What is it about?
This research paper discusses the use of integral equations theory to determine the molar specific heat capacity for systems described by the Morse potential. The results show that the specific heat is temperature dependent and proportional to the square of the Morse interaction well depth, as well as being influenced by other factors such as particle diameter and bond distance. The formula is applied to calculate the specific heat for various molecules.
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Why is it important?
The study uses the Mean-Spherical approximation to find the total energy of compositions described by Morse interaction. The study finds that the Morse molar specific heat is temperature dependent and proportional to the square of the Morse interaction well depth. The study also considers the effects of particles' diameter, bond distance, width parameter, and volumetric density on the Morse molar specific heat.
Perspectives
The study focuses on finding a formula for the molar specific heat capacity using the theory of integral equations for Morse interaction.
Dr. Marwan Al-Raeei
Damascus University
Read the Original
This page is a summary of: Morse potential specific heat with applications: an integral equations theory based, BMC Chemistry, March 2022, Springer Science + Business Media,
DOI: 10.1186/s13065-022-00811-3.
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