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Ionic electron configurations

Here are the guidelines for building atomic or ionic electron configurations ... [Pg.530]

The basis for the family relationships among the lanthanide elements themselves, and of periodic relationships that include the actinide elements, is their elemental and ionic electronic configurations. The fascinating story of the discovery and development of this truth can be found in several chapters in volume 11 of this Handbook on the Physics and Chemistry of Rare Earths (1988) and in the chapter by Seaborg (ch. 118) in this volume. The oxides provide a delicately sculpted model of the relationships between each element and other members of its series and also of the relationships between the two series. The electronic configurations for the ground state of the atoms and the relevant valence states of these elements are listed in table 1. The similarities and lack of congruence for the oxides of these two series is discussed in section 3. [Pg.415]

Recall that ions are simply atoms (or groups of atoms) that have lost or gained electrons, hi this section, we examine periodic trends in ionic electron configurations, magnetic properties, ionic radii, and ionization energies. [Pg.355]

Ionic Electron Configurations, Ionic Radii, Magnetic Properties, and Ionization Energy... [Pg.376]

There are many compounds which do not conduct electricity when solid or fused indicating that the bonding is neither metallic nor ionic. Lewis, in 1916. suggested that in such cases bonding resulted from a sharing of electrons. In the formation of methane CH4 for example, carbon, electronic configuration l.s 2.s 2p. uses the tour electrons in the second quantum level to form four equivalent... [Pg.36]

Structure determines properties and the properties of atoms depend on atomic struc ture All of an element s protons are m its nucleus but the element s electrons are dis tributed among orbitals of varying energy and distance from the nucleus More than any thing else we look at its electron configuration when we wish to understand how an element behaves The next section illustrates this with a brief review of ionic bonding... [Pg.10]

Whether an element is the source of the cation or anion in an ionic bond depends on several factors for which the periodic table can serve as a guide In forming ionic compounds elements at the left of the periodic table typically lose electrons giving a cation that has the same electron configuration as the nearest noble gas Loss of an elec tron from sodium for example yields Na which has the same electron configuration as neon... [Pg.11]

Only body-centered cubic crystals, lattice constant 428.2 pm at 20°C, are reported for sodium (4). The atomic radius is 185 pm, the ionic radius 97 pm, and electronic configuration is lE2E2 3T (5). Physical properties of sodium are given ia Table 2. Greater detail and other properties are also available... [Pg.161]

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]

Chemical bonds are strong forces of attraction which hold atoms together in a molecule. There are two main types of chemical bonds, viz. covalent and ionic bonds. In both cases there is a shift in the distribution of electrons such that the atoms in the molecule adopt the electronic configuration of inert gases. [Pg.24]

The electron configuration or orbital diagram of an atom of an element can be deduced from its position in the periodic table. Beyond that, position in the table can be used to predict (Section 6.8) the relative sizes of atoms and ions (atomic radius, ionic radius) and the relative tendencies of atoms to give up or acquire electrons (ionization energy, electronegativity). [Pg.133]

Valence and oxidation state are directly related to the valence-shell electron configuration of a group. Binary hydrides are classified as saline, metallic, or molecular. Oxides of metals tend to be ionic and to form basic solutions in water. Oxides of nonmetals are molecular and many are the anhydrides of acids. [Pg.705]

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