👉 Burning math, or the study of the rate at which objects burn, involves complex calculus and thermodynamics. At its core, it examines how heat flows through materials during combustion, considering factors like temperature gradients, chemical reactions, and material properties. The burning process is often modeled using the heat equation, which describes how temperature changes over time and space within a burning object or environment. This equation, coupled with the laws of conservation of mass and energy, leads to differential equations that describe the intricate dynamics of burning. For instance, the rate of heat release from a burning object can be modeled using the Arrhenius equation, which relates reaction rates to temperature. Understanding these mathematical relationships is crucial for optimizing combustion efficiency in engines, designing safer and more efficient burners, and predicting the behavior of fires in various environments.