Atomic Properties. Atomic weight amu Face centered cubic Rn 6d 1 7s , 3
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- Job Barton
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1 Actinium Ac Aluminium Al Americium Am Antimony Sb Argon Ar Arsenic As Astatine At Barium Ba Berkelium Bk Beryllium Be Bismuth Bi Bohrium Bh Boron B Bromine Br Cadmium Cd Caesium Cs Calcium Ca Californium Cf Carbon C Atomic number Atomic radius - Goldschmidt nm Atomic weight amu Atomic Properties Crystal structure Electronic structure Photo-electric work function ev Thermal neutron absorption crosssection Barns Valences shown Face centered cubic Rn 6d 1 7s , Face centred cubic Ne 3s 2 3p (243) Face centered cubic Rn 5f 7 7s , 4, 5, Rhombohedral Kr 4d 10 5s 2 5p , 0, 3, Ne 3s 2 p Rhombohedral Ar 3d 10 4s 2 4p , 0, 3, (210) - Xe 4f 14 5d 10 6s2 p , 3, 5, Body centred cubic Xe 6s (247) - Rn 5f 9 s , Hexagonal close He 2s Rhombohedral Xe 4f 14 5d 10 6s2 6p , (262) - Rn 5f 14 6d 5 7s Tetragonal He 2s 2 2p Ar 3d 10 4s 2 p Hexagonal close Kr 4d 10 5s Body centred cubic Xe 6s Face centred cubic Ar 4s (251) - Rn 5f 10 7s , Hexagonal/Diamond He 2s 2 2p , 3, 4 1, 5 1
2 Cerium Ce Chlorine Cl Chromium Cr Cobalt Co Copernicum Cp Copper Cu Curium Cm Darmstadtium Ds Dubnium Db Dysprosium Dy Einsteinium Es Erbium Er Europium Eu Fermium Fm Fluorine F Francium Fr Gadolinium Gd Gallium Ga Germanium Ge Gold Au Atomic number Atomic radius - Goldschmidt nm Atomic weight amu Atomic Properties Crystal structure Electronic structure Photo-electric work function ev Thermal neutron absorption crosssection Barns Valences shown Face centred cubic Xe 4f 2 6s , Ne 3s 2 p , 3, 5, Body centred cubic Ar 3d 5 4s , 3, Hexagonal close Ar 3d 7 4s , Face centred cubic Ar 3d 10 4s , (247) - Rn 5f 7 6d 1 7s (262) - Rn 5p 14 6d 3 7s Hexagonal close Xe 4f 10 6s (252) - Rn 5f 11 7s , Hexagonal close Xe 4f 12 6s Body centred cubic Xe 4f 7 6s , 3 - (257) - Rn 5f 12 7s He 2s 2 p (223) - Rn 7s Hexagonal close Xe 4f 7 5d 1 6s Orthorhombic Ar 3d 10 4s 2 4p , Diamond Ar 3d 10 4s 2 4p , Face centred cubic Xe 4f 14 5d 10 6s ,3 2
3 Hafnium Hf Hassium Hs Helium He Holmium Ho Hydrogen H Indium In Iodine I Iridium Ir Iron Fe Krypton Kr Lanthanum La Lawrencium Lr Lead Pb Lithium Li Lutetium Lu Magnesium Mg Manganese Mn Meitnerium Mt Mendelevium Md Atomic number Atomic radius - Goldschmidt nm Atomic weight amu Atomic Properties Crystal structure Electronic structure Photo-electric work function ev Thermal neutron absorption crosssection Barns Valences shown Hexagonal close Xe 4f 14 5d 2 6s Rn 5f 14 6d 6 7s s Hexagonal close Xe 4f 11 6s s Face centred tetragonal Kr 4d 10 5s 2 p5-6.2 Kr 4d 10 5s 2 5p , 2, Face centred cubic Xe 4f 14 5d 7 6s , Body centred cubic Ar 3d 6 4s , 3, 4, Ar 3d 10 4s 2 p Hexagonal close /Face centred cubic Xe 5d 1 6s (260) - Rn 5f 14 6d 1 7s Face centred cubic Xe 4f 14 5d 10 6s2 6p , Body centred cubic He 2s Hexagonal close Xe 4f 14 5d 1 6s Hexagonal close Ne 3s Body centred cubic Ar 3d 5 4s , 2, 3, 4, 6, (258) - Rn 5f 13 7s , 3 1, 5, 7 3
4 Mercury Hg Molybdenum Mo Neodymium Nd Neon Ne Neptunium Np Nickel Ni Niobium Nb Nitrogen N Nobelium No Osmium Os Oxygen O Palladium Pd Phosphorus P Platinum Pt Plutonium Pu Polonium Po Potassium K Praseodymium Pr Promethium Pm Protactinium Pa Atomic number Atomic radius - Goldschmidt nm Atomic weight amu Atomic Properties Crystal structure Electronic structure Photo-electric work function ev Thermal neutron absorption crosssection Barns Valences shown Rhombohedral Xe 4f 14 5d 10 6s , Body centred cubic Kr 4d 5 5s , 3, 4, 5, Hexagonal close Xe 4f 4 6s He 2s 2 p Rn 5f 4 6d 1 7s , 4, 5, Face centred cubic Ar 3d 8 4s , 1, 2, Body centred cubic Kr 4d 4 5s , 3, 4, He 2s 2 p , 3, 4, (259) - Rn 5f 14 7s Hexagonal close Xe 4f 14 5d 6 6s , 1, 2, 3, 4, 5, 6, 7, He 2s 2 p Face centred cubic Kr 4d , 3, Ne 3s 2 p Face centred cubic Xe 4f 14 5d 9 6s , 2, 3, (244) - Rn 5f 6 7s , 4, 5, (209) - Xe 4f 14 5d 10 6s2 p , Body centred cubic Ar 4s Hexagonal close Xe 4f 3 6s , (145) - Xe 4f 5 6f Rn 5f 2 6d 1 7s , 5 3, 4, 5 4
5 Radium Ra Radon Rn Rhenium Re Rhodium Rh Roentgenium Rg Rubidium Rb Ruthenium Ru Rutherfordium Rf Samarium Sm Scandium Sc Seaborgium Sg Selenium Se Silicon Si Silver Ag Sodium Na Strontium Sr Sulphur S Tantalum Ta Technetium Tc Tellurium Te Atomic number Atomic radius - Goldschmidt nm Atomic weight amu Atomic Properties Crystal structure Electronic structure Photo-electric work function ev Thermal neutron absorption crosssection Barns Valences shown Rn 7s (222) - Xe 4f 14 5d Hexagonal close Xe 4f 14 5d 5 6s , 1, 2, 3, 4, 5, 6, Face centred cubic Kr 4d 8 5s , 3, 4, 5, Body centred cubic Kr 5s , 2, 3, Hexagonal close Kr 4d 7 5s , 1, 2, 3, 4, 5, 6, 7, (261) - Rn 5f 14 6d 2 7s Rhombohedral Xe 4f 6 6s , Hexagonal close Ar 3d 1 4s (263) - Rn 5f 14 6d 4 7s Hexagonal Ar 3d 10 4s 2 4p , 4, Diamond Ne 3s 2 3p Face centred cubic Kr 4d 10 5s , Body centred cubic Ne 3s Face centred cubic Kr 5s Ne 3s 2 p Body centred cubic Xe 4f 14 5d 3 6s , 3, 4, (98) - Kr 4d 5 5s Hexagonal Kr 4d 10 5s 2 5p , 4, 6 2, 4, 6 5
6 Terbium Tb Thallium Tl Thorium Th Thulium Tm Tin Sn Titanium Ti Tungsten W Ununhexium Uuh Ununoctium Uuo Ununpentium Uup Ununquadium Uuq Ununseptium Uus Ununtritium Uut Uranium U Vanadium V Xenon Xe Ytterbium Yb Yttrium Y Zinc Zn Zirconium Zr Atomic number Atomic radius - Goldschmidt nm Atomic weight amu Atomic Properties Crystal structure Electronic structure Photo-electric work function ev Thermal neutron absorption crosssection Barns Valences shown Hexagonal close Xe 4f 9 6s , Hexagonal close Xe 4f 14 5d 10 6s2 6p , Face centred cubic Rn 6d 2 7s , 3, Hexagonal close Xe 4f 13 6s , Tetragonal Kr 4d 10 5s 2 5p , Hexagonal close Ar 3d 2 4s , 3, Body centred cubic Xe 4f 14 5d 4 6s , 3, 4, 5, Orthorhombic Rn 5f 3 6d 1 7s , 3, 4, 5, Body centred cubic Ar 3d 3 4s , 3, 4, Kr 4d 10 5s 2 p Hexagonal close Hexagonal close Hexagonal close Hexagonal close Xe 4f 14 6s , 3 Kr 4d 1 5s Ar 3d 10 4s Kr 4d 2 5s , 3, 4 6
7 7
8 Aluminium Al Antimony Sb Argon Ar Arsenic As Barium Ba Beryllium Be Bismuth Bi Boron B Bromine Br Cadmium Cd Caesium Cs Calcium Ca Carbon C Cerium Ce Chlorine Cl Chromium Cr Cobalt Co Copper Cu Dysprosium Dy Erbium Er Element Natural isotope distribution Mass No. - % Atomic Properties Ionisation potential - ev
9 Atomic Properties Europium Eu Fluorine F Gadolinium Gd Gallium Ga Germanium Ge Gold Au Hafnium Hf Helium He Holmium Ho Hydrogen H Indium In Iodine I Iridium Ir Iron Fe Krypton Kr Lanthanum La Lead Pb Lithium Li Lutetium Lu Magnesium Mg Element Natural isotope distribution Mass No. - % Ionisation potential - ev
10 Element Manganese Mn Mercury Hg Molybdenum Mo Neodymium Nd Neon Ne Nickel Ni Niobium Nb Nitrogen N Osmium Os Oxygen O Palladium Pd Phosphorus P Platinum Pt Potassium K Praseodymium Pr Protactinium Pa Rhenium Re Rhodium Rh Rubidium Rb Ruthenium Ru Samarium Sm Natural isotope distribution Mass No. - % Atomic Properties Ionisation potential - ev
11 Atomic Properties Scandium Sc Selenium Se Silicon Si Silver Ag Sodium Na Strontium Sr Sulphur S Tantalum Ta Tellurium Te Terbium Tb Thallium Tl Thorium Th Thulium Tm Tin Sn Titanium Ti Tungsten W Uranium U Vanadium V Xenon Xe Ytterbium Yb Yttrium Y Element Natural isotope distribution Mass No. - % Ionisation potential - ev
12 Atomic Properties Zinc Zn Zirconium Zr Element Natural isotope distribution Mass No. - % Ionisation potential - ev
13 Electrical resistivity mohmcm Metal - Electrical Properties Temperature coefficient K -1 Superconductivity critical temperature K Thermal emf against Pt (cold 0C - hot C) mv Aluminium Al Antimony Sb Arsenic As Beryllium Be Bismuth Bi Boron B Cadmium Cd Caesium Cs Calcium Ca Carbon C Cerium Ce Chromium Cr Cobalt Co Copper Cu Dysprosium Dy Erbium Er Europium Eu Gadolinium Gd Gallium Ga x
14 Electrical resistivity mohmcm Metal - Electrical Properties Temperature coefficient K -1 Superconductivity critical temperature K Thermal emf against Pt (cold 0C - hot C) mv Germanium Ge Gold Au Hafnium Hf Holmium Ho Indium In Iridium Ir Iron Fe Lanthanum La Lead Pb Lithium Li Lutetium Lu Magnesium Mg Manganese Mn Molybdenum Mo Neodymium Nd Nickel Ni Niobium Nb Osmium Os Palladium Pd Platinum Pt 46x
15 Electrical resistivity mohmcm Metal - Electrical Properties Temperature coefficient K -1 Superconductivity critical temperature K Thermal emf against Pt (cold 0C - hot C) mv Potassium K Praseodymium Pr Rhenium Re Rhodium Rh Rubidium Rb Ruthenium Ru Samarium Sm Scandium Sc Selenium Se Silicon Si Silver Ag Sodium Na Tantalum Ta Tellurium Te Terbium Tb Thallium Tl Thorium Th Thulium Tm Tin Sn Titanium Ti x x
16 Electrical resistivity mohmcm Metal - Electrical Properties Temperature coefficient K -1 Superconductivity critical temperature K Thermal emf against Pt (cold 0C - hot C) mv Tungsten W Uranium U Vanadium V Ytterbium Yb Yttrium Y Zinc Zn Zirconium Zr
17 Aluminium Al Antimony Sb Arsenic As Barium Ba Beryllium Be Bismuth Bi Boron B Cadmium Cd Caesium Cs Calcium Ca Carbon C Cerium Ce Chromium Cr Cobalt Co Material condition Bulk modulus GPa Brinell Metal - Mechanical Properties Mohs Vickers Izod toughness J m -1 Poisson s ratio Tensile modulus GPa Tensile strength MPa Yield strength MPa Soft Hard Polycrystalline Polycrystalline Polycrystalline Polycrystalline Soft Hard Polycrystalline Polycrystalline Arc melted Cast Polycrystalline Polycrystalline Soft Hard Polycrystalline Graphite Diamond Cast Polycrystalline Soft Hard Polycrystalline Soft Hard Polycrystalline
18 Copper Cu Dysprosium Dy Erbium Er Europium Eu Gadolinium Gd Gallium Ga Germanium Ge Gold Au Hafnium Hf Holmium Ho Indium In Iridium Ir Iron Fe Lanthanum La Lead Pb Lithium Li Material condition Bulk modulus GPa Brinell Metal - Mechanical Properties Mohs Vickers Izod toughness J m -1 Poisson s ratio Tensile modulus GPa Tensile strength MPa Yield strength MPa Soft Hard Polycrystalline Polycrystalline Polycrystalline Polycrystalline Polycrystalline Polycrystalline Polycrystalline Soft Hard Polycrystalline Soft Hard Polycrystalline Polycrystalline Soft < Polycrystalline Soft Hard Polycrystalline Polycrystalline Polycrystalline Sand cast Polycrystalline Polycrystalline <
19 Lutetium Lu Magnesium Mg Manganese Mn Molybdenum Mo Neodymium Nd Nickel Ni Niobium Nb Osmium Os Palladium Pd Platinum Pt Potassium K Praseodymium Pr Rhenium Re Material condition Bulk modulus GPa Brinell Metal - Mechanical Properties Mohs Vickers Izod toughness J m -1 Poisson s ratio Tensile modulus GPa Tensile strength MPa Polycrystalline Yield strength MPa Soft Hard Polycrystalline Polycrystalline Soft Hard Polycrystalline Polycrystalline Soft Hard Polycrystalline Soft Hard Polycrystalline Soft Hard Polycrystalline Soft Hard Polycrystalline Soft Hard Polycrystalline Polycrystalline C Polycrystalline Soft Hard Polycrystalline
20 Rhodium Rh Rubidium Rb Ruthenium Ru Samarium Sm Scandium Sc Selenium Se Silicon Si Silver Ag Tantalum Ta Tellurium Te Terbium Tb Thallium Tl Thorium Th Thulium Tm Tin Sn Material condition Bulk modulus GPa Brinell Metal - Mechanical Properties Mohs Vickers Izod toughness J m -1 Poisson s ratio Tensile modulus GPa Tensile strength MPa Yield strength MPa Soft Hard Polycrystalline Polycrystalline Soft Hard Polycrystalline Polycrystalline Soft Hard Polycrystalline Polycrystalline Polycrystalline Soft Hard Polycrystalline Soft Hard Polycrystalline Polycrystalline Polycrystalline Polycrystalline Soft Hard Polycrystalline Polycrystalline Polycrystalline
21 Titanium Ti Tungsten W Uranium U Vanadium V Ytterbium Yb Yttrium Y Zinc Zn Zirconium Zr Material condition Bulk modulus GPa Brinell Metal - Mechanical Properties Mohs Vickers Izod toughness J m -1 Poisson s ratio Tensile modulus GPa Tensile strength MPa Yield strength MPa Annealed Polycrystalline Soft Hard Polycrystalline Soft Hard Polycrystalline Soft Hard Polycrystalline Polycrystalline Soft Hard Polycrystalline Polycrystalline Soft Polycrystalline
22 Boiling point C Metal - Physical Properties Density g cm -3 Melting point C Aluminium Al Antimony Sb Arsenic As Barium Ba Beryllium Be Bismuth Bi Boron B Cadmium Cd Caesium Cs Calcium Ca Carbon C Cerium Ce Chromium Cr Cobalt Co Copper Cu Dysprosium Dy Erbium Er Europium Eu Gadolinium Gd Sublimes >
23 Boiling point C Metal - Physical Properties Density g cm -3 Melting point C Gallium Ga Germanium Ge Gold Au Hafnium Hf Holmium Ho Indium In Iridium Ir Iron Fe Lanthanum La Lead Pb Lithium Li Lutetium Lu Magnesium Mg Manganese Mn Molybdenum Mo Neodymium Nd Nickel Ni Niobium Nb Osmium Os Palladium Pd
24 Boiling point C Metal - Physical Properties Density g cm -3 Melting point C Phosphorus P Platinum Pt Potassium K Praseodymium Pr Rhenium Re Rhodium Rh Rubidium Rb Ruthenium Ru Samarium Sm Scandium Sc Selenium Se Silicon Si Silver Ag Sodium Na Tantalum Ta Tellurium Te Terbium Tb Thallium Tl Thorium Th Thulium Tm 280 (White allotrope) 44.1 (White allotrope)
25 Boiling point C Metal - Physical Properties Density g cm -3 Melting point C Tin Sn Titanium Ti Tungsten W Uranium U Vanadium V Ytterbium Yb Yttrium Y Zinc Zn Zirconium Zr
26 Aluminium Al Antimony Sb Arsenic As Barium Ba Beryllium Be Bismuth Bi Boron B Cadmium Cd Caesium Cs Calcium Ca Carbon C Cerium Ce Chromium Cr Cobalt Co Copper Cu Dysprosium Dy Erbium Er Europium Eu Gadolinium Gd Coefficient of thermal expansion x10-6 K -1 Metal - Thermal Properties Latent heat of evaporation J g -1 Latent heat of fusion J g -1 Specific heat J K -1 kg -1 Thermal conductivity W m -1 K
27 Gallium Ga Germanium Ge Gold Au Hafnium Hf Holmium Ho Indium In Iridium Ir Iron Fe Lanthanum La Lead Pb Lithium Li Lutetium Lu Magnesium Mg Manganese Mn Molybdenum Mo Neodymium Nd Nickel Ni Niobium Nb Osmium Os Palladium Pd Coefficient of thermal expansion x10-6 K -1 Metal - Thermal Properties Latent heat of evaporation J g -1 Latent heat of fusion J g -1 Specific heat J K -1 kg -1 Thermal conductivity W m -1 K
28 Platinum Pt Potassium K Praseodymium Pr Rhenium Re Rhodium Rh Rubidium Rb Ruthenium Ru Samarium Sm Scandium Sc Selenium Se Silicon Si Silver Ag Sodium Na Tantalum Ta Tellurium Te Terbium Tb Thallium Tl Thorium Th Thulium Tm Tin Sn Coefficient of thermal expansion x10-6 K -1 Metal - Thermal Properties Latent heat of evaporation J g -1 Latent heat of fusion J g -1 Specific heat J K -1 kg -1 Thermal conductivity W m -1 K
29 Titanium Ti Tungsten W Uranium U Vanadium V Ytterbium Yb Yttrium Y Zinc Zn Zirconium Zr Coefficient of thermal expansion x10-6 K -1 Metal - Thermal Properties Latent heat of evaporation J g -1 Latent heat of fusion J g -1 Specific heat J K -1 kg -1 Thermal conductivity W m -1 K