Difference between revisions of "Thorium"
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This element has no stable isotopes. | This element has no stable isotopes. | ||
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+ | Thorium is a soft, very ductile, silver-gray, heavy, metallic element of the actinide series of elements. Thorium is used in some high strength alloys and ultraviolet photoelectric cells. | ||
+ | Thorium is present in small quantities in all volcanic rocks. Uranium-Thorium radioactive dating is a key technique for establishing the date of rocks. | ||
+ | When bombarded with neutrons thorium becomes [[uranium]] 233, a fuel for nuclear reactors. Since nuclear reactors produce neutrons, this cycle can be used as a self-sustaining nuclear reaction producing power from Thorium fuel, although at present no commercial reactors use this fuel. | ||
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+ | ==External Links== | ||
+ | *[http://www.uic.com.au/nip67.htm page on Thorium as a nuclear fuel] | ||
+ | <BR/><BR/> | ||
Revision as of 13:57, 13 February 2007
Thorium | |
---|---|
Th | |
In situ availability: | |
Necessity: | |
Atomic number: | 90 |
Atomic mass: | 232.0381 |
group: | 19 |
period: | N/A |
normal phase: | Solid |
series: | Actinide |
density: | 11.7 g/cm3 |
melting point: | 2115K, 1842°C, 3348°F |
boiling point: | 5061K, 4788°C, 8650°F |
La ← Ce → Pr | |
Ac ← Th → Pa | |
N/A ← N/A → N/A | |
Atomic radius (pm): | 180 |
Bohr radius (pm): | |
Covalent radius (pm): | |
Van der Waals radius (pm): | |
ionic radius (pm): | (+4) 94 |
1st ion potential (eV): | 6.08 |
Electron Configuration | |
1s2 2s2 2p6 3s2 3p6 3d10 4s2 4p6 4d10 4f14 5s2 5p6 5d10 6s2 6p6 6d2 7s2 | |
Electrons Per Shell | |
2, 8, 18, 32, 18, 10, 2 | |
Electronegativity: | 1.3 |
Electron Affinity: | - |
Oxidation states: | 4 |
Magnetism: | ? |
Crystal structure: | Face centered cubic |
Thorium is a Actinide metal.
It has a Face centered cubic crystalline structure.
This element has no stable isotopes.
Thorium is a soft, very ductile, silver-gray, heavy, metallic element of the actinide series of elements. Thorium is used in some high strength alloys and ultraviolet photoelectric cells.
Thorium is present in small quantities in all volcanic rocks. Uranium-Thorium radioactive dating is a key technique for establishing the date of rocks.
When bombarded with neutrons thorium becomes uranium 233, a fuel for nuclear reactors. Since nuclear reactors produce neutrons, this cycle can be used as a self-sustaining nuclear reaction producing power from Thorium fuel, although at present no commercial reactors use this fuel.
External Links
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