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Segovia, J.J., Lozano-Martin, D., Tuma, D., Moreau, A., Carmen Martín, M. and Vega-Maza, D. (2022) Speed of Sound Data and Acoustic Virial Coefficients of Two Binary (N2 H2) Mixtures at Temperatures between (260 and 350) K and at Pressures between (0.5 and 20) MPa. The Journal of Chemical Thermodynamics, 171, Article 106791.
https://doi.org/10.1016/j.jct.2022.106791
has been cited by the following article:
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TITLE:
Objective Model Selection in Physics: Exploring the Finite Information Quantity Approach
AUTHORS:
Boris Menin
KEYWORDS:
Comparative Uncertainty, Finite Information Quantity, Formulating a Model, Measurement Accuracy Limit, Objective Model Selection
JOURNAL NAME:
Journal of Applied Mathematics and Physics,
Vol.12 No.5,
May
30,
2024
ABSTRACT: Traditional methods for selecting models in experimental data analysis are susceptible to researcher bias, hindering exploration of alternative explanations and potentially leading to overfitting. The Finite Information Quantity (FIQ) approach offers a novel solution by acknowledging the inherent limitations in information processing capacity of physical systems. This framework facilitates the development of objective criteria for model selection (comparative uncertainty) and paves the way for a more comprehensive understanding of phenomena through exploring diverse explanations. This work presents a detailed comparison of the FIQ approach with ten established model selection methods, highlighting the advantages and limitations of each. We demonstrate the potential of FIQ to enhance the objectivity and robustness of scientific inquiry through three practical examples: selecting appropriate models for measuring fundamental constants, sound velocity, and underwater electrical discharges. Further research is warranted to explore the full applicability of FIQ across various scientific disciplines.