Fluid dynamics

The Science of Fluid Motion

Fluid dynamics is a branch of science that explores the behavior of fluids, which can be both liquids and gases. It plays a crucial role in various scientific and engineering disciplines, including physics, environmental science, aerospace engineering and metaphorically human consciousness.


Fluid dynamics is the study of how fluids move and interact with their surroundings. This encompasses a wide range of phenomena, from the flow of water in rivers to the movement of air around an airplane wing. By understanding the principles of fluid dynamics, scientists and engineers can design more efficient vehicles, predict weather patterns, and even investigate the behavior of blood flow in the human body.

Human brain signals travelling across the outer layer of neural tissue look very similar to air and ocean currents.


The 3 major subdisciplines of Fluid Dynamics
Fluid Mechanics: Fluid mechanics is perhaps the most well-known subdiscipline of fluid dynamics. It focuses on the study of how fluids flow and the forces that act upon them. This includes investigating viscosity, turbulence, and the conservation of mass and energy in fluid systems. Fluid mechanics is essential for understanding the behavior of fluids in motion and is used in a wide range of applications, from designing water pumps to predicting the weather.


Hydrodynamics: Hydrodynamics is a subdiscipline of fluid dynamics that specifically deals with the behavior of liquids, such as water. It explores how liquids flow in response to various forces, including gravity, pressure, and surface tension. Hydrodynamics is used in a variety of fields, including naval architecture, oceanography, and hydraulic engineering. By studying hydrodynamics, scientists can predict the movement of ocean currents, design more efficient ships, and even model the dynamics of blood flow in the human circulatory system.


Aerodynamics: Aerodynamics is the subdiscipline of fluid dynamics that focuses on the behavior of gases, particularly air. It is essential for understanding the flow of air around objects, such as airplanes, cars, and buildings. By studying aerodynamics, engineers can design more aerodynamic vehicles, reduce drag, and increase fuel efficiency. Aerodynamics is also used in the design of wind turbines, rockets, and even sports equipment, such as golf balls and racing cars.