Magnetohydrodynamics Research Articles

Magnetohydrodynamics (MHD; additionally magneto-liquid elements or hydro­magnetics) is the investigation of the attractive properties and conduct of electrically leading liquids. Instances of such magneto­fluids incorporate plasmas, fluid metals, salt water, and electrolytes. "Magneto­hydro­dynamics" is gotten from magneto-meaning attractive field, hydro-importance water, and elements meaning development. The field of MHD was started by Hannes Alfvén,[1] for which he got the Nobel Prize in Physics in 1970.    The key idea driving MHD is that attractive fields can actuate flows in a moving conductive liquid, which thusly energizes the liquid and equally changes the attractive field itself. The arrangement of conditions that depict MHD are a blend of the Navier–Stokes conditions of liquid elements and Maxwell's conditions of electro­magnetism. These differential conditions must be comprehended at the same time, either diagnostically or numerically