This project explores the differential growth under the reaction diffusion phenomena. Moving from the microscopic behavior of magnetic fluids to the macroscopic phenomenon of differential growth, revealing the interconnectedness of physical processes and biological phenomena. Beginning with an exploration of the properties and behaviors of magnetic fluids, and establishing an understanding of their unique dynamics. Transitioning to reaction-diffusion systems, resulting in the interplay between chemical reactions and diffusion processes, exemplified by models like the Gray-Scott algorithm. Exploring the boundless potential of interdisciplinary inquiry, transcending traditional disciplinary boundaries. The trajectory from magnetic fluids to differential growth underscores the power of interdisciplinary approaches in unraveling the mysteries of the natural world and propelling innovation in science and technology.
