HEAT-CAPACITIES AND DENSITIES OF ELECTROLYTE MIXTURES IN AQUEOUS-SOLUTION - APPLICATION TO THE DETERMINATION OF APPARENT MOLAR HEAT-CAPACITIES AND VOLUMES FOR POTASSIUM TRIIODIDE AND DIOXONEPTUNIUM(V) PERCHLORATE

Apparent molar heat capacities for KI3(aq) were determined from flow-m icrocalorimetric measurements of KI(aq) solutions containing dissolved iodine. From these, the conventional partial molar heat capacity C(p, 2)infinity (I3-, aq, 298.15 K) = 156 +/- 40 JK-1 mol-1 is estimated. A lso, densities and heat capacities for NpO2ClO4(aq)+HClO4(aq) mixtures were measured. Preliminary values are reported for apparent molar hea t capacities (at 298.15 K) and volumes (at 296.02 K) for NpO2ClO4(aq). From these, values for the ionic apparent molar volume and heat capac ity of NpO2+(aq) are calculated. Analysis of the data is done assuming deviations from Young's rule are small for the apparent molar heat ca pacities of simple electrolytes. This is shown to be true for aqueous solutions of NaCl(aq) + KBr(aq) (298.15 K and 348.15 K) and NaCl(aq) MgCl2(aq) (348.15 K).