Standard molar entropy

About: Standard molar entropy is a research topic. Over the lifetime, 1586 publications have been published within this topic receiving 29886 citations.

Absorbed heat and heat of formation of dried microbial biomassstudies on the thermodynamics of microbial growth

Abstract: As represented by equations in which there is a term representing the biomass, the thermodynamics of biological growth processes is difficult to study without knowing the thermodynamic properties of cellular structural fabric. Measurement of the heat capacity data required to determine the standard entropy, S298 15

Thermodynamic and magnetic properties of knorringite garnet (Mg 3 Cr 2 Si 3 O 12 ) based on low-temperature calorimetry and magnetic susceptibility measurements

Abstract: The low-temperature heat capacity of knorringite garnet (Mg3Cr2Si3O12) was measured between 2 and 300 K, and thermochemical functions were derived from the results. The measured heat capacity curves show a sharp lambda-shaped anomaly peaking at around 5.1 K. Magnetic susceptibility data show that the transition is caused by antiferromagnetic ordering. From the C p data, we suggest a standard entropy (298.15 K) of 301 ± 2.5 J mol−1 K−1 for Mg3Cr2Si3O12. The new data are also used in conjunction with previous experimental results to constrain ∆H f ° for knorringite.