Solubility of a solute mixture: (iodine + anthracene) in benzene or toluene or each of the three xylenes at the temperature 298.15 K

Excess molar enthalpies H E m of (2-butanol + benzene, or toluene, or o-, or m-, or p-xylene) over the entire composition range at the temperature 308.15 K have been measured in a flow microcalorimeter. The results are analysed in terms of a Mecke-Kempter type association model with a Flory contribu

The excess molar enthalpies H E m [x{BrCH2Cl or BrCH2CH2Cl or BrCH2CH2CH2Cl or BrCH2(CH2)2CH2Cl} + (1x)(CCl4 or C6H6)] have been measured at the temperature 298.15 K. Mixing was endothermic at all mole fractions except for [x{BrCH2Cl or BrCH2CH2CH2Cl or BrCH2(CH2)2CH2Cl} + (1x)C6H6]. The so-called '

Joint solubility measurements have been carried out for a solute mixture (iodine + anthracene) in three binary solvent mixtures {t B m-xylene + (1 -t B ) o-xylene}, {t B mxylene + (1 -t B ) p-xylene}, and {t B o-xylene + (1 -t B ) p-xylene} and one ternary solvent mixture {t B toluene + t C m-xylene

## ÄŽ Excess molar volumes for ternary pseudo-binary mixtures of benzene q cyclohexane, or . Ž .4 methylcyclohexane q acrylonitrile q cyclohexane, or methylcyclohexane have been obtained from the densities measured by means of an Anton Paar Model DMA 60r602 vibrating-tube densitometer at the tempe

Excess molar enthalpies of 2-methylpropan-2-ol q benzene, or toluene, or o-, or m-, or . p-xylene have been measured in a flow microcalorimeter over the entire composition range at the temperature 308.15 K . The results are analysed in terms of the Mecke᎐Kempter type association model with a Flory c

The excess molar Gibbs energies of mixing for 2-methylpropan-2-ol q benzene, or toluene, . or o-, or m-, or p-xylene at T s 308.15 K have been calculated by the Barker method from vapour pressure data measured by the static method. The Gibbs energies of mixing for these binary systems are also analy