Magnetohydrodynamics is the study of dynamics of electrically conducting
liquids. Therefore, for an in-depth comprehension of plasma physics, one
must be well acquainted with magnetohydrodynamics (MHD) behaviors. With
progresses in science, a gap between state-of-the-art researches and
published textbooks slowly develops. An interrelation between textbook
knowledge and updated research results can often be hard to develop.
Review articles can be of significant help in such cases. For
magnetically restricted fusions, toroidal magnetohydrodynamics theory
for tokamaks, magnetic relaxation procedure in spheromaks, and the
creation and stability of field-reversed configuration have been
provided in this book. In-depth descriptions of X-ray jets physics and
solar spicules, along with sub-fluid theory have been covered from the
vast domain of space plasma physics. For numerical techniques, the
definite numerical techniques for resistive MHD and the boundary control
formalism have also been provided in this book. Theory of Newtonian and
non-Newtonian fluids has also been presented in this book for
comprehending low temperature plasma physics.
