Add to ORKGWe study here critical behaviour of the thermodynamic quantities such as thermal expansivity alpha(p), isothermal compressibility k(T) and the specific heat C-p close to the melting point in solid hexadecane. By analyzing experimental data for the thermal expansivity measured at various pressures for constant temperatures of 302 and 325 K, we calculate the pressure dependence of the isothermal compressibility k(T) and specific heat C-p near the melting point in solid hexadecane. We then establish the Pippard relations (C-p vs. alpha(p) and alpha(p) vs. k(T)) for this molecular organic compound close to its melting point
This article reports novel measurements of the viscosity, eta, of liquid n-heptadecane at pressures ...
Heat capacities per unit volume for a set of nitroalkane + alcohol critical mixtures near their uppe...
The heat capacity C-p is calculated as a function of pressure at constant temperatures of 25, 40 and...
We examine here the validity of the Pippard relations close to the melting point in the premelting r...
1-Hexadecanol is one of the main raw materials in the production of many detergents, surfactants, pe...
The low-temperature heat capacities of 1-hexadecanol have been measured with an automatic adiabatic ...
We study here the Pippard relations as linear relations between the specific heat C-p and the therma...
Along isothermal paths, the expansivity of liquid hexane is shown to follow a power law up to a few ...
This study gives our application of the Pippard relations to the ammonia near its melting point. The...
The thermodynamic quantities such as the thermal expansion (alpha(p)), isothermal compressibility (K...
In this study, we calculate variation of the molar volume with the temperature at constant pressures...
This study gives our calculations for thermodynamic quantities, such as the isothermal cornpressibil...
The heat capacities of crystalline and liquid n-hexatriacontane were measured with an automatic adia...
AbstractIn this study, organic compounds with different structure were investigated, their latent he...
The thermal expansivity alpha (p) is related to isothermal compressibility kappa (T) at various pres...
This article reports novel measurements of the viscosity, eta, of liquid n-heptadecane at pressures ...
Heat capacities per unit volume for a set of nitroalkane + alcohol critical mixtures near their uppe...
The heat capacity C-p is calculated as a function of pressure at constant temperatures of 25, 40 and...
We examine here the validity of the Pippard relations close to the melting point in the premelting r...
1-Hexadecanol is one of the main raw materials in the production of many detergents, surfactants, pe...
The low-temperature heat capacities of 1-hexadecanol have been measured with an automatic adiabatic ...
We study here the Pippard relations as linear relations between the specific heat C-p and the therma...
Along isothermal paths, the expansivity of liquid hexane is shown to follow a power law up to a few ...
This study gives our application of the Pippard relations to the ammonia near its melting point. The...
The thermodynamic quantities such as the thermal expansion (alpha(p)), isothermal compressibility (K...
In this study, we calculate variation of the molar volume with the temperature at constant pressures...
This study gives our calculations for thermodynamic quantities, such as the isothermal cornpressibil...
The heat capacities of crystalline and liquid n-hexatriacontane were measured with an automatic adia...
AbstractIn this study, organic compounds with different structure were investigated, their latent he...
The thermal expansivity alpha (p) is related to isothermal compressibility kappa (T) at various pres...
This article reports novel measurements of the viscosity, eta, of liquid n-heptadecane at pressures ...
Heat capacities per unit volume for a set of nitroalkane + alcohol critical mixtures near their uppe...
The heat capacity C-p is calculated as a function of pressure at constant temperatures of 25, 40 and...