This content introduces a novel interdisciplinary methodology that bridges nanoscience and social science to analyze the dynamics of fake news spread within social groups. It explores the metaphorical parallels between the structural features of tellurium nanoparticles and graphene and the behavioral patterns of social groups in response to misinformation. The content discusses the potential applications of first-principles calculations in social simulations, focusing on the impact of fake news dissemination and the resonance of information within social networks. It also proposes hypotheses for social simulations inspired by graphene's properties and indirect applications of first-principles calculations to social simulation. The content provides equations and computational processes for modeling the enhancement of shared bonds, the collapse of secondary structure, and the impact and resonance of fake news within social groups. It also suggests the use of topological insulators, two-dimensional materials, and metamaterials in social simulations to gain a deeper understanding of fake news propagation dynamics.
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by Yasuko Kawah... alle arxiv.org 03-12-2024
https://arxiv.org/pdf/2403.05593.pdfDomande più approfondite