CONDUCTOMETRIC EVALUATION OF ASSOCIATION CONSTANTS FOR AQUEOUS SOLUTIONS OF CoCl<sub>2</sub> IN THE ABSENCE AND PRESENCE OF A MAGNETIC FIELD
Abstract:
<p align="justify"> The association constants KA for CoCl<sub>2</sub> aqueous solutions were calculated using the experimental conductivity values at different salt concentrations. The molar conductivities were measured in the absence and presence of a magnetic field with an average power of 0. 677 KGauss. A new equation for asymmetric 1:2 salts was suggested and used. This equation was derived from Ostwald, Arrhenius, and Fuoss-Shedlovsky theories. The results obtained were discussed and the effect of the magnetic field on the association constants was explained. </p>
<p align="justify"> The association constants KA for CoCl<sub>2</sub> aqueous solutions were calculated using the experimental conductivity values at different salt concentrations. The molar conductivities were measured in the absence and presence of a magnetic field with an average power of 0. 677 KGauss. A new equation for asymmetric 1:2 salts was suggested and used. This equation was derived from Ostwald, Arrhenius, and Fuoss-Shedlovsky theories. The results obtained were discussed and the effect of the magnetic field on the association constants was explained. </p>
DOI: 10.48141/SBJCHEM.v17.n17.2009.35_2009.pdf
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