👉 Cellular mathematics, often referred to as biophysics or mathematical biology, involves applying mathematical concepts and models to understand the behavior and interactions of cells. This includes using differential equations to describe cell growth, diffusion processes to model the movement of molecules within and between cells, and statistical mechanics to analyze cellular dynamics at a microscopic level. For instance, the Gompertz function is used to model cell growth rates that initially increase rapidly but then slow down as cells reach their maximum capacity. Additionally, concepts from chaos theory and network theory help in understanding complex cellular interactions and signaling pathways. By integrating these mathematical frameworks, researchers can predict and interpret cellular behavior in various contexts, from development and differentiation to disease progression and response to treatments.
