Thermodynamics of chemical equilibrium—II Effect of volume, entropy, and enthalpy

A general thermodynamic derivation for the temperature and pressure derivatives of the chemical reaction parameter is presented. These derivatives are evaluated for several simple equations of state. Applications are indicated for error analysis, for computation of small changes, for correlation of

## Abstract The thermodynamic functions of biopolymer hydration were investigated by multitemperature vapor pressure studies. Desorption measurements were performed that allowed determination of reversible isotherms in the hydration range of 0.1 to 0.3–0.5 g H~2~O/g dry polymer. These isotherms are

## Abstract Fluorescence and absorbance methods were used to study the interaction of daunomycin with calf‐thymus DNA over a wide range of temperatures and NaCl concentrations. van't Hoff analysis provided estimates for the enthalpy of the binding reaction over the NaCl range of 0.05–1.0 __M__. Dau

General thermodynamic expressions are presented for the partial derivatives of the chemical reaction parameter with respect to temperature, pressure, volume, and external composition perturbations for multiple-reaction systems constrained to paths of chemical equilibrium under various conditions. Th