Comparison of theoretical and experimental values of the number of metallic orbitals per atom in hypoelectronic and hyperelectronic metals

AUTOR(ES)

Pauling, Linus

RESUMO

The statistical resonating-valence-bond theory of metals is applied in the purely theoretical calculation of the composition of the Ni-Cu alloy at the foot of the curve of saturation ferromagnetic moment, which marks the boundary between hypoelectronic and hyperelectronic metals and determines the value of the number of metallic orbitals per atom. The results, Ni44Cu56 and 0.722 metallic orbitals, agree with the observed values. This agreement provides strong support of the theory.

Documentos Relacionados

• Extension of the statistical theory of resonating valence bonds to hyperelectronic metals
• Comparison of Theoretical with Observed Values of the Periods of Free Oscillation of the Earth
• COMPARISON OF THEORETICAL WITH OBSERVED VALUES OF THE PERIODS OF FREE OSCILLATION OF THE EARTH*
• A theoretical study on the photoionization of the valence orbitals of phosphine
• A revised set of values of single-bond radii derived from the observed interatomic distances in metals by correction for bond number and resonance energy