Magnetohydrodynamic
Magnetohydrodynamics (MHD) is the combination of hydrodynamics and electromagnetism that studies the interaction between magnetic fields and electrically conducting fluids. It has applications in propelling vehicles, generating electric power, and understanding phenomena like the Alfvén wave. MHD is also used to model plasmas as a perfectly conducting fluid. Basic materials such as a battery, magnet, and wires are needed to build a submarine drive using MHD principles. Equations of fluid dynamics and Maxwell's equations are used in the governing equations of MHD. Eric Priest's book, "Magnetohydrodynamics of the Sun," provides a comprehensible introduction to plasma physics.
Magnetohydrodynamics (MHD) is an interdisciplinary area that combines the fields of hydrodynamics and electromagnetism. It focuses on the study of the interaction between magnetic fields and electrically conducting fluids. MHD has diverse applications, including propelling vehicles, generating electric power, and exploring phenomena such as the Alfvén wave. This field also plays a crucial role in modeling plasmas as perfectly conducting fluids. The development of a submarine drive based on MHD principles requires basic materials such as a battery, magnet, and wires. The governing equations of MHD involve the integration of fluid dynamics equations with Maxwell's equations. For those interested in delving deeper, Eric Priest's book "Magnetohydrodynamics of the Sun" offers a comprehensive introduction to plasma physics.
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