👉 Simulations of fluid behavior involve computational models that replicate the movement, interaction, and transformation of fluids such as liquids and gases under various conditions. These simulations use mathematical equations, like the Navier-Stokes equations, to predict fluid dynamics, including velocity, pressure, temperature, and density changes. By inputting initial conditions and boundary constraints, researchers can observe how fluids respond to forces like gravity, viscosity, and external pressures, making it possible to study complex phenomena like turbulence, flow patterns, and heat transfer in a controlled, virtual environment. This approach is invaluable for applications ranging from optimizing aircraft design and improving weather forecasting to enhancing oil recovery and understanding biological processes.
