This respository investigates gravity, a modified theory of gravity that extends general relativity by incorporating the non-metricity scalar . The foundation is on the theoretical underpinnings and computational modeling, with applications in cosmology and gravitational phenomena. The primary focus is on understanding how this framework can describe the evolution of the universe, offering potential alternatives to dark energy or other extensions to standard gravity. Using computational methods, the project analyzes field equations, simulates cosmological dynamics, and visualizes the effects of f(Q) on large-scale structures in the universe. The goal is to explore how influences the dynamics of the universe and test its potential as an alternative to dark energy or other modifications to standard gravity.
This repository contains:
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Theoretical Framework: A primer on gravity and its implications in modified gravity theories.
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Python Simulations: Scripts and notebooks for computational analysis, utilizing libraries like NumPy, Matplotlib, and SymPy.
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Data Visualizations: Graphical representations of theoretical models and computational results.