojoules/mole 590.4 Atomic volume
cubic centimeters/mole 9.4 Heat of fusion
kilojoules/mole 36 Ionization potential7.099 Specific heat capacity
Joules/gram/degree Kelvin 0.25 Thermal conductivity
Watts/meter/degree Kelvin 138 Meitnerium Atomic weight266 Atomic number109 SymbolMt Electron configuration[Rn] 5f14 6d7 7s2 Nitrogen Atomic weight14.0067 Atomic number7 Oxidation states+/-3, 5, 4, 2 Boiling point
Kelvin77.344 Melting point63.15 SymbolN Density
grams/cubic centimeter 1.251 Electron configuration1s2 2s2 p3 Covalent radius
Angstroms0.75 Electronegativity3.04 Atomic radius
Angstroms0.92 Heat of vaporization
kilojoules/mole 2.7928 Atomic volume
cubic centimeters/mole 17.3 Heat of fusion
kilojoules/mole 0.36 Ionization potential14.534 Specific heat capacity
Joules/gram/degree Kelvin 1.042 Thermal conductivity
Watts/meter/degree Kelvin 0.02598 Sodium Atomic weight22.98977 Atomic number11 Oxidation states1 Boiling point
Kelvin1156 Melting point371 SymbolNa Density
grams/cubic centimeter 0.97 Electron configuration[Ne] 3s1 Covalent radius
Angstroms1.54 Electronegativity0.93 Atomic radius
Angstroms1.9 Heat of vaporization
kilojoules/mole 98.01 Atomic volume
cubic centimeters/mole 23.7 Heat of fusion
kilojoules/mole 2.601 Ionization potential5.139 Specific heat capacity
Joules/gram/degree Kelvin 1.23 Thermal conductivity
Watts/meter/degree Kelvin 141 Niobium Atomic weight92.9064 Atomic number41 Oxidation states5, 3 Boiling point
Kelvin5015 Melting point2742 SymbolNb Density
grams/cubic centimeter 8.57 Electron configuration[Kr] 4d4 5s1 Covalent radius
Angstroms1.34 Electronegativity1.6 Atomic radius
Angstroms1.46 Heat of vaporization
kilojoules/mole 690.1 Atomic volume
cubic centimeters/mole 10.8 Heat of fusion
kilojoules/mole 26.9 Ionization potential6.88 Specific heat capacity
Joules/gram/degree Kelvin 0.265 Thermal conductivity
Watts/meter/degree Kelvin 53.7 Neodymium Atomic weight144.24 Atomic number60 Oxidation states3 Boiling point
Kelvin3347 Melting point1294 SymbolNd Density
grams/cubic centimeter 7.01 Electron configuration[Xe] 4f4 6s2 Covalent radius
Angstroms1.64 Electronegativity1.14 Atomic radius
Angstroms1.82 Heat of vaporization
kilojoules/mole 283.68 Atomic volume
cubic centimeters/mole 20.6 Heat of fusion
kilojoules/mole 10.88 Ionization potential5.49 Specific heat capacity
Joules/gram/degree Kelvin 0.19 Thermal conductivity
Watts/meter/degree Kelvin 16.5 Neon Atomic weight20.1797 Atomic number10 Boiling point
Kelvin27.1 Melting point24.55 SymbolNe Density
grams/cubic centimeter 0.900 Electron configuration1s2 2s2 p6 Covalent radius
Angstroms0.71 Electronegativity0 Atomic radius
Angstroms0.51 Heat of vaporization
kilojoules/mole 1.77 Atomic volume
cubic centimeters/mole 16.9 Heat of fusion
kilojoules/mole 0.34 Ionization potential21.564 Specific heat capacity
Joules/gram/degree Kelvin 1.03 Thermal conductivity
Watts/meter/degree Kelvin 0.0493 Nickel Atomic weight58.6934 Atomic number28 Oxidation states2, 3 Boiling point
Kelvin3005 Melting point1726 SymbolNi Density
grams/cubic centimeter 8.9 Electron configuration[Ar] 3d8 4s2 Covalent radius
Angstroms1.15 Electronegativity1.91 Atomic radius
Angstroms1.24 Heat of vaporization
kilojoules/mole 377.5 Atomic volume
cubic centimeters/mole 6.6 Heat of fusion
kilojoules/mole 17.2 Ionization potential7.635 Specific heat capacity
Joules/gram/degree Kelvin 0.444 Thermal conductivity
Watts/meter/degree Kelvin 90.7 Nobelium Atomic weight259 Atomic number102 Melting point1100 SymbolNo Electron configuration[Rn] 5f14 7s2 Electronegativity1.3 Ionization potential6.65 Thermal conductivity
Watts/meter/degree Kelvin 10 Neptunium Atomic weight237.0482 Atomic number93 Oxidation states6, 5, 4, 3 Boiling point
Kelvin4175 Melting point912 SymbolNp Density
grams/cubic centimeter 20.2 Electron configuration[Rn] 5f4 6d1 7s2 Electronegativity1.36 Atomic radius
Angstroms1.3 Atomic volume
cubic centimeters/mole 21.1 Ionization potential6.19 Thermal conductivity
Watts/meter/degree Kelvin 6.3 Oxygen Atomic weight15.9994 Atomic number8 Oxidation states-2 Boiling point
Kelvin90.188 Melting point54.8 SymbolO Density
grams/cubic centimeter 1.429 Electron configuration1s2 2s2 p4 Covalent radius
Angstroms0.73 Electronegativity3.44 Atomic radius
Angstroms0.65 Heat of vaporization
kilojoules/mole 3.4109 Atomic volume
cubic centimeters/mole 14 Heat of fusion
kilojoules/mole 0.222 Ionization potential13.618 Specific heat capacity
Joules/gram/degree Kelvin 0.92 Thermal conductivity
Watts/meter/degree Kelvin 0.2674 Osmium Atomic weight190.2 Atomic number76 Oxidation states2, 3, 4, 6, 8 Boiling point
Kelvin5300 Melting point3300 SymbolOs Density
grams/cubic centimeter 22.6 Electron configuration[Xe] 4f14 5d6 6s2 Covalent radius
Angstroms1.26 Electronegativity2.2 Atomic radius
Angstroms1.35 Heat of vaporization
kilojoules/mole 627.6 Atomic volume
cubic centimeters/mole 8.43 Heat of fusion
kilojoules/mole 29.29 Ionization potential8.7 Specific heat capacity
Joules/gram/degree Kelvin 0.13 Thermal conductivity
Watts/meter/degree Kelvin 87.6 Phosphorus Atomic weight30.97376 Atomic number15 Oxidation states+/-3, 5, 4 Boiling point
Kelvin553 Melting point317.3 SymbolP Density
grams/cubic centimeter 1.82 Electron configuration[Ne] 3s2 p3 Covalent radius
Angstroms1.06 Electronegativity2.19 Atomic radius
Angstroms1.28 Heat of vaporization
kilojoules/mole 12.4 Atomic volume
cubic centimeters/mole 17 Heat of fusion
kilojoules/mole 0.63 Ionization potential10.486 Specific heat capacity
Joules/gram/degree Kelvin 0.769 Thermal conductivity
Watts/meter/degree Kelvin 0.235 Protactinium Atomic weight231.0359 Atomic number91 Oxidation states5, 4 Boiling point
Kelvin4300 Melting point1845 SymbolPa Density
grams/cubic centimeter 15.4 Electron configuration[Rn] 5f2 6d1 7s2 Electronegativity1.5 Atomic radius
Angstroms1.61 Atomic volume
cubic centimeters/mole 15 Ionization potential5.88 Thermal conductivity
Watts/meter/degree Kelvin 47 Lead Atomic weight207.2 Atomic number82 Oxidation states4, 2 Boiling point
Kelvin2023 Melting point600.65 SymbolPb Density
grams/cubic centimeter 11.35 Electron configuration[Xe] 4f14 5d10 6s2 p2 Covalent radius
Angstroms1.47 Electronegativity2.33 Atomic radius
Angstroms1.75 Heat of vaporization
kilojoules/mole 177.9 Atomic volume
cubic centimeters/mole 18.3 Heat of fusion
kilojoules/mole 4.77 Ionization potential7.416 Specific heat capacity
Joules/gram/degree Kelvin 0.129 Thermal conductivity
Watts/meter/degree Kelvin 35.3 Palladium Atomic weight106.42 Atomic number46 Oxidation states2, 4 Boiling point
Kelvin3240 Melting point1825 SymbolPd Density
grams/cubic centimeter 12 Electron configuration[Kr] 4d10 Covalent radius
Angstroms1.28 Electronegativity2.2 Atomic radius
Angstroms1.37 Heat of vaporization
kilojoules/mole 393.3 Atomic volume
cubic centimeters/mole 8.9 Heat of fusion
kilojoules/mole 16.74 Ionization potential8.34 Specific heat capacity
Joules/gram/degree Kelvin 0.244 Thermal conductivity
Watts/meter/degree Kelvin 71.8 Promethium Atomic weight145 Atomic number61 Oxidation states3 Boiling point
Kelvin3273 Melting point1315 SymbolPm Density
grams/cubic centimeter 7.22 Electron configuration[Xe] 4f5 6s2 Covalent radius
Angstroms1.63 Electronegativity1.13 Atomic volume
cubic centimeters/mole 22.4 Ionization potential5.55 Thermal conductivity
Watts/meter/degree Kelvin 17.9 Polonium Atomic weight209 Atomic number84 Oxidation states4, 2 Melting point527 SymbolPo Density
grams/cubic centimeter 9.3 Electron configuration[Xe] 4f14 5d10 6s2 p4 Covalent radius
Angstroms1.53 Electronegativity2 Atomic radius
Angstroms1.67 Heat of vaporization
kilojoules/mole 120 Atomic volume
cubic centimeters/mole 22.7 Heat of fusion
kilojoules/mole 13 Ionization potential8.42 Thermal conductivity
Watts/meter/degree Kelvin 20 Praseodymium Atomic weight140.9077 Atomic number59 Oxidation states3, 4 Boiling point
Kelvin3785 Melting point1204 SymbolPr Density
grams/cubic centimeter 6.77 Electron configuration[Xe] 4f3 6s2 Covalent radius
Angstroms1.65 Electronegativity1.13 Atomic radius
Angstroms1.82 Heat of vaporization
kilojoules/mole 332.63 Atomic volume
cubic centimeters/mole 20.8 Heat of fusion
kilojoules/mole 10.04 Ionization potential5.42 Specific heat capacity
Joules/gram/degree Kelvin 0.193 Thermal conductivity
Watts/meter/degree Kelvin 12.5 Platinum Atomic weight195.08 Atomic number78 Oxidation states2, 4 Boiling point
Kelvin4100 Melting point2042.1 SymbolPt Density
grams/cubic centimeter 21.45 Electron configuration[Xe] 4f14 5d9 6s1 Covalent radius
Angstroms1.3 Electronegativity2.28 Atomic radius
Angstroms1.39 Heat of vaporization
kilojoules/mole 510.45 Atomic volume
cubic centimeters/mole 9.1 Heat of fusion
kilojoules/mole 19.66 Ionization potential9 Specific heat capacity
Joules/gram/degree Kelvin 0.13 Thermal conductivity
Watts/meter/degree Kelvin 71.6 Plutonium Atomic weight244 Atomic number94 Oxidation states6, 5, 4, 3 Boiling point
Kelvin3505 Melting point913 SymbolPu Density
grams/cubic centimeter 19.84 Electron configuration[Rn] 5f6 7s2 Electronegativity1.28 Atomic radius
Angstroms1.51 Atomic volume
cubic centimeters/mole 12.32 Ionization potential6.06 Specific heat capacity
Joules/gram/degree Kelvin 0.13 Thermal conductivity
Watts/meter/degree Kelvin 6.74 Radium Atomic weight226.0254 Atomic number88 Oxidation states2 Boiling point
Kelvin1413 Melting point973 SymbolRa Density
grams/cubic centimeter 5 Electron configuration[Rn] 7s2 Electronegativity0.89 Atomic radius
Angstroms2.33 Heat of vaporization
kilojoules/mole 136.82 Atomic volume
cubic centimeters/mole 45.2 Heat of fusion
kilojoules/mole 8.37 Ionization potential5.279 Specific heat capacity
Joules/gram/degree Kelvin 0.094 Thermal conductivity
Watts/meter/degree Kelvin 18.6 Rubidium Atomic weight85.4678 Atomic number37 Oxidation states1 Boiling point
Kelvin961 Melting point312.63 SymbolRb Density
grams/cubic centimeter 1.532 Electron configuration[Kr] 5s1 Covalent radius
Angstroms2.16 Electronegativity0.82 Atomic radius
Angstroms2.48 Heat of vaporization
kilojoules/mole 69.2 Atomic volume
cubic centimeters/mole 55.9 Heat of fusion
kilojoules/mole 2.34 Ionization potential4.177 Specific heat capacity
Joules/gram/degree Kelvin 0.363 Thermal conductivity
Watts/meter/degree Kelvin 58.2 Rhenium Atomic weight186.207 Atomic number75 Oxidation states7, 6, 4, 2, -1 Boiling point
Kelvin5870 Melting point3455 SymbolRe Density
grams/cubic centimeter 21 Electron configuration[Xe] 4f14 5d5 6s2 Covalent radius
Angstroms1.28 Electronegativity1.9 Atomic radius
Angstroms1.37 Heat of vaporization
kilojoules/mole 707.1 Atomic volume
cubic centimeters/mole 8.85 Heat of fusion
kilojoules/mole 33.05 Ionization potential7.88 Specific heat capacity
Joules/gram/degree Kelvin 0.137 Thermal conductivity
Watts/meter/degree Kelvin 47.9 Rutherfordium Atomic weight261 Atomic number104 SymbolRf Electron configuration[Rn] 5f14 6d2 7s2 Rhodium Atomic weight102.9055 Atomic number45 Oxidation states2, 3, 4 Boiling point
Kelvin3970 Melting point2236 SymbolRh Density
grams/cubic centimeter 12.41 Electron configuration[Kr] 4d8 5s1 Covalent radius
Angstroms1.25 Electronegativity2.28 Atomic radius
Angstroms1.34 Heat of vaporization
kilojoules/mole 495.39 Atomic volume
cubic centimeters/mole 8.3 Heat of fusion
kilojoules/mole 21.76 Ionization potential7.46 Specific heat capacity
Joules/gram/degree Kelvin 0.242 Thermal conductivity
Watts/meter/degree Kelvin 150 Radon Atomic weight222 Atomic number86 Boiling point
Kelvin211.4 Melting point202 SymbolRn Density
grams/cubic centimeter 9.73 Electron configuration[Xe] 4f14 5d10 6s2 p6 Electronegativity0 Atomic radius
Angstroms1.34 Heat of vaporization
kilojoules/mole 16.4 Atomic volume
cubic centimeters/mole 50.5 Heat of fusion
kilojoules/mole 2.9 Ionization potential10.748 Specific heat capacity
Joules/gram/degree Kelvin 0.094 Thermal conductivity
Watts/meter/degree Kelvin 0.00364 Ruthenium Atomic weight101.07 Atomic number44 Oxidation states2, 3, 4, 6, 8 Boiling point
Kelvin4425 Melting point2610 SymbolRu Density
grams/cubic centimeter 12.37 Electron configuration[Kr] 4d7 5s1 Covalent radius
Angstroms1.25 Electronegativity2.2 Atomic radius
Angstroms1.34 Heat of vaporization
kilojoules/mole 567.77 Atomic volume
cubic centimeters/mole 8.3 Heat of fusion
kilojoules/mole 25.52 Ionization potential7.37 Specific heat capacity
Joules/gram/degree Kelvin 0.238 Thermal conductivity
Watts/meter/degree Kelvin 117 Sulfur Atomic weight32.066 Atomic number16 Oxidation states+/-2, 4, 6 Boiling point
Kelvin717.82 Melting point392.2 SymbolS Density
grams/cubic centimeter 2.07 Electron configuration[Ne] 3s2 p4 Covalent radius
Angstroms1.02 Electronegativity2.58 Atomic radius
Angstroms1.27 Heat of vaporization
kilojoules/mole 10 Atomic volume
cubic centimeters/mole 15.5 Heat of fusion
kilojoules/mole 1.73 Ionization potential10.36 Specific heat capacity
Joules/gram/degree Kelvin 0.71 Thermal conductivity
Watts/meter/degree Kelvin 0.269 Silver Atomic weight107.868 Atomic number47 Oxidation states1 Boiling point
Kelvin2436 Melting point1235.08 SymbolAg Density
grams/cubic centimeter 10.5 Electron configuration[Kr] 4d10 5s1 Covalent radius
Angstroms1.34 Electronegativity1.93 Atomic radius
Angstroms1.44 Heat of vaporization
kilojoules/mole 250.63 Atomic volume
cubic centimeters/mole 10.3 Heat of fusion
kilojoules/mole 11.3 Ionization potential7.576 Specific heat capacity
Joules/gram/degree Kelvin 0.232 Thermal conductivity
Watts/meter/degree Kelvin 429 Scandium Atomic weight44.9559 Atomic number21 Oxidation states3 Boiling point
Kelvin3109 Melting point1814 SymbolSc Density
grams/cubic centimeter 2.99 Electron configuration[Ar] 3d1 4s2 Covalent radius
Angstroms1.44 Electronegativity1.36 Atomic radius
Angstroms1.62 Heat of vaporization
kilojoules/mole 304.8 Atomic volume
cubic centimeters/mole 15 Heat of fusion
kilojoules/mole 16.11 Ionization potential6.54 Specific heat capacity
Joules/gram/degree Kelvin 0.568 Thermal conductivity
Watts/meter/degree Kelvin 15.8 Selenium Atomic weight78.96 Atomic number34 Oxidation states-2, 4, 6 Boiling point
Kelvin958 Melting point494 SymbolSe Density
grams/cubic centimeter 4.79 Electron configuration[Ar] 3d10 4s2 p4 Covalent radius
Angstroms1.16 Electronegativity2.55 Atomic radius
Angstroms1.4 Heat of vaporization
kilojoules/mole 26.32 Atomic volume
cubic centimeters/mole 16.5 Heat of fusion
kilojoules/mole 5.54 Ionization potential9.752 Specific heat capacity
Joules/gram/degree Kelvin 0.32 Thermal conductivity
Watts/meter/degree Kelvin 2.04 Seaborgium Atomic weight263 Atomic number106 SymbolSg Electron configuration[Rn] 5f14 6d4 7s2 Silicon Atomic weight28.0855 Atomic number14 Oxidation states4 Boiling point
Kelvin2630 Melting point1683 SymbolSi Density
grams/cubic centimeter 2.33 Electron configuration[Ne] 3s2 p2 Covalent radius
Angstroms1.11 Electronegativity1.9 Atomic radius
Angstroms1.32 Heat of vaporization
kilojoules/mole 359 Atomic volume
cubic centimeters/mole 12.1 Heat of fusion
kilojoules/mole 50.2 Ionization potential8.151 Specific heat capacity
Joules/gram/degree Kelvin 0.70 Thermal conductivity
Watts/meter/degree Kelvin 148 Samarium Atomic weight150.36 Atomic number62 Oxidation states3, 2 Boiling point
Kelvin2067 Melting point1347 SymbolSm Density
grams/cubic centimeter 7.52 Electron configuration[Xe] 4f6 6s2 Covalent radius
Angstroms1.62 Electronegativity1.17 Atomic radius
Angstroms1.81 Heat of vaporization
kilojoules/mole 191.63 Atomic volume
cubic centimeters/mole 19.9 Heat of fusion
kilojoules/mole 11.09 Ionization potential5.63 Specific heat capacity
Joules/gram/degree Kelvin 0.197 Thermal conductivity
Watts/meter/degree Kelvin 13.3 Strontium Atomic weight87.62 Atomic number38 Oxidation states2 Boiling point
Kelvin1655 Melting point1042 SymbolSr Density
grams/cubic centimeter 2.54 Electron configuration[Kr] 5s2 Covalent radius
Angstroms1.91 Electronegativity0.95 Atomic radius
Angstroms2.15 Heat of vaporization
kilojoules/mole 136.9 Atomic volume
cubic centimeters/mole 33.7 Heat of fusion
kilojoules/mole 8.2 Ionization potential5.695 Specific heat capacity
Joules/gram/degree Kelvin 0.3 Thermal conductivity
Watts/meter/degree Kelvin 35.3 Tantalum Atomic weight180.9479 Atomic number73 Oxidation states5 Boiling point
Kelvin5730 Melting point3293 SymbolTa Density
grams/cubic centimeter 16.65 Electron configuration[Xe] 4f14 5d3 6s2 Covalent radius
Angstroms1.34 Electronegativity1.5 Atomic radius
Angstroms1.49 Heat of vaporization
kilojoules/mole 737 Atomic volume
cubic centimeters/mole 10.9 Heat of fusion
kilojoules/mole 36 Ionization potential7.89 Specific heat capacity
Joules/gram/degree Kelvin 0.14 Thermal conductivity
Watts/meter/degree Kelvin 57.5 Terbium Atomic weight158.9253 Atomic number65 Oxidation states3, 4 Boiling point
Kelvin3500 Melting point1629 SymbolTb Density
grams/cubic centimeter 8.23 Electron configuration[Xe] 4f9 6s2 Covalent radius
Angstroms1.59 Electronegativity1.1 Atomic radius
Angstroms1.8 Atomic volume
cubic centimeters/mole 19.2 Heat of fusion
kilojoules/mole 15.48 Ionization potential5.86 Specific heat capacity
Joules/gram/degree Kelvin 0.18 Thermal conductivity
Watts/meter/degree Kelvin 11.1 Technetium Atomic weight98 Atomic number43 Oxidation states7 Boiling point
Kelvin4538 Melting point2477 SymbolTc Density
grams/cubic centimeter 11.5 Electron configuration[Kr] 4d5 5s2 Covalent radius
Angstroms1.27 Electronegativity1.9 Atomic radius
Angstroms1.36 Heat of vaporization
kilojoules/mole 502 Atomic volume
cubic centimeters/mole 8.5 Heat of fusion
kilojoules/mole 23 Ionization potential7.28 Specific heat capacity
Joules/gram/degree Kelvin 0.24 Thermal conductivity
Watts/meter/degree Kelvin 50.6 Tellurium Atomic weight127.6 Atomic number52 Oxidation states-2, 4, 6 Boiling point
Kelvin1261 Melting point722.72 SymbolTe Density
grams/cubic centimeter 6.24 Electron configuration[Kr] 4d10 5s2 p4 Covalent radius
Angstroms1.36 Electronegativity2.1 Atomic radius
Angstroms1.42 Heat of vaporization
kilojoules/mole 50.63 Atomic volume
cubic centimeters/mole 20.5 Heat of fusion
kilojoules/mole 17.49 Ionization potential9.009 Specific heat capacity
Joules/gram/degree Kelvin 0.202 Thermal conductivity
Watts/meter/degree Kelvin 2.35 Thorium Atomic weight232.0381 Atomic number90 Oxidation states4 Boiling point
Kelvin5060 Melting point2028 SymbolTh Density
grams/cubic centimeter 11.72 Electron configuration[Rn] 6d2 7s2 Covalent radius
Angstroms1.65 Electronegativity1.3 Atomic radius
Angstroms1.8 Heat of vaporization
kilojoules/mole 543.92 Atomic volume
cubic centimeters/mole 19.9 Heat of fusion
kilojoules/mole 15.65 Ionization potential6.08 Specific heat capacity
Joules/gram/degree Kelvin 0.113 Thermal conductivity
Watts/meter/degree Kelvin 54 Tin Atomic weight118.71 Atomic number50 Oxidation states4, 2 Boiling point
Kelvin2876 Melting point505.12 SymbolSn Density
grams/cubic centimeter 7.31 Electron configuration[Kr] 4d10 5s2 p2 Covalent radius
Angstroms1.41 Electronegativity1.96 Atomic radius
Angstroms1.62 Heat of vaporization
kilojoules/mole 290.37 Atomic volume
cubic centimeters/mole 16.3 Heat of fusion
kilojoules/mole 7.2 Ionization potential7.344 Specific heat capacity
Joules/gram/degree Kelvin 0.228 Thermal conductivity
Watts/meter/degree Kelvin 66.6 Titanium Atomic weight47.88 Atomic number22 Oxidation states4, 3 Boiling point
Kelvin3560 Melting point1945 SymbolTi Density
grams/cubic centimeter 4.54 Electron configuration[Ar] 3d2 4s2 Covalent radius
Angstroms1.32 Electronegativity1.54 Atomic radius
Angstroms1.45 Heat of vaporization
kilojoules/mole 425.2 Atomic volume
cubic centimeters/mole 10.6 Heat of fusion
kilojoules/mole 18.6 Ionization potential6.82 Specific heat capacity
Joules/gram/degree Kelvin 0.523 Thermal conductivity
Watts/meter/degree Kelvin 21.9 Thallium Atomic weight204.383 Atomic number81 Oxidation states3, 1 Boiling point
Kelvin1746 Melting point577 SymbolTl Density
grams/cubic centimeter 11.85 Electron configuration[Xe] 4f14 5d10 6s2 p1 Covalent radius
Angstroms1.48 Electronegativity2.04 Atomic radius
Angstroms1.71 Heat of vaporization
kilojoules/mole 162.09 Atomic volume
cubic centimeters/mole 17.2 Heat of fusion
kilojoules/mole 4.27 Ionization potential6.108 Specific heat capacity
Joules/gram/degree Kelvin 0.129 Thermal conductivity
Watts/meter/degree Kelvin 46.1 Thulium Atomic weight168.9342 Atomic number69 Oxidation states3, 2 Boiling point
Kelvin2223 Melting point1818 SymbolTm Density
grams/cubic centimeter 9.32 Electron configuration[Xe] 4f13 6s2 Covalent radius
Angstroms1.56 Electronegativity1.25 Atomic radius
Angstroms1.77 Heat of vaporization
kilojoules/mole 191 Atomic volume
cubic centimeters/mole 18.1 Heat of fusion
kilojoules/mole 16.8 Ionization potential6.184 Specific heat capacity
Joules/gram/degree Kelvin 0.16 Thermal conductivity
Watts/meter/degree Kelvin 16.8 Uranium Atomic weight238.029 Atomic number92 Oxidation states6, 5, 4, 3 Boiling point
Kelvin4407 Melting point1408 SymbolU Density
grams/cubic centimeter 18.95 Electron configuration[Rn] 5f3 6d1 7s2 Covalent radius
Angstroms1.42 Electronegativity1.38 Atomic radius
Angstroms1.38 Heat of vaporization
kilojoules/mole 422.58 Atomic volume
cubic centimeters/mole 12.5 Heat of fusion
kilojoules/mole 15.48 Ionization potential6.05 Specific heat capacity
Joules/gram/degree Kelvin 0.12 Thermal conductivity
Watts/meter/degree Kelvin 27.6 ununbium Atomic weight277 Atomic number112 SymbolUub Electron configuration[Rn] 5f14 6d10 7s2 ununnilium Atomic weight269 Atomic number110 SymbolUun Electron configuration[Rn] 5f14 6d8 7s2 unununium Atomic weight272 Atomic number111 SymbolUuu Electron configuration[Rn] 5f14 6d9 7s2 Vanadium Atomic weight50.9415 Atomic number23 Oxidation states5, 4, 3, 2 Boiling point
Kelvin3650 Melting point2163 SymbolV Density
grams/cubic centimeter 6.11 Electron configuration[Ar] 3d3 4s2 Covalent radius
Angstroms1.22 Electronegativity1.63 Atomic radius
Angstroms1.34 Heat of vaporization
kilojoules/mole 446.7 Atomic volume
cubic centimeters/mole 8.35 Heat of fusion
kilojoules/mole 20.8 Ionization potential6.74 Specific heat capacity
Joules/gram/degree Kelvin 0.489 Thermal conductivity
Watts/meter/degree Kelvin 30.7 Tungsten Atomic weight183.85 Atomic number74 Oxidation states6, 5, 4, 3, 2 Boiling point
Kelvin5825 Melting point3695 SymbolW Density
grams/cubic centimeter 19.3 Electron configuration[Xe] 4f14 5d4 6s2 Covalent radius
Angstroms1.3 Electronegativity2.36 Atomic radius
Angstroms1.41 Heat of vaporization
kilojoules/mole 422.58 Atomic volume
cubic centimeters/mole 9.53 Heat of fusion
kilojoules/mole 35.4 Ionization potential7.98 Specific heat capacity
Joules/gram/degree Kelvin 0.13 Thermal conductivity
Watts/meter/degree Kelvin 174 Xenon Atomic weight131.29 Atomic number54 Boiling point
Kelvin165.1 Melting point161.39 SymbolXe Density
grams/cubic centimeter 5.9 Electron configuration[Kr] 4d10 5s2 p6 Covalent radius
Angstroms1.31 Electronegativity2.6 Atomic radius
Angstroms1.24 Heat of vaporization
kilojoules/mole 12.64 Atomic volume
cubic centimeters/mole 42.9 Heat of fusion
kilojoules/mole 2.3 Ionization potential12.13 Specific heat capacity
Joules/gram/degree Kelvin 0.158 Thermal conductivity
Watts/meter/degree Kelvin 0.00569 Yttrium Atomic weight88.9059 Atomic number39 Oxidation states3 Boiling point
Kelvin3611 Melting point1795 SymbolY Density
grams/cubic centimeter 4.47 Electron configuration[Kr] 4d1 5s2 Covalent radius
Angstroms1.62 Electronegativity1.22 Atomic radius
Angstroms1.78 Heat of vaporization
kilojoules/mole 363.3 Atomic volume
cubic centimeters/mole 19.8 Heat of fusion
kilojoules/mole 17.5 Ionization potential6.38 Specific heat capacity
Joules/gram/degree Kelvin 0.3 Thermal conductivity
Watts/meter/degree Kelvin 17.2 Ytterbium Atomic weight173.04 Atomic number70 Oxidation states3, 2 Boiling point
Kelvin1469 Melting point1092 SymbolYb Density
grams/cubic centimeter 6.97 Electron configuration[Xe] 4f14 6s2 Covalent radius
Angstroms1.7 Electronegativity1.1 Atomic radius
Angstroms1.94 Heat of vaporization
kilojoules/mole 128 Atomic volume
cubic centimeters/mole 24.8 Heat of fusion
kilojoules/mole 7.7 Ionization potential6.254 Specific heat capacity
Joules/gram/degree Kelvin 0.155 Thermal conductivity
Watts/meter/degree Kelvin 34.9 Zinc Atomic weight65.39 Atomic number30 Oxidation states2 Boiling point
Kelvin1180 Melting point692.73 SymbolZn Density
grams/cubic centimeter 7.13 Electron configuration[Ar] 3d10 4s2 Covalent radius
Angstroms1.25 Electronegativity1.65 Atomic radius
Angstroms1.38 Heat of vaporization
kilojoules/mole 115.3 Atomic volume
cubic centimeters/mole 9.2 Heat of fusion
kilojoules/mole 7.38 Ionization potential9.394 Specific heat capacity
Joules/gram/degree Kelvin 0.388 Thermal conductivity
Watts/meter/degree Kelvin 116 Zirconium Atomic weight91.224 Atomic number40 Oxidation states4 Boiling point
Kelvin4682 Melting point2128 SymbolZr Density
grams/cubic centimeter 6.51 Electron configuration[Kr] 4d2 5s2 Covalent radius
Angstroms1.45 Electronegativity1.33 Atomic radius
Angstroms1.6 Heat of vaporization
kilojoules/mole 590.5 Atomic volume
cubic centimeters/mole 14.1 Heat of fusion
kilojoules/mole 21 Ionization potential6.84 Specific heat capacity
Joules/gram/degree Kelvin 0.278 Thermal conductivity
Watts/meter/degree Kelvin 22.7