Fluid mechanics
Fluid mechanics is a branch of physics that studies fluids (liquids, gases, and plasmas) and the forces on them. It can be divided into fluid statics, the study of fluids at rest, and fluid dynamics, the study of fluids in motion. Fluid mechanics is a fundamental subject in various fields, including engineering, geophysics, astrophysics, and biology.
Overview[edit | edit source]
Fluid mechanics encompasses both experimental and theoretical studies. Theoretical fluid mechanics develops mathematical models to understand fluid behavior, while experimental fluid mechanics involves physical testing to validate those models. Computational fluid dynamics (CFD), a branch of fluid mechanics, uses numerical methods and algorithms to solve and analyze problems involving fluid flows.
Fundamental Concepts[edit | edit source]
Several key concepts are essential in fluid mechanics, including:
- Pressure: The force exerted by a fluid per unit area.
- Density: The mass per unit volume of a fluid.
- Viscosity: A measure of a fluid's resistance to flow.
- Laminar flow and Turbulent flow: Types of fluid flow characterized by smooth, orderly motion and chaotic, irregular motion, respectively.
- Bernoulli's principle: A principle that describes the relationship between the velocity, pressure, and potential energy in a flowing fluid.
- Reynolds number: A dimensionless quantity used to predict flow patterns in different fluid flow situations.
Applications[edit | edit source]
Fluid mechanics has a wide range of applications, including:
- Aerodynamics: The study of air and other gases in motion and the forces acting on bodies moving through them.
- Hydrodynamics: The study of liquids in motion.
- Meteorology: The study of the atmosphere and weather patterns.
- Oceanography: The study of the physical and biological aspects of the ocean.
- Hydraulic engineering: The engineering discipline concerned with the flow and conveyance of fluids, particularly water.
Challenges and Future Directions[edit | edit source]
Fluid mechanics faces challenges in understanding phenomena such as turbulence, which remains one of the most complex and unsolved problems in physics. Advances in computational power and techniques are enabling more detailed and accurate simulations of fluid flows, opening new avenues for research and application.
See Also[edit | edit source]
References[edit | edit source]
External Links[edit | edit source]
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Contributors: Prab R. Tumpati, MD