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Thorium electronic configuration

Thorium [7440-29-1], a naturally occurring radioactive element, atomic number 90, atomic mass 232.0381, is the second element of the actinide ( f) series (see Actinides AND transactinides Radioisotopes). Discovered in 1828 in a Norwegian mineral, thorium was first isolated in its oxide form. For the light actinide elements in the first half of the. series, there is a small energy difference between and 5/ 6d7 electronic configurations. Atomic spectra... [Pg.35]

CyclooctatetraenylCompounds. Sandwich-type complexes of cyclooctatetraene (COT), CgH g, are well known. The chemistry of thorium—COT complexes is similar to that of its Cp analogues in steric number and electronic configurations. Thorocene [12702-09-9], COT2Th, (16), the simplest of the COT derivatives, has been prepared by the interaction of ThCl [10026-08-1] and two equivalents of K CgHg. Thorocene derivatives with alkyl-, sdyl-, and aryl-substituted COT ligands have also been described. These compounds are thermally stable, air-sensitive, and appear to have substantial ionic character. [Pg.42]

Periodic Table Americium, http //www.chemicalelements.com/elements/am.html (accessed September 6> 2005). Periodic Table Plutonium, http //www.chemicalelements.com/elements/pu.html (accessed September 6> 2005). Periodic Table Protactinium, http //www.chemicalelements.com/elements/pa.html (accessed September 6> 2005). Periodic Table Thorium (accessed September 6> 2005).Periodic Table Uranium (accessed September 6, 2005).Periodic Table Electron Configuration, http //www.chemicalelements.com/ show/electronconfig.html (accessed November... [Pg.415]

I he atomic wcighi varies because of natural variations in the isotopic composition of the element, caused by the various isotopes having different origins - I h is the end product of the thorium decay scries, while Ph and " Pb arise Irom uranium as end products of the actinium and radium series respectively. Lead-204 has no existing natural radioactive precursors. Electronic configuration l.v 2s lfc22/j"3v 3//,3i/l"4v- 4/, 4l/" 4/ IJ5v- 5/ "5t/l"bv />-. Ionic radius Pb I.IX A. Pb 1 0.7(1 A. Metallic radius 1.7502 A. Covalent radius (ip i 1.44 A. First ionization potential 7.415 cV second. 14.17 eV. Oxidation... [Pg.922]

In the case of manganese(I), with an electronic configuration of 3d , the four-electron donor group RCO— would meet the EAN rule. Indirect support to the suggestion of a small steady state concentration of this type of intermediate along the reaction profile comes from isolation of stable rj -coordinated acyl complexes of ruthenium(II) , of group IVA transition elements and of thorium , all in the highest oxidation state. Also > -acyl complexes of vanadium(I) ° and niobium(V) have been reported. Most of the molybdenum acyl complexes are of the type . [Pg.600]

The influence of unoccupied 5/band states on the Fermi surface of thorium metal has been evaluated from precise calculations of the Fermi surface areas and effective masses.Comparison of the results with those obtained from experiments showed agreement when the 5/electrons were treated as itinerant. The nature of the bonding, electronic configurations and degree of localization of 5/ electrons in the actinide elements have been described in terms of a phenomenal model constructed from a knowledge of the crystal structure, the metallic radii, melting points and enthalpies of sublimation of the elements. The 5/electrons in the elements between protactinium... [Pg.449]

Nobelium is a member of the actinide series of elements. The ground state electron configuration is assumed to be (Rn)5fl47s2, by analogy with the equivalent lanthanide element ytterbium ([Kr]4fl46s2) there has never been enough nobelium made to experimentally verify the electronic configuration. Unlike the other actinide elements and the lanthanide elements, nobelium is most stable in solution as the dipositive cation No ". Consequently its chemistry resembles that of the much less chemically stable dipositive lanthanide cations or the common chemistry of the alkaline earth elements. When oxidized to No, nobelium follows the well-estabhshed chemistry of the stable, tripositive rare earth elements and of the other tripositive actinide elements (e.g., americium and curium), see also Actinium Berkelium Einsteinium Fermium Lawrencium Mendele-vium Neptunium Plutonium Protactinium Ruthereordium Thorium Uranium. [Pg.854]

See other pages where Thorium electronic configuration is mentioned: [Pg.216]    [Pg.217]    [Pg.466]    [Pg.16]    [Pg.140]    [Pg.305]    [Pg.453]    [Pg.784]    [Pg.314]    [Pg.1615]    [Pg.34]    [Pg.87]    [Pg.35]    [Pg.42]    [Pg.22]    [Pg.216]    [Pg.217]    [Pg.75]    [Pg.81]    [Pg.314]    [Pg.443]    [Pg.306]    [Pg.42]    [Pg.216]    [Pg.217]    [Pg.604]    [Pg.43]    [Pg.186]    [Pg.411]    [Pg.464]    [Pg.967]    [Pg.1059]    [Pg.1252]    [Pg.15]    [Pg.158]    [Pg.34]    [Pg.227]    [Pg.863]    [Pg.8]    [Pg.4]    [Pg.269]    [Pg.223]   
See also in sourсe #XX -- [ Pg.408 ]



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Thorium electron configuration

Thorium ground state electronic configuration

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